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Epidermal Tumors Arising on Donor Sites From Autologous Skin Grafts: A Systematic Review

Article Type
Article
Changed
Wed, 08/07/2024 - 13:08
Display Headline
Epidermal Tumors Arising on Donor Sites From Autologous Skin Grafts: A Systematic Review
Author(s)
Nikolaos Chaitidis, MD
Zoi Papadopoulou, MD
Vasileios Paraschou, MD, MSc
Michail Panagiotidis, MD

Skin grafting is a surgical technique used to cover skin defects resulting from the removal of skin tumors, ulcers, or burn injuries.1-3 Complications can occur at both donor and recipient sites and may include bleeding, hematoma/seroma formation, postoperative pain, infection, scarring, paresthesia, skin pigmentation, graft contracture, and graft failure.1,2,4,5 The development of epidermal tumors is not commonly reported among the complications of skin grafting; however, cases of epidermal tumor development on skin graft donor sites during the postoperative period have been reported.6-12

We performed a systematic review of the literature for cases of epidermal tumor development on skin graft donor sites in patients undergoing autologous skin graft surgery. We present the clinical characteristics of these cases and discuss the nature of these tumors.

Methods

Search Strategy and Study Selection—A literature search was conducted by 2 independent researchers (Z.P. and V.P.) for articles published before December 2022 in the following databases: MEDLINE/PubMed, Web of Science, Scopus, Cochrane Library, OpenGrey, Google Scholar, and WorldCat. Search terms included all possible combinations of the following: keratoacanthoma, molluscum sebaceum, basal cell carcinoma, squamous cell carcinoma, acanthoma, wart, Merkel cell carcinoma, verruca, Bowen disease, keratosis, skin cancer, cutaneous cancer, skin neoplasia, cutaneous neoplasia, and skin tumor. The literature search terms were selected based on the World Health Organization classification of skin tumors.13 Manual bibliography checks were performed on all eligible search results for possible relevant studies. Discrepancies were resolved through discussion and, if needed, mediation by a third researcher (N.C.). To be included, a study had to report a case(s) of epidermal tumor(s) that was confirmed by histopathology and arose on a graft donor site in a patient receiving autologous skin grafts for any reason. No language, geographic, or report date restrictions were set.

Data Extraction, Quality Assessment, and Statistical Analysis—We adhered to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines.14 Two independent researchers (Z.P. and V.P.) retrieved the data from the included studies. We have used the terms case and patient interchangeably, and 1 month was measured as 4 weeks for simplicity. Disagreements were resolved by discussion and mediation by a third researcher (N.C.). The quality of the included studies was assessed by 2 researchers (M.P. and V.P.) using the tool proposed by Murad et al.15

We used descriptive statistical analysis to analyze clinical characteristics of the included cases. We performed separate descriptive analyses based on the most frequently reported types of epidermal tumors and compared the differences between different groups using the Mann-Whitney U test, χ2 test, and Fisher exact test. The level of significance was set at P<.05. All statistical analyses were conducted using SPSS (version 29).

 

 

Results

Literature Search and Characteristics of Included Studies—The initial literature search identified 1378 studies, which were screened based on title and abstract. After removing duplicate and irrelevant studies and evaluating the full text of eligible studies, 31 studies (4 case series and 27 case reports) were included in the systematic review (Figure).6-12,16-39 Quality assessment of the included studies is presented in Table 1.

Flowchart for a systematic review and meta-analysis using Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) criteria for articles published before December 2022.

Clinical Characteristics of Included Patients—Our systematic review included 36 patients with a mean age of 63 years and a male to female ratio of 2:1. The 2 most common causes for skin grafting were burn wounds and surgical excision of skin tumors. Most grafts were harvested from the thighs. The development of a solitary lesion on the donor area was reported in two-thirds of the patients, while more than 1 lesion developed in the remaining one-third of patients. The median time to tumor development was 6.5 weeks. In most cases, a split-thickness skin graft was used.

Cutaneous squamous cell carcinomas (CSCCs) were found in 23 patients, with well-differentiated CSCCs in 19 of these cases. Additionally, keratoacanthomas (KAs) were found in 10 patients. The majority of patients underwent surgical excision of the tumor. The median follow-up time was 12 months, during which recurrences were noted in a small percentage of cases. Clinical characteristics of included patients are presented in Table 2.

Comparison of Variables Between CSCC and KA Groups—The most common diagnoses among the included patients were CSCC and KA. There were no significant differences between the groups in clinical variables, including age, sex, reason for grafting, time to occurrence, and rate of recurrence (Table 3).

 

 

Comment

Reasons for Tumor Development on Skin Graft Donor Sites—The etiology behind epidermal tumor development on graft donor sites is unclear. According to one theory, iatrogenic contamination of the donor site during the removal of a primary epidermal tumor could be responsible. However, contemporary surgical procedures dictate the use of different sets of instruments for separate surgical sites. Moreover, this theory cannot explain the occurrence of epidermal tumors on donor sites in patients who have undergone skin grafting for the repair of burn wounds.37

Another theory suggests that hematogenous and/or lymphatic spread can occur from the site of the primary epidermal tumor to the donor site, which has increased vascularization.16,37 However, this theory also fails to provide an explanation for the development of epidermal tumors in patients who receive skin grafts for burn wounds.

A third theory states that the microenvironment of the donor site is key to tumor development. The donor site undergoes acute inflammation due to the trauma from harvesting the skin graft. According to this theory, acute inflammation could promote neoplastic growth and thus explain the development of epidermal tumors on the donor site.8,26 However, the relationship between acute inflammation and carcinogenesis remains unclear. What is known to date is that the development of CSCC has been documented primarily in chronically inflamed tissues, whereas the development of KA—a variant of CSCC with distinctive and more benign clinical characteristics—can be expected in the setting of acute trauma-related inflammation.13,40,41

Based on our systematic review, we propose that well-differentiated CSCC on graft donor sites might actually be misdiagnosed KA, given that the histopathologic differential diagnosis between CSCC and KA is extremely challenging.42 This hypothesis could explain the development of well-differentiated CSCC and KA on graft donor sites.

Conclusion

Development of CSCC and KA on graft donor sites can be listed among the postoperative complications of autologous skin grafting. Patients and physicians should be aware of this potential complication, and donor sites should be monitored for the occurrence of epidermal tumors.

References
  1. Adams DC, Ramsey ML. Grafts in dermatologic surgery: review and update on full- and split-thickness skin grafts, free cartilage grafts, and composite grafts. Dermatologic Surg. 2005;31(8, pt 2):1055-1067. doi:10.1111/j.1524-4725.2005.31831
  2. Shimizu R, Kishi K. Skin graft. Plast Surg Int. 2012;2012:563493. doi:10.1155/2012/563493
  3. Reddy S, El-Haddawi F, Fancourt M, et al. The incidence and risk factors for lower limb skin graft failure. Dermatol Res Pract. 2014;2014:582080. doi:10.1155/2014/582080
  4. Coughlin MJ, Dockery GD, Crawford ME, et al. Lower Extremity Soft Tissue & Cutaneous Plastic Surgery. 2nd ed. Saunders Ltd; 2012.
  5. Herskovitz I, Hughes OB, Macquhae F, et al. Epidermal skin grafting. Int Wound J. 2016;13(suppl 3):52-56. doi:10.1111/iwj.12631
  6. Wright H, McKinnell TH, Dunkin C. Recurrence of cutaneous squamous cell carcinoma at remote limb donor site. J Plast Reconstr Aesthet Surg. 2012;65:1265-1266. doi:10.1016/j.bjps.2012.01.022
  7. Thomas W, Rezzadeh K, Rossi K, et al. Squamous cell carcinoma arising at a skin graft donor site: case report and review of the literature. Plast Surg Case Stud. 2021;7:2513826X211008425. doi:10.1177/2513826X211008425
  8. Ponnuvelu G, Ng MFY, Connolly CM, et al. Inflammation to skin malignancy, time to rethink the link: SCC in skin graft donor sites. Surgeon. 2011;9:168-169. doi:10.1016/j.surge.2010.08.006
  9. Noori VJ, Trehan K, Savetamal A, et al. New onset squamous cell carcinoma in previous split-thickness skin graft donor site. Int J Surg. 2018;52:16-19. doi:10.1016/j.ijsu.2018.01.047
  10. Morritt DG, Khandwala AR. The development of squamous cell carcinomas in split-thickness skin graft donor sites. Eur J Plast Surg. 2013;36:377-380.
  11. McCormick M, Miotke S. Squamous cell carcinoma at split thickness skin graft donor site: a case report and review of the literature. J Burn Care Res. 2023;44:210-213. doi:10.1093/jbcr/irac137
  12. Haik J, Georgiou I, Farber N, et al. Squamous cell carcinoma arising in a split-thickness skin graft donor site. Burns. 2008;34:891-893. doi:10.1016/j.burns.2007.06.006
  13. Elder DE, Massi D, Scolyer RA WR. WHO Classification of Skin Tumours. 4th ed. IARC Press; 2018.
  14. Moher D, Liberati A, Tetzlaff J, et al. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. Ann Intern Med. 2009;151:264-269, W64. doi:10.7326/0003-4819-151-4-200908180-00135
  15. Murad MH, Sultan S, Haffar S, et al. Methodological quality and synthesis of case series and case reports. BMJ. 2018;23:60-63. doi:10.1136/bmjebm-2017-110853
  16. de Moraes LPB, Burchett I, Nicholls S, et al. Large solitary distant metastasis of cutaneous squamous cell carcinoma to skin graft site with complete response following definitive radiotherapy. Int J Bioautomation. 2017;21:103-108.
  17. Nagase K, Suzuki Y, Misago N, et al. Acute development of keratoacanthoma at a full-thickness skin graft donor site shortly after surgery. J Dermatol. 2016;43:1232-1233. doi:10.1111/1346-8138.13368
  18. Taylor CD, Snelling CF, Nickerson D, et al. Acute development of invasive squamous cell carcinoma in a split-thickness skin graft donor site. J Burn Care Rehabil. 1998;19:382-385. doi:10.1097/00004630-199809000-00004
  19. de Delas J, Leache A, Vazquez Doval J, et al. Keratoacanthoma over the donor site of a laminar skin graft. Med Cutan Ibero Lat Am. 1989;17:225-228.
  20. Neilson D, Emerson DJ, Dunn L. Squamous cell carcinoma of skin developing in a skin graft donor site. Br J Plast Surg. 1988;41:417-419. doi:10.1016/0007-1226(88)90086-0
  21. May JT, Patil YJ. Keratoacanthoma-type squamous cell carcinoma developing in a skin graft donor site after tumor extirpation at a distant site. Ear Nose Throat J. 2010;89:E11-E13.
  22. Imbernón-Moya A, Vargas-Laguna E, Lobato-Berezo A, et al. Simultaneous onset of basal cell carcinoma over skin graft and donor site. JAAD Case Rep. 2015;1:244-246. doi:10.1016/j.jdcr.2015.05.004
  23. Lee S, Coutts I, Ryan A, et al. Keratoacanthoma formation after skin grafting: a brief report and pathophysiological hypothesis. Australas J Dermatol. 2017;58:e117-e119. doi:10.1111/ajd.12501
  24. Hammond JS, Thomsen S, Ward CG. Scar carcinoma arising acutelyin a skin graft donor site. J Trauma. 1987;27:681-683. doi:10.1097/00005373-198706000-00017
  25. Herard C, Arnaud D, Goga D, et al. Rapid onset of squamous cell carcinoma in a thin skin graft donor site. Ann Dermatol Venereol. 2016;143:457-461. doi:10.1016/j.annder.2015.03.027
  26. Ibrahim A, Moisidis E. Case series: rapidly growing squamous cell carcinoma after cutaneous surgical intervention. JPRAS Open. 2017;14:27-32. doi:10.1016/j.jpra.2017.08.004
  27. Kearney L, Dolan RT, Parfrey NA, et al. Squamous cell carcinoma arising in a skin graft donor site following melanoma extirpation at a distant site: a case report and review of the literature. JPRAS Open. 2015;3:35-38. doi:10.1016/j.jpra.2015.02.002
  28. Clark MA, Guitart J, Gerami P, et al. Eruptive keratoacanthomatous atypical squamous proliferations (KASPs) arising in skin graft sites. JAAD Case Rep. 2015;1:274-276. doi:10.1016/j.jdcr.2015.06.009
  29. Aloraifi F, Mulgrew S, James NK. Secondary Merkel cell carcinoma arising from a graft donor site. J Cutan Med Surg. 2017;21:167-169. doi:10.1177/1203475416676805
  30. Abadir R, Zurowski S. Case report: squamous cell carcinoma of the skin in both palms, axillary node, donor skin graft site and both soles—associated hyperkeratosis and porokeratosis. Br J Radiol. 1994;67:507-510. doi:10.1259/0007-1285-67-797-507
  31. Griffiths RW. Keratoacanthoma observed. Br J Plast Surg. 2004;57:485-501. doi:10.1016/j.bjps.2004.05.007
  32. Marous M, Brady K. Cutaneous squamous cell carcinoma arising in a split thickness skin graft donor site in a patient with systemic lupus erythematosus. Dermatologic Surg. 2021;47:1106-1107. doi:10.1097/DSS.0000000000002955
  33. Dibden FA, Fowler M. The multiple growth of molluscum sebaceum in donor and recipient sites of skin graft. Aust N Z J Surg. 1955;25:157-159. doi:10.1111/j.1445-2197.1955.tb05122.x
  34. Jeremiah BS. Squamous cell carcinoma development on donor area following removal of a split thickness skin graft. Plast Reconstr Surg. 1948;3:718-721.
  35. Tamir G, Morgenstern S, Ben-Amitay D, et al. Synchronous appearance of keratoacanthomas in burn scar and skin graft donor site shortly after injury. J Am Acad Dermatol. 1999;40(5, pt 2):870-871. doi:10.1053/jd.1999.v40.a94419
  36. Hamilton SA, Dickson WA, O’Brien CJ. Keratoacanthoma developing in a split skin graft donor site. Br J Plast Surg. 1997;50:560-561. doi:10.1016/s0007-1226(97)91308-4
  37. Hussain A, Ekwobi C, Watson S. Metastatic implantation squamous cell carcinoma in a split-thickness skin graft donor site. J Plast Reconstr Aesthet Surg. 2011;64:690-692. doi:10.1016/j.bjps.2010.06.004
  38. Wulsin JH. Keratoacanthoma: a benign cutaneous tumors arising in a skin graft donor site. Am Surg. 1958;24:689-692.
  39. Davis L, Butler D. Acute development of squamous cell carcinoma in a split-thickness skin graft donor site [abstract]. J Am Acad Dermatol. 2012;66:AB208. doi:10.1016/j.jaad.2011.11.874
  40. Shacter E, Weitzman SA. Chronic inflammation and cancer. Oncology (Williston Park). 2002;16:217-226, 229; discussion 230-232.
  41.  Piotrowski I, Kulcenty K, Suchorska W. Interplay between inflammation and cancer. Reports Pract Oncol Radiother. 2020;25:422-427. doi:10.1016/j.rpor.2020.04.004
  42. Carr RA, Houghton JP. Histopathologists’ approach to keratoacanthoma: a multisite survey of regional variation in Great Britain and Ireland. J Clin Pathol. 2014;67:637-638. doi:10.1136/jclinpath-2014-202255
Article PDF
CT114002006_e.pdf
Author and Disclosure Information

Dr. Chaitidis is from the Department of Dermatology and Venereology, 424 General Military Training Hospital, Thessaloniki, Greece. Dr. Papadopoulou is from the 3rd Department of Pediatrics, Hippokration General Hospital, Aristotle University of Thessaloniki. Dr. Paraschou is from the 2nd Department of Pulmonology, University General Hospital Attikon, National and Kapodistrian University of Athens, Haidari, Greece, and Hellenic Police Medical Center, Thessaloniki. Dr. Panagiotidis is from the 1st Department of Surgery, Papageorgiou General Hospital, Thessaloniki.

The authors report no conflict of interest.

Correspondence: Nikolaos Chaitidis, MD, Department of Dermatology and Venereology, 424 General Military Training Hospital, Thessaloniki, Greece, Perifereiaki Odos Neas Eukarpias 56429 ([email protected]).

Cutis. 2024 August;114(2):E6-E12. doi:10.12788/cutis.1079

Issue
Cutis - 114(2)
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Cutis
Topics
Nonmelanoma Skin Cancer
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Page Number
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Sections
Clinical Review
Author(s)
Nikolaos Chaitidis, MD
Zoi Papadopoulou, MD
Vasileios Paraschou, MD, MSc
Michail Panagiotidis, MD
Author(s)
Nikolaos Chaitidis, MD
Zoi Papadopoulou, MD
Vasileios Paraschou, MD, MSc
Michail Panagiotidis, MD
Author and Disclosure Information

Dr. Chaitidis is from the Department of Dermatology and Venereology, 424 General Military Training Hospital, Thessaloniki, Greece. Dr. Papadopoulou is from the 3rd Department of Pediatrics, Hippokration General Hospital, Aristotle University of Thessaloniki. Dr. Paraschou is from the 2nd Department of Pulmonology, University General Hospital Attikon, National and Kapodistrian University of Athens, Haidari, Greece, and Hellenic Police Medical Center, Thessaloniki. Dr. Panagiotidis is from the 1st Department of Surgery, Papageorgiou General Hospital, Thessaloniki.

The authors report no conflict of interest.

Correspondence: Nikolaos Chaitidis, MD, Department of Dermatology and Venereology, 424 General Military Training Hospital, Thessaloniki, Greece, Perifereiaki Odos Neas Eukarpias 56429 ([email protected]).

Cutis. 2024 August;114(2):E6-E12. doi:10.12788/cutis.1079

Author and Disclosure Information

Dr. Chaitidis is from the Department of Dermatology and Venereology, 424 General Military Training Hospital, Thessaloniki, Greece. Dr. Papadopoulou is from the 3rd Department of Pediatrics, Hippokration General Hospital, Aristotle University of Thessaloniki. Dr. Paraschou is from the 2nd Department of Pulmonology, University General Hospital Attikon, National and Kapodistrian University of Athens, Haidari, Greece, and Hellenic Police Medical Center, Thessaloniki. Dr. Panagiotidis is from the 1st Department of Surgery, Papageorgiou General Hospital, Thessaloniki.

The authors report no conflict of interest.

Correspondence: Nikolaos Chaitidis, MD, Department of Dermatology and Venereology, 424 General Military Training Hospital, Thessaloniki, Greece, Perifereiaki Odos Neas Eukarpias 56429 ([email protected]).

Cutis. 2024 August;114(2):E6-E12. doi:10.12788/cutis.1079

Article PDF
CT114002006_e.pdf
Article PDF
CT114002006_e.pdf

Skin grafting is a surgical technique used to cover skin defects resulting from the removal of skin tumors, ulcers, or burn injuries.1-3 Complications can occur at both donor and recipient sites and may include bleeding, hematoma/seroma formation, postoperative pain, infection, scarring, paresthesia, skin pigmentation, graft contracture, and graft failure.1,2,4,5 The development of epidermal tumors is not commonly reported among the complications of skin grafting; however, cases of epidermal tumor development on skin graft donor sites during the postoperative period have been reported.6-12

We performed a systematic review of the literature for cases of epidermal tumor development on skin graft donor sites in patients undergoing autologous skin graft surgery. We present the clinical characteristics of these cases and discuss the nature of these tumors.

Methods

Search Strategy and Study Selection—A literature search was conducted by 2 independent researchers (Z.P. and V.P.) for articles published before December 2022 in the following databases: MEDLINE/PubMed, Web of Science, Scopus, Cochrane Library, OpenGrey, Google Scholar, and WorldCat. Search terms included all possible combinations of the following: keratoacanthoma, molluscum sebaceum, basal cell carcinoma, squamous cell carcinoma, acanthoma, wart, Merkel cell carcinoma, verruca, Bowen disease, keratosis, skin cancer, cutaneous cancer, skin neoplasia, cutaneous neoplasia, and skin tumor. The literature search terms were selected based on the World Health Organization classification of skin tumors.13 Manual bibliography checks were performed on all eligible search results for possible relevant studies. Discrepancies were resolved through discussion and, if needed, mediation by a third researcher (N.C.). To be included, a study had to report a case(s) of epidermal tumor(s) that was confirmed by histopathology and arose on a graft donor site in a patient receiving autologous skin grafts for any reason. No language, geographic, or report date restrictions were set.

Data Extraction, Quality Assessment, and Statistical Analysis—We adhered to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines.14 Two independent researchers (Z.P. and V.P.) retrieved the data from the included studies. We have used the terms case and patient interchangeably, and 1 month was measured as 4 weeks for simplicity. Disagreements were resolved by discussion and mediation by a third researcher (N.C.). The quality of the included studies was assessed by 2 researchers (M.P. and V.P.) using the tool proposed by Murad et al.15

We used descriptive statistical analysis to analyze clinical characteristics of the included cases. We performed separate descriptive analyses based on the most frequently reported types of epidermal tumors and compared the differences between different groups using the Mann-Whitney U test, χ2 test, and Fisher exact test. The level of significance was set at P<.05. All statistical analyses were conducted using SPSS (version 29).

 

 

Results

Literature Search and Characteristics of Included Studies—The initial literature search identified 1378 studies, which were screened based on title and abstract. After removing duplicate and irrelevant studies and evaluating the full text of eligible studies, 31 studies (4 case series and 27 case reports) were included in the systematic review (Figure).6-12,16-39 Quality assessment of the included studies is presented in Table 1.

Flowchart for a systematic review and meta-analysis using Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) criteria for articles published before December 2022.

Clinical Characteristics of Included Patients—Our systematic review included 36 patients with a mean age of 63 years and a male to female ratio of 2:1. The 2 most common causes for skin grafting were burn wounds and surgical excision of skin tumors. Most grafts were harvested from the thighs. The development of a solitary lesion on the donor area was reported in two-thirds of the patients, while more than 1 lesion developed in the remaining one-third of patients. The median time to tumor development was 6.5 weeks. In most cases, a split-thickness skin graft was used.

Cutaneous squamous cell carcinomas (CSCCs) were found in 23 patients, with well-differentiated CSCCs in 19 of these cases. Additionally, keratoacanthomas (KAs) were found in 10 patients. The majority of patients underwent surgical excision of the tumor. The median follow-up time was 12 months, during which recurrences were noted in a small percentage of cases. Clinical characteristics of included patients are presented in Table 2.

Comparison of Variables Between CSCC and KA Groups—The most common diagnoses among the included patients were CSCC and KA. There were no significant differences between the groups in clinical variables, including age, sex, reason for grafting, time to occurrence, and rate of recurrence (Table 3).

 

 

Comment

Reasons for Tumor Development on Skin Graft Donor Sites—The etiology behind epidermal tumor development on graft donor sites is unclear. According to one theory, iatrogenic contamination of the donor site during the removal of a primary epidermal tumor could be responsible. However, contemporary surgical procedures dictate the use of different sets of instruments for separate surgical sites. Moreover, this theory cannot explain the occurrence of epidermal tumors on donor sites in patients who have undergone skin grafting for the repair of burn wounds.37

Another theory suggests that hematogenous and/or lymphatic spread can occur from the site of the primary epidermal tumor to the donor site, which has increased vascularization.16,37 However, this theory also fails to provide an explanation for the development of epidermal tumors in patients who receive skin grafts for burn wounds.

A third theory states that the microenvironment of the donor site is key to tumor development. The donor site undergoes acute inflammation due to the trauma from harvesting the skin graft. According to this theory, acute inflammation could promote neoplastic growth and thus explain the development of epidermal tumors on the donor site.8,26 However, the relationship between acute inflammation and carcinogenesis remains unclear. What is known to date is that the development of CSCC has been documented primarily in chronically inflamed tissues, whereas the development of KA—a variant of CSCC with distinctive and more benign clinical characteristics—can be expected in the setting of acute trauma-related inflammation.13,40,41

Based on our systematic review, we propose that well-differentiated CSCC on graft donor sites might actually be misdiagnosed KA, given that the histopathologic differential diagnosis between CSCC and KA is extremely challenging.42 This hypothesis could explain the development of well-differentiated CSCC and KA on graft donor sites.

Conclusion

Development of CSCC and KA on graft donor sites can be listed among the postoperative complications of autologous skin grafting. Patients and physicians should be aware of this potential complication, and donor sites should be monitored for the occurrence of epidermal tumors.

Skin grafting is a surgical technique used to cover skin defects resulting from the removal of skin tumors, ulcers, or burn injuries.1-3 Complications can occur at both donor and recipient sites and may include bleeding, hematoma/seroma formation, postoperative pain, infection, scarring, paresthesia, skin pigmentation, graft contracture, and graft failure.1,2,4,5 The development of epidermal tumors is not commonly reported among the complications of skin grafting; however, cases of epidermal tumor development on skin graft donor sites during the postoperative period have been reported.6-12

We performed a systematic review of the literature for cases of epidermal tumor development on skin graft donor sites in patients undergoing autologous skin graft surgery. We present the clinical characteristics of these cases and discuss the nature of these tumors.

Methods

Search Strategy and Study Selection—A literature search was conducted by 2 independent researchers (Z.P. and V.P.) for articles published before December 2022 in the following databases: MEDLINE/PubMed, Web of Science, Scopus, Cochrane Library, OpenGrey, Google Scholar, and WorldCat. Search terms included all possible combinations of the following: keratoacanthoma, molluscum sebaceum, basal cell carcinoma, squamous cell carcinoma, acanthoma, wart, Merkel cell carcinoma, verruca, Bowen disease, keratosis, skin cancer, cutaneous cancer, skin neoplasia, cutaneous neoplasia, and skin tumor. The literature search terms were selected based on the World Health Organization classification of skin tumors.13 Manual bibliography checks were performed on all eligible search results for possible relevant studies. Discrepancies were resolved through discussion and, if needed, mediation by a third researcher (N.C.). To be included, a study had to report a case(s) of epidermal tumor(s) that was confirmed by histopathology and arose on a graft donor site in a patient receiving autologous skin grafts for any reason. No language, geographic, or report date restrictions were set.

Data Extraction, Quality Assessment, and Statistical Analysis—We adhered to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines.14 Two independent researchers (Z.P. and V.P.) retrieved the data from the included studies. We have used the terms case and patient interchangeably, and 1 month was measured as 4 weeks for simplicity. Disagreements were resolved by discussion and mediation by a third researcher (N.C.). The quality of the included studies was assessed by 2 researchers (M.P. and V.P.) using the tool proposed by Murad et al.15

We used descriptive statistical analysis to analyze clinical characteristics of the included cases. We performed separate descriptive analyses based on the most frequently reported types of epidermal tumors and compared the differences between different groups using the Mann-Whitney U test, χ2 test, and Fisher exact test. The level of significance was set at P<.05. All statistical analyses were conducted using SPSS (version 29).

 

 

Results

Literature Search and Characteristics of Included Studies—The initial literature search identified 1378 studies, which were screened based on title and abstract. After removing duplicate and irrelevant studies and evaluating the full text of eligible studies, 31 studies (4 case series and 27 case reports) were included in the systematic review (Figure).6-12,16-39 Quality assessment of the included studies is presented in Table 1.

Flowchart for a systematic review and meta-analysis using Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) criteria for articles published before December 2022.

Clinical Characteristics of Included Patients—Our systematic review included 36 patients with a mean age of 63 years and a male to female ratio of 2:1. The 2 most common causes for skin grafting were burn wounds and surgical excision of skin tumors. Most grafts were harvested from the thighs. The development of a solitary lesion on the donor area was reported in two-thirds of the patients, while more than 1 lesion developed in the remaining one-third of patients. The median time to tumor development was 6.5 weeks. In most cases, a split-thickness skin graft was used.

Cutaneous squamous cell carcinomas (CSCCs) were found in 23 patients, with well-differentiated CSCCs in 19 of these cases. Additionally, keratoacanthomas (KAs) were found in 10 patients. The majority of patients underwent surgical excision of the tumor. The median follow-up time was 12 months, during which recurrences were noted in a small percentage of cases. Clinical characteristics of included patients are presented in Table 2.

Comparison of Variables Between CSCC and KA Groups—The most common diagnoses among the included patients were CSCC and KA. There were no significant differences between the groups in clinical variables, including age, sex, reason for grafting, time to occurrence, and rate of recurrence (Table 3).

 

 

Comment

Reasons for Tumor Development on Skin Graft Donor Sites—The etiology behind epidermal tumor development on graft donor sites is unclear. According to one theory, iatrogenic contamination of the donor site during the removal of a primary epidermal tumor could be responsible. However, contemporary surgical procedures dictate the use of different sets of instruments for separate surgical sites. Moreover, this theory cannot explain the occurrence of epidermal tumors on donor sites in patients who have undergone skin grafting for the repair of burn wounds.37

Another theory suggests that hematogenous and/or lymphatic spread can occur from the site of the primary epidermal tumor to the donor site, which has increased vascularization.16,37 However, this theory also fails to provide an explanation for the development of epidermal tumors in patients who receive skin grafts for burn wounds.

A third theory states that the microenvironment of the donor site is key to tumor development. The donor site undergoes acute inflammation due to the trauma from harvesting the skin graft. According to this theory, acute inflammation could promote neoplastic growth and thus explain the development of epidermal tumors on the donor site.8,26 However, the relationship between acute inflammation and carcinogenesis remains unclear. What is known to date is that the development of CSCC has been documented primarily in chronically inflamed tissues, whereas the development of KA—a variant of CSCC with distinctive and more benign clinical characteristics—can be expected in the setting of acute trauma-related inflammation.13,40,41

Based on our systematic review, we propose that well-differentiated CSCC on graft donor sites might actually be misdiagnosed KA, given that the histopathologic differential diagnosis between CSCC and KA is extremely challenging.42 This hypothesis could explain the development of well-differentiated CSCC and KA on graft donor sites.

Conclusion

Development of CSCC and KA on graft donor sites can be listed among the postoperative complications of autologous skin grafting. Patients and physicians should be aware of this potential complication, and donor sites should be monitored for the occurrence of epidermal tumors.

References
  1. Adams DC, Ramsey ML. Grafts in dermatologic surgery: review and update on full- and split-thickness skin grafts, free cartilage grafts, and composite grafts. Dermatologic Surg. 2005;31(8, pt 2):1055-1067. doi:10.1111/j.1524-4725.2005.31831
  2. Shimizu R, Kishi K. Skin graft. Plast Surg Int. 2012;2012:563493. doi:10.1155/2012/563493
  3. Reddy S, El-Haddawi F, Fancourt M, et al. The incidence and risk factors for lower limb skin graft failure. Dermatol Res Pract. 2014;2014:582080. doi:10.1155/2014/582080
  4. Coughlin MJ, Dockery GD, Crawford ME, et al. Lower Extremity Soft Tissue & Cutaneous Plastic Surgery. 2nd ed. Saunders Ltd; 2012.
  5. Herskovitz I, Hughes OB, Macquhae F, et al. Epidermal skin grafting. Int Wound J. 2016;13(suppl 3):52-56. doi:10.1111/iwj.12631
  6. Wright H, McKinnell TH, Dunkin C. Recurrence of cutaneous squamous cell carcinoma at remote limb donor site. J Plast Reconstr Aesthet Surg. 2012;65:1265-1266. doi:10.1016/j.bjps.2012.01.022
  7. Thomas W, Rezzadeh K, Rossi K, et al. Squamous cell carcinoma arising at a skin graft donor site: case report and review of the literature. Plast Surg Case Stud. 2021;7:2513826X211008425. doi:10.1177/2513826X211008425
  8. Ponnuvelu G, Ng MFY, Connolly CM, et al. Inflammation to skin malignancy, time to rethink the link: SCC in skin graft donor sites. Surgeon. 2011;9:168-169. doi:10.1016/j.surge.2010.08.006
  9. Noori VJ, Trehan K, Savetamal A, et al. New onset squamous cell carcinoma in previous split-thickness skin graft donor site. Int J Surg. 2018;52:16-19. doi:10.1016/j.ijsu.2018.01.047
  10. Morritt DG, Khandwala AR. The development of squamous cell carcinomas in split-thickness skin graft donor sites. Eur J Plast Surg. 2013;36:377-380.
  11. McCormick M, Miotke S. Squamous cell carcinoma at split thickness skin graft donor site: a case report and review of the literature. J Burn Care Res. 2023;44:210-213. doi:10.1093/jbcr/irac137
  12. Haik J, Georgiou I, Farber N, et al. Squamous cell carcinoma arising in a split-thickness skin graft donor site. Burns. 2008;34:891-893. doi:10.1016/j.burns.2007.06.006
  13. Elder DE, Massi D, Scolyer RA WR. WHO Classification of Skin Tumours. 4th ed. IARC Press; 2018.
  14. Moher D, Liberati A, Tetzlaff J, et al. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. Ann Intern Med. 2009;151:264-269, W64. doi:10.7326/0003-4819-151-4-200908180-00135
  15. Murad MH, Sultan S, Haffar S, et al. Methodological quality and synthesis of case series and case reports. BMJ. 2018;23:60-63. doi:10.1136/bmjebm-2017-110853
  16. de Moraes LPB, Burchett I, Nicholls S, et al. Large solitary distant metastasis of cutaneous squamous cell carcinoma to skin graft site with complete response following definitive radiotherapy. Int J Bioautomation. 2017;21:103-108.
  17. Nagase K, Suzuki Y, Misago N, et al. Acute development of keratoacanthoma at a full-thickness skin graft donor site shortly after surgery. J Dermatol. 2016;43:1232-1233. doi:10.1111/1346-8138.13368
  18. Taylor CD, Snelling CF, Nickerson D, et al. Acute development of invasive squamous cell carcinoma in a split-thickness skin graft donor site. J Burn Care Rehabil. 1998;19:382-385. doi:10.1097/00004630-199809000-00004
  19. de Delas J, Leache A, Vazquez Doval J, et al. Keratoacanthoma over the donor site of a laminar skin graft. Med Cutan Ibero Lat Am. 1989;17:225-228.
  20. Neilson D, Emerson DJ, Dunn L. Squamous cell carcinoma of skin developing in a skin graft donor site. Br J Plast Surg. 1988;41:417-419. doi:10.1016/0007-1226(88)90086-0
  21. May JT, Patil YJ. Keratoacanthoma-type squamous cell carcinoma developing in a skin graft donor site after tumor extirpation at a distant site. Ear Nose Throat J. 2010;89:E11-E13.
  22. Imbernón-Moya A, Vargas-Laguna E, Lobato-Berezo A, et al. Simultaneous onset of basal cell carcinoma over skin graft and donor site. JAAD Case Rep. 2015;1:244-246. doi:10.1016/j.jdcr.2015.05.004
  23. Lee S, Coutts I, Ryan A, et al. Keratoacanthoma formation after skin grafting: a brief report and pathophysiological hypothesis. Australas J Dermatol. 2017;58:e117-e119. doi:10.1111/ajd.12501
  24. Hammond JS, Thomsen S, Ward CG. Scar carcinoma arising acutelyin a skin graft donor site. J Trauma. 1987;27:681-683. doi:10.1097/00005373-198706000-00017
  25. Herard C, Arnaud D, Goga D, et al. Rapid onset of squamous cell carcinoma in a thin skin graft donor site. Ann Dermatol Venereol. 2016;143:457-461. doi:10.1016/j.annder.2015.03.027
  26. Ibrahim A, Moisidis E. Case series: rapidly growing squamous cell carcinoma after cutaneous surgical intervention. JPRAS Open. 2017;14:27-32. doi:10.1016/j.jpra.2017.08.004
  27. Kearney L, Dolan RT, Parfrey NA, et al. Squamous cell carcinoma arising in a skin graft donor site following melanoma extirpation at a distant site: a case report and review of the literature. JPRAS Open. 2015;3:35-38. doi:10.1016/j.jpra.2015.02.002
  28. Clark MA, Guitart J, Gerami P, et al. Eruptive keratoacanthomatous atypical squamous proliferations (KASPs) arising in skin graft sites. JAAD Case Rep. 2015;1:274-276. doi:10.1016/j.jdcr.2015.06.009
  29. Aloraifi F, Mulgrew S, James NK. Secondary Merkel cell carcinoma arising from a graft donor site. J Cutan Med Surg. 2017;21:167-169. doi:10.1177/1203475416676805
  30. Abadir R, Zurowski S. Case report: squamous cell carcinoma of the skin in both palms, axillary node, donor skin graft site and both soles—associated hyperkeratosis and porokeratosis. Br J Radiol. 1994;67:507-510. doi:10.1259/0007-1285-67-797-507
  31. Griffiths RW. Keratoacanthoma observed. Br J Plast Surg. 2004;57:485-501. doi:10.1016/j.bjps.2004.05.007
  32. Marous M, Brady K. Cutaneous squamous cell carcinoma arising in a split thickness skin graft donor site in a patient with systemic lupus erythematosus. Dermatologic Surg. 2021;47:1106-1107. doi:10.1097/DSS.0000000000002955
  33. Dibden FA, Fowler M. The multiple growth of molluscum sebaceum in donor and recipient sites of skin graft. Aust N Z J Surg. 1955;25:157-159. doi:10.1111/j.1445-2197.1955.tb05122.x
  34. Jeremiah BS. Squamous cell carcinoma development on donor area following removal of a split thickness skin graft. Plast Reconstr Surg. 1948;3:718-721.
  35. Tamir G, Morgenstern S, Ben-Amitay D, et al. Synchronous appearance of keratoacanthomas in burn scar and skin graft donor site shortly after injury. J Am Acad Dermatol. 1999;40(5, pt 2):870-871. doi:10.1053/jd.1999.v40.a94419
  36. Hamilton SA, Dickson WA, O’Brien CJ. Keratoacanthoma developing in a split skin graft donor site. Br J Plast Surg. 1997;50:560-561. doi:10.1016/s0007-1226(97)91308-4
  37. Hussain A, Ekwobi C, Watson S. Metastatic implantation squamous cell carcinoma in a split-thickness skin graft donor site. J Plast Reconstr Aesthet Surg. 2011;64:690-692. doi:10.1016/j.bjps.2010.06.004
  38. Wulsin JH. Keratoacanthoma: a benign cutaneous tumors arising in a skin graft donor site. Am Surg. 1958;24:689-692.
  39. Davis L, Butler D. Acute development of squamous cell carcinoma in a split-thickness skin graft donor site [abstract]. J Am Acad Dermatol. 2012;66:AB208. doi:10.1016/j.jaad.2011.11.874
  40. Shacter E, Weitzman SA. Chronic inflammation and cancer. Oncology (Williston Park). 2002;16:217-226, 229; discussion 230-232.
  41.  Piotrowski I, Kulcenty K, Suchorska W. Interplay between inflammation and cancer. Reports Pract Oncol Radiother. 2020;25:422-427. doi:10.1016/j.rpor.2020.04.004
  42. Carr RA, Houghton JP. Histopathologists’ approach to keratoacanthoma: a multisite survey of regional variation in Great Britain and Ireland. J Clin Pathol. 2014;67:637-638. doi:10.1136/jclinpath-2014-202255
References
  1. Adams DC, Ramsey ML. Grafts in dermatologic surgery: review and update on full- and split-thickness skin grafts, free cartilage grafts, and composite grafts. Dermatologic Surg. 2005;31(8, pt 2):1055-1067. doi:10.1111/j.1524-4725.2005.31831
  2. Shimizu R, Kishi K. Skin graft. Plast Surg Int. 2012;2012:563493. doi:10.1155/2012/563493
  3. Reddy S, El-Haddawi F, Fancourt M, et al. The incidence and risk factors for lower limb skin graft failure. Dermatol Res Pract. 2014;2014:582080. doi:10.1155/2014/582080
  4. Coughlin MJ, Dockery GD, Crawford ME, et al. Lower Extremity Soft Tissue & Cutaneous Plastic Surgery. 2nd ed. Saunders Ltd; 2012.
  5. Herskovitz I, Hughes OB, Macquhae F, et al. Epidermal skin grafting. Int Wound J. 2016;13(suppl 3):52-56. doi:10.1111/iwj.12631
  6. Wright H, McKinnell TH, Dunkin C. Recurrence of cutaneous squamous cell carcinoma at remote limb donor site. J Plast Reconstr Aesthet Surg. 2012;65:1265-1266. doi:10.1016/j.bjps.2012.01.022
  7. Thomas W, Rezzadeh K, Rossi K, et al. Squamous cell carcinoma arising at a skin graft donor site: case report and review of the literature. Plast Surg Case Stud. 2021;7:2513826X211008425. doi:10.1177/2513826X211008425
  8. Ponnuvelu G, Ng MFY, Connolly CM, et al. Inflammation to skin malignancy, time to rethink the link: SCC in skin graft donor sites. Surgeon. 2011;9:168-169. doi:10.1016/j.surge.2010.08.006
  9. Noori VJ, Trehan K, Savetamal A, et al. New onset squamous cell carcinoma in previous split-thickness skin graft donor site. Int J Surg. 2018;52:16-19. doi:10.1016/j.ijsu.2018.01.047
  10. Morritt DG, Khandwala AR. The development of squamous cell carcinomas in split-thickness skin graft donor sites. Eur J Plast Surg. 2013;36:377-380.
  11. McCormick M, Miotke S. Squamous cell carcinoma at split thickness skin graft donor site: a case report and review of the literature. J Burn Care Res. 2023;44:210-213. doi:10.1093/jbcr/irac137
  12. Haik J, Georgiou I, Farber N, et al. Squamous cell carcinoma arising in a split-thickness skin graft donor site. Burns. 2008;34:891-893. doi:10.1016/j.burns.2007.06.006
  13. Elder DE, Massi D, Scolyer RA WR. WHO Classification of Skin Tumours. 4th ed. IARC Press; 2018.
  14. Moher D, Liberati A, Tetzlaff J, et al. Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. Ann Intern Med. 2009;151:264-269, W64. doi:10.7326/0003-4819-151-4-200908180-00135
  15. Murad MH, Sultan S, Haffar S, et al. Methodological quality and synthesis of case series and case reports. BMJ. 2018;23:60-63. doi:10.1136/bmjebm-2017-110853
  16. de Moraes LPB, Burchett I, Nicholls S, et al. Large solitary distant metastasis of cutaneous squamous cell carcinoma to skin graft site with complete response following definitive radiotherapy. Int J Bioautomation. 2017;21:103-108.
  17. Nagase K, Suzuki Y, Misago N, et al. Acute development of keratoacanthoma at a full-thickness skin graft donor site shortly after surgery. J Dermatol. 2016;43:1232-1233. doi:10.1111/1346-8138.13368
  18. Taylor CD, Snelling CF, Nickerson D, et al. Acute development of invasive squamous cell carcinoma in a split-thickness skin graft donor site. J Burn Care Rehabil. 1998;19:382-385. doi:10.1097/00004630-199809000-00004
  19. de Delas J, Leache A, Vazquez Doval J, et al. Keratoacanthoma over the donor site of a laminar skin graft. Med Cutan Ibero Lat Am. 1989;17:225-228.
  20. Neilson D, Emerson DJ, Dunn L. Squamous cell carcinoma of skin developing in a skin graft donor site. Br J Plast Surg. 1988;41:417-419. doi:10.1016/0007-1226(88)90086-0
  21. May JT, Patil YJ. Keratoacanthoma-type squamous cell carcinoma developing in a skin graft donor site after tumor extirpation at a distant site. Ear Nose Throat J. 2010;89:E11-E13.
  22. Imbernón-Moya A, Vargas-Laguna E, Lobato-Berezo A, et al. Simultaneous onset of basal cell carcinoma over skin graft and donor site. JAAD Case Rep. 2015;1:244-246. doi:10.1016/j.jdcr.2015.05.004
  23. Lee S, Coutts I, Ryan A, et al. Keratoacanthoma formation after skin grafting: a brief report and pathophysiological hypothesis. Australas J Dermatol. 2017;58:e117-e119. doi:10.1111/ajd.12501
  24. Hammond JS, Thomsen S, Ward CG. Scar carcinoma arising acutelyin a skin graft donor site. J Trauma. 1987;27:681-683. doi:10.1097/00005373-198706000-00017
  25. Herard C, Arnaud D, Goga D, et al. Rapid onset of squamous cell carcinoma in a thin skin graft donor site. Ann Dermatol Venereol. 2016;143:457-461. doi:10.1016/j.annder.2015.03.027
  26. Ibrahim A, Moisidis E. Case series: rapidly growing squamous cell carcinoma after cutaneous surgical intervention. JPRAS Open. 2017;14:27-32. doi:10.1016/j.jpra.2017.08.004
  27. Kearney L, Dolan RT, Parfrey NA, et al. Squamous cell carcinoma arising in a skin graft donor site following melanoma extirpation at a distant site: a case report and review of the literature. JPRAS Open. 2015;3:35-38. doi:10.1016/j.jpra.2015.02.002
  28. Clark MA, Guitart J, Gerami P, et al. Eruptive keratoacanthomatous atypical squamous proliferations (KASPs) arising in skin graft sites. JAAD Case Rep. 2015;1:274-276. doi:10.1016/j.jdcr.2015.06.009
  29. Aloraifi F, Mulgrew S, James NK. Secondary Merkel cell carcinoma arising from a graft donor site. J Cutan Med Surg. 2017;21:167-169. doi:10.1177/1203475416676805
  30. Abadir R, Zurowski S. Case report: squamous cell carcinoma of the skin in both palms, axillary node, donor skin graft site and both soles—associated hyperkeratosis and porokeratosis. Br J Radiol. 1994;67:507-510. doi:10.1259/0007-1285-67-797-507
  31. Griffiths RW. Keratoacanthoma observed. Br J Plast Surg. 2004;57:485-501. doi:10.1016/j.bjps.2004.05.007
  32. Marous M, Brady K. Cutaneous squamous cell carcinoma arising in a split thickness skin graft donor site in a patient with systemic lupus erythematosus. Dermatologic Surg. 2021;47:1106-1107. doi:10.1097/DSS.0000000000002955
  33. Dibden FA, Fowler M. The multiple growth of molluscum sebaceum in donor and recipient sites of skin graft. Aust N Z J Surg. 1955;25:157-159. doi:10.1111/j.1445-2197.1955.tb05122.x
  34. Jeremiah BS. Squamous cell carcinoma development on donor area following removal of a split thickness skin graft. Plast Reconstr Surg. 1948;3:718-721.
  35. Tamir G, Morgenstern S, Ben-Amitay D, et al. Synchronous appearance of keratoacanthomas in burn scar and skin graft donor site shortly after injury. J Am Acad Dermatol. 1999;40(5, pt 2):870-871. doi:10.1053/jd.1999.v40.a94419
  36. Hamilton SA, Dickson WA, O’Brien CJ. Keratoacanthoma developing in a split skin graft donor site. Br J Plast Surg. 1997;50:560-561. doi:10.1016/s0007-1226(97)91308-4
  37. Hussain A, Ekwobi C, Watson S. Metastatic implantation squamous cell carcinoma in a split-thickness skin graft donor site. J Plast Reconstr Aesthet Surg. 2011;64:690-692. doi:10.1016/j.bjps.2010.06.004
  38. Wulsin JH. Keratoacanthoma: a benign cutaneous tumors arising in a skin graft donor site. Am Surg. 1958;24:689-692.
  39. Davis L, Butler D. Acute development of squamous cell carcinoma in a split-thickness skin graft donor site [abstract]. J Am Acad Dermatol. 2012;66:AB208. doi:10.1016/j.jaad.2011.11.874
  40. Shacter E, Weitzman SA. Chronic inflammation and cancer. Oncology (Williston Park). 2002;16:217-226, 229; discussion 230-232.
  41.  Piotrowski I, Kulcenty K, Suchorska W. Interplay between inflammation and cancer. Reports Pract Oncol Radiother. 2020;25:422-427. doi:10.1016/j.rpor.2020.04.004
  42. Carr RA, Houghton JP. Histopathologists’ approach to keratoacanthoma: a multisite survey of regional variation in Great Britain and Ireland. J Clin Pathol. 2014;67:637-638. doi:10.1136/jclinpath-2014-202255
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  • Donor site cutaneous squamous cell carcinoma (CSCC) and keratoacanthoma (KA) can be postoperative complications of autologous skin grafting.
  • Surgical excision of donor site CSCC and KA typically is curative.
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Management, Evaluation of Chronic Itch in Older Adults

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Christine Kilgore

WASHINGTONImmunoglobulin E (IgE) and eosinophils appeared to be reliable biomarkers of type 2 inflammation in chronic pruritus of unknown origin (CPUO) and predictors of a positive response to immunomodulatory therapies, Shawn G. Kwatra, MD, said at the ElderDerm conference on dermatology in older patients hosted by the GW School of Medicine & Health Sciences.

“We found a few years ago that eosinophils seem to differentiate this group, and now we’re finding that IgE and CBC [complete blood count] differential can help you get a little better sense of who has an immune-driven itch vs something more neuropathic,” said Dr. Kwatra, professor and chair of dermatology at the University of Maryland, Baltimore, who founded and directed the Johns Hopkins Itch Center before coming to the University of Maryland in 2023. Not all patients with immune-driven itch will have these biomarkers, “but it’s a helpful tool,” he said.

Dr. Kwatra
Dr. Shawn G. Kwatra

CPUO is the term that is increasingly being used, he said, to describe intense, chronic pruritus without primary skin lesions or rashes and without any known systemic cause. It becomes more common as people get older and is sometimes debilitating. The initial evaluation should be kept “simple and straightforward,” he advised, with heightened concern for underlying malignancy in those who present with an itch of less than 12 months’ duration.
 

Biologics, JAK Inhibitors: Case Reports, Ongoing Research 

Research conducted by Dr. Kwatra and Jaya Manjunath, a fourth-year medical student at The George Washington University, Washington, documented higher levels of Th2-associated cytokines and inflammatory markers in patients with CPUO who had elevated IgE or eosinophil levels, or both than in patients with itch who had low IgE and eosinophil levels. The patients with higher levels also had a greater response to off-label treatment with immunomodulatory therapy.

“Multiple Th2-related inflammatory markers, like IL [interleukin]-5 and eotaxin-3, were reduced after dupilumab” in patients who responded to the therapy, said Ms. Manjunath, who co-presented the meeting session on chronic itch with Dr. Kwatra. Other changes in the plasma cytokine profile included a reduction in the serum level of thymus and activation-regulated chemokine, which is a biomarker for atopic dermatitis. The research is under review for publication.

Meanwhile, a phase 3 trial (LIBERTY-CPUO-CHIC) of dupilumab for CPUO is currently underway, Dr. Kwatra noted. Investigators are randomizing patients with severe pruritus (Worst Itch Numeric Rating Scale [WI-NRS] ≥ 7) to dupilumab or placebo for 12 or 24 weeks.

In one of several cases shared by Dr. Kwatra and Ms. Manjunath, a 71-year-old Black woman with a 6-month history of generalized itch (WI-NRS = 10) and a history of type 2 diabetes, hypertension, and chronic kidney disease was found to have elevated eosinophil levels and a negative malignancy workup. Previous therapies included antihistamines and topical steroids. She was started on a 600-mg loading dose of subcutaneous dupilumab followed by 300 mg every 14 days. At the 2-month follow-up, her WI-NRS score was 0.

Because “dupilumab is off label right now for this form of itch, oftentimes our first line is methotrexate,” Dr. Kwatra said. Patients “can have a good response with this therapeutic.”

He also described the case of a 72-year-old Black woman with total body itch for 2 years (WI-NRS = 10) and a history of seasonal allergies, thyroid disease, and hypertension. Previous therapies included prednisone, antihistamines, topical steroids, and gabapentin. The patient was found to have high IgE (447 kU/L) and eosinophil levels (4.9%), was started on methotrexate, and had an itch score of 0 at the 8-month follow-up.

JAK inhibitors may also have a role in the management of CPUO. A phase 2 nonrandomized controlled trial of abrocitinib for adults with prurigo nodularis (PN) or CPUO, recently published in JAMA Dermatology, showed itch scores decreased by 53.7% in the CPUO group (and 78.3% in the PN group) after 12 weeks of treatment with oral abrocitinib 200 mg daily. Patients had significant improvements in quality of life and no serious adverse events, said Dr. Kwatra, the lead author of the paper.

One of these patients was a 73-year-old White man who had experienced total body itch for 1.5 years (predominantly affecting his upper extremities; WI-NRS = 10) and a history of ascending aortic aneurysm, hypertension, and hyperlipidemia. Previous failed therapies included dupilumab (> 6 months), topical steroids, tacrolimus, and antihistamines. Labs showed elevated IgE (456 kU/L) and eosinophil levels (11.7%). After 12 weeks of treatment with abrocitinib, the WI-NRS decreased to 2.
 

 

 

PD-1 Inhibitors As a Trigger

Chronic pruritus caused by the anticancer PD-1 inhibitors is becoming more common as the utilization of these immune checkpoint inhibitors increases, Dr. Kwatra noted. “You don’t see much in the skin, but [these patients have] very high IgE and eosinophils,” he said. “We’ve been seeing more reports recently of utilizing agents that target type 2 inflammation off label for PD-1 inhibitor–related skin manifestations.”

One such patient with PD-1 inhibitor–induced pruritus was a 65-year-old White man with metastatic melanoma who reported a 6-month history of itching that began 3 weeks after the start of treatment with the PD-1 inhibitor pembrolizumab. His WI-NRS score was 10 despite treatment with topical steroids and antihistamines. He had a history of psoriasis. Labs showed elevated IgE (1350 kU/L) and eosinophil levels (4.5%). At a 4-month follow-up after treatment with off-label dupilumab (a 600-mg subcutaneous loading dose followed by 300 mg every 14 days), his WI-NRS score was 0.

In a paper recently published in JAAD International, Dr. Kwatra, Ms. Manjunath, and coinvestigators reported on a series of 15 patients who developed chronic pruritus following an immune stimulus exposure, including immunotherapy and vaccination (2024 Apr 7:16:97-102. doi: 10.1016/j.jdin.2024.03.022). Most immunotherapy-treated patients experienced pruritus during treatment or after 21-60 days of receiving treatment, and the patients with vaccine-stimulated pruritus (after Tdap and messenger RNA COVID-19 vaccination) developed pruritus within a week of vaccination.

In addition to the elevated levels of IgE and eosinophils, plasma cytokine analysis showed elevated levels of IL-5, thymic stromal lymphopoietin, and other Th2-related cytokines and inflammatory markers in patients with immune-stimulated pruritus compared with healthy controls, Ms. Manjunath said at the meeting.

When a Malignancy Workup Becomes Important

The initial part of any diagnostic workup for CPUO should include CBC with differential, liver function tests, renal function tests, and thyroid function testing, said Kwatra, referring to a diagnostic algorithm he developed, which was published as part of a CME review in the Journal of the American Academy of Dermatology in 2022.

Then, as indicated by risk factors in the history and physical, one could order other tests such as HIV serology, hepatitis B/C serologies, bullous pemphigoid testing, chest x-rays, evaluation for gammopathies, stool examination for ova and parasites, or heavy metal testing. “Do you do everything at once? We like to keep it straightforward,” Dr. Kwatra said. “Depending on the patient’s risk factors, you could order more or less.”

A malignancy workup should be strongly considered in patients whose itch duration is less than 12 months — and especially if the duration is less than 3 months — with an emphasis on cancers more frequently associated with itch: Hematologic and hepatobiliary cancers. This is “when concern should be heightened ... when there should be a lower threshold for workup,” he said.

The 12-month recommendation stems from a Danish cohort study published in 2014 that demonstrated a twofold increased incidence of cancer among patients with pruritus in the first 3 months after the diagnosis of pruritus. The 1-year absolute cancer risk was 1.63%.

Other risk factors for underlying malignancy or malignancy development in patients with CPUO include age older than 60 years, male sex, liver disease, and current or prior smoking, according to another study, noted Dr. Kwatra.

Dr. Kwatra disclosed that he is an advisory board member/consultant for Pfizer, Regeneron, Sanofi, and other companies and an investigator for Galderma, Incyte, Pfizer, and Sanofi. Manjunath served as the codirector of the ElderDerm conference.
 

A version of this article first appeared on Medscape.com.

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Christine Kilgore
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Christine Kilgore

WASHINGTONImmunoglobulin E (IgE) and eosinophils appeared to be reliable biomarkers of type 2 inflammation in chronic pruritus of unknown origin (CPUO) and predictors of a positive response to immunomodulatory therapies, Shawn G. Kwatra, MD, said at the ElderDerm conference on dermatology in older patients hosted by the GW School of Medicine & Health Sciences.

“We found a few years ago that eosinophils seem to differentiate this group, and now we’re finding that IgE and CBC [complete blood count] differential can help you get a little better sense of who has an immune-driven itch vs something more neuropathic,” said Dr. Kwatra, professor and chair of dermatology at the University of Maryland, Baltimore, who founded and directed the Johns Hopkins Itch Center before coming to the University of Maryland in 2023. Not all patients with immune-driven itch will have these biomarkers, “but it’s a helpful tool,” he said.

Dr. Kwatra
Dr. Shawn G. Kwatra

CPUO is the term that is increasingly being used, he said, to describe intense, chronic pruritus without primary skin lesions or rashes and without any known systemic cause. It becomes more common as people get older and is sometimes debilitating. The initial evaluation should be kept “simple and straightforward,” he advised, with heightened concern for underlying malignancy in those who present with an itch of less than 12 months’ duration.
 

Biologics, JAK Inhibitors: Case Reports, Ongoing Research 

Research conducted by Dr. Kwatra and Jaya Manjunath, a fourth-year medical student at The George Washington University, Washington, documented higher levels of Th2-associated cytokines and inflammatory markers in patients with CPUO who had elevated IgE or eosinophil levels, or both than in patients with itch who had low IgE and eosinophil levels. The patients with higher levels also had a greater response to off-label treatment with immunomodulatory therapy.

“Multiple Th2-related inflammatory markers, like IL [interleukin]-5 and eotaxin-3, were reduced after dupilumab” in patients who responded to the therapy, said Ms. Manjunath, who co-presented the meeting session on chronic itch with Dr. Kwatra. Other changes in the plasma cytokine profile included a reduction in the serum level of thymus and activation-regulated chemokine, which is a biomarker for atopic dermatitis. The research is under review for publication.

Meanwhile, a phase 3 trial (LIBERTY-CPUO-CHIC) of dupilumab for CPUO is currently underway, Dr. Kwatra noted. Investigators are randomizing patients with severe pruritus (Worst Itch Numeric Rating Scale [WI-NRS] ≥ 7) to dupilumab or placebo for 12 or 24 weeks.

In one of several cases shared by Dr. Kwatra and Ms. Manjunath, a 71-year-old Black woman with a 6-month history of generalized itch (WI-NRS = 10) and a history of type 2 diabetes, hypertension, and chronic kidney disease was found to have elevated eosinophil levels and a negative malignancy workup. Previous therapies included antihistamines and topical steroids. She was started on a 600-mg loading dose of subcutaneous dupilumab followed by 300 mg every 14 days. At the 2-month follow-up, her WI-NRS score was 0.

Because “dupilumab is off label right now for this form of itch, oftentimes our first line is methotrexate,” Dr. Kwatra said. Patients “can have a good response with this therapeutic.”

He also described the case of a 72-year-old Black woman with total body itch for 2 years (WI-NRS = 10) and a history of seasonal allergies, thyroid disease, and hypertension. Previous therapies included prednisone, antihistamines, topical steroids, and gabapentin. The patient was found to have high IgE (447 kU/L) and eosinophil levels (4.9%), was started on methotrexate, and had an itch score of 0 at the 8-month follow-up.

JAK inhibitors may also have a role in the management of CPUO. A phase 2 nonrandomized controlled trial of abrocitinib for adults with prurigo nodularis (PN) or CPUO, recently published in JAMA Dermatology, showed itch scores decreased by 53.7% in the CPUO group (and 78.3% in the PN group) after 12 weeks of treatment with oral abrocitinib 200 mg daily. Patients had significant improvements in quality of life and no serious adverse events, said Dr. Kwatra, the lead author of the paper.

One of these patients was a 73-year-old White man who had experienced total body itch for 1.5 years (predominantly affecting his upper extremities; WI-NRS = 10) and a history of ascending aortic aneurysm, hypertension, and hyperlipidemia. Previous failed therapies included dupilumab (> 6 months), topical steroids, tacrolimus, and antihistamines. Labs showed elevated IgE (456 kU/L) and eosinophil levels (11.7%). After 12 weeks of treatment with abrocitinib, the WI-NRS decreased to 2.
 

 

 

PD-1 Inhibitors As a Trigger

Chronic pruritus caused by the anticancer PD-1 inhibitors is becoming more common as the utilization of these immune checkpoint inhibitors increases, Dr. Kwatra noted. “You don’t see much in the skin, but [these patients have] very high IgE and eosinophils,” he said. “We’ve been seeing more reports recently of utilizing agents that target type 2 inflammation off label for PD-1 inhibitor–related skin manifestations.”

One such patient with PD-1 inhibitor–induced pruritus was a 65-year-old White man with metastatic melanoma who reported a 6-month history of itching that began 3 weeks after the start of treatment with the PD-1 inhibitor pembrolizumab. His WI-NRS score was 10 despite treatment with topical steroids and antihistamines. He had a history of psoriasis. Labs showed elevated IgE (1350 kU/L) and eosinophil levels (4.5%). At a 4-month follow-up after treatment with off-label dupilumab (a 600-mg subcutaneous loading dose followed by 300 mg every 14 days), his WI-NRS score was 0.

In a paper recently published in JAAD International, Dr. Kwatra, Ms. Manjunath, and coinvestigators reported on a series of 15 patients who developed chronic pruritus following an immune stimulus exposure, including immunotherapy and vaccination (2024 Apr 7:16:97-102. doi: 10.1016/j.jdin.2024.03.022). Most immunotherapy-treated patients experienced pruritus during treatment or after 21-60 days of receiving treatment, and the patients with vaccine-stimulated pruritus (after Tdap and messenger RNA COVID-19 vaccination) developed pruritus within a week of vaccination.

In addition to the elevated levels of IgE and eosinophils, plasma cytokine analysis showed elevated levels of IL-5, thymic stromal lymphopoietin, and other Th2-related cytokines and inflammatory markers in patients with immune-stimulated pruritus compared with healthy controls, Ms. Manjunath said at the meeting.

When a Malignancy Workup Becomes Important

The initial part of any diagnostic workup for CPUO should include CBC with differential, liver function tests, renal function tests, and thyroid function testing, said Kwatra, referring to a diagnostic algorithm he developed, which was published as part of a CME review in the Journal of the American Academy of Dermatology in 2022.

Then, as indicated by risk factors in the history and physical, one could order other tests such as HIV serology, hepatitis B/C serologies, bullous pemphigoid testing, chest x-rays, evaluation for gammopathies, stool examination for ova and parasites, or heavy metal testing. “Do you do everything at once? We like to keep it straightforward,” Dr. Kwatra said. “Depending on the patient’s risk factors, you could order more or less.”

A malignancy workup should be strongly considered in patients whose itch duration is less than 12 months — and especially if the duration is less than 3 months — with an emphasis on cancers more frequently associated with itch: Hematologic and hepatobiliary cancers. This is “when concern should be heightened ... when there should be a lower threshold for workup,” he said.

The 12-month recommendation stems from a Danish cohort study published in 2014 that demonstrated a twofold increased incidence of cancer among patients with pruritus in the first 3 months after the diagnosis of pruritus. The 1-year absolute cancer risk was 1.63%.

Other risk factors for underlying malignancy or malignancy development in patients with CPUO include age older than 60 years, male sex, liver disease, and current or prior smoking, according to another study, noted Dr. Kwatra.

Dr. Kwatra disclosed that he is an advisory board member/consultant for Pfizer, Regeneron, Sanofi, and other companies and an investigator for Galderma, Incyte, Pfizer, and Sanofi. Manjunath served as the codirector of the ElderDerm conference.
 

A version of this article first appeared on Medscape.com.

WASHINGTONImmunoglobulin E (IgE) and eosinophils appeared to be reliable biomarkers of type 2 inflammation in chronic pruritus of unknown origin (CPUO) and predictors of a positive response to immunomodulatory therapies, Shawn G. Kwatra, MD, said at the ElderDerm conference on dermatology in older patients hosted by the GW School of Medicine & Health Sciences.

“We found a few years ago that eosinophils seem to differentiate this group, and now we’re finding that IgE and CBC [complete blood count] differential can help you get a little better sense of who has an immune-driven itch vs something more neuropathic,” said Dr. Kwatra, professor and chair of dermatology at the University of Maryland, Baltimore, who founded and directed the Johns Hopkins Itch Center before coming to the University of Maryland in 2023. Not all patients with immune-driven itch will have these biomarkers, “but it’s a helpful tool,” he said.

Dr. Kwatra
Dr. Shawn G. Kwatra

CPUO is the term that is increasingly being used, he said, to describe intense, chronic pruritus without primary skin lesions or rashes and without any known systemic cause. It becomes more common as people get older and is sometimes debilitating. The initial evaluation should be kept “simple and straightforward,” he advised, with heightened concern for underlying malignancy in those who present with an itch of less than 12 months’ duration.
 

Biologics, JAK Inhibitors: Case Reports, Ongoing Research 

Research conducted by Dr. Kwatra and Jaya Manjunath, a fourth-year medical student at The George Washington University, Washington, documented higher levels of Th2-associated cytokines and inflammatory markers in patients with CPUO who had elevated IgE or eosinophil levels, or both than in patients with itch who had low IgE and eosinophil levels. The patients with higher levels also had a greater response to off-label treatment with immunomodulatory therapy.

“Multiple Th2-related inflammatory markers, like IL [interleukin]-5 and eotaxin-3, were reduced after dupilumab” in patients who responded to the therapy, said Ms. Manjunath, who co-presented the meeting session on chronic itch with Dr. Kwatra. Other changes in the plasma cytokine profile included a reduction in the serum level of thymus and activation-regulated chemokine, which is a biomarker for atopic dermatitis. The research is under review for publication.

Meanwhile, a phase 3 trial (LIBERTY-CPUO-CHIC) of dupilumab for CPUO is currently underway, Dr. Kwatra noted. Investigators are randomizing patients with severe pruritus (Worst Itch Numeric Rating Scale [WI-NRS] ≥ 7) to dupilumab or placebo for 12 or 24 weeks.

In one of several cases shared by Dr. Kwatra and Ms. Manjunath, a 71-year-old Black woman with a 6-month history of generalized itch (WI-NRS = 10) and a history of type 2 diabetes, hypertension, and chronic kidney disease was found to have elevated eosinophil levels and a negative malignancy workup. Previous therapies included antihistamines and topical steroids. She was started on a 600-mg loading dose of subcutaneous dupilumab followed by 300 mg every 14 days. At the 2-month follow-up, her WI-NRS score was 0.

Because “dupilumab is off label right now for this form of itch, oftentimes our first line is methotrexate,” Dr. Kwatra said. Patients “can have a good response with this therapeutic.”

He also described the case of a 72-year-old Black woman with total body itch for 2 years (WI-NRS = 10) and a history of seasonal allergies, thyroid disease, and hypertension. Previous therapies included prednisone, antihistamines, topical steroids, and gabapentin. The patient was found to have high IgE (447 kU/L) and eosinophil levels (4.9%), was started on methotrexate, and had an itch score of 0 at the 8-month follow-up.

JAK inhibitors may also have a role in the management of CPUO. A phase 2 nonrandomized controlled trial of abrocitinib for adults with prurigo nodularis (PN) or CPUO, recently published in JAMA Dermatology, showed itch scores decreased by 53.7% in the CPUO group (and 78.3% in the PN group) after 12 weeks of treatment with oral abrocitinib 200 mg daily. Patients had significant improvements in quality of life and no serious adverse events, said Dr. Kwatra, the lead author of the paper.

One of these patients was a 73-year-old White man who had experienced total body itch for 1.5 years (predominantly affecting his upper extremities; WI-NRS = 10) and a history of ascending aortic aneurysm, hypertension, and hyperlipidemia. Previous failed therapies included dupilumab (> 6 months), topical steroids, tacrolimus, and antihistamines. Labs showed elevated IgE (456 kU/L) and eosinophil levels (11.7%). After 12 weeks of treatment with abrocitinib, the WI-NRS decreased to 2.
 

 

 

PD-1 Inhibitors As a Trigger

Chronic pruritus caused by the anticancer PD-1 inhibitors is becoming more common as the utilization of these immune checkpoint inhibitors increases, Dr. Kwatra noted. “You don’t see much in the skin, but [these patients have] very high IgE and eosinophils,” he said. “We’ve been seeing more reports recently of utilizing agents that target type 2 inflammation off label for PD-1 inhibitor–related skin manifestations.”

One such patient with PD-1 inhibitor–induced pruritus was a 65-year-old White man with metastatic melanoma who reported a 6-month history of itching that began 3 weeks after the start of treatment with the PD-1 inhibitor pembrolizumab. His WI-NRS score was 10 despite treatment with topical steroids and antihistamines. He had a history of psoriasis. Labs showed elevated IgE (1350 kU/L) and eosinophil levels (4.5%). At a 4-month follow-up after treatment with off-label dupilumab (a 600-mg subcutaneous loading dose followed by 300 mg every 14 days), his WI-NRS score was 0.

In a paper recently published in JAAD International, Dr. Kwatra, Ms. Manjunath, and coinvestigators reported on a series of 15 patients who developed chronic pruritus following an immune stimulus exposure, including immunotherapy and vaccination (2024 Apr 7:16:97-102. doi: 10.1016/j.jdin.2024.03.022). Most immunotherapy-treated patients experienced pruritus during treatment or after 21-60 days of receiving treatment, and the patients with vaccine-stimulated pruritus (after Tdap and messenger RNA COVID-19 vaccination) developed pruritus within a week of vaccination.

In addition to the elevated levels of IgE and eosinophils, plasma cytokine analysis showed elevated levels of IL-5, thymic stromal lymphopoietin, and other Th2-related cytokines and inflammatory markers in patients with immune-stimulated pruritus compared with healthy controls, Ms. Manjunath said at the meeting.

When a Malignancy Workup Becomes Important

The initial part of any diagnostic workup for CPUO should include CBC with differential, liver function tests, renal function tests, and thyroid function testing, said Kwatra, referring to a diagnostic algorithm he developed, which was published as part of a CME review in the Journal of the American Academy of Dermatology in 2022.

Then, as indicated by risk factors in the history and physical, one could order other tests such as HIV serology, hepatitis B/C serologies, bullous pemphigoid testing, chest x-rays, evaluation for gammopathies, stool examination for ova and parasites, or heavy metal testing. “Do you do everything at once? We like to keep it straightforward,” Dr. Kwatra said. “Depending on the patient’s risk factors, you could order more or less.”

A malignancy workup should be strongly considered in patients whose itch duration is less than 12 months — and especially if the duration is less than 3 months — with an emphasis on cancers more frequently associated with itch: Hematologic and hepatobiliary cancers. This is “when concern should be heightened ... when there should be a lower threshold for workup,” he said.

The 12-month recommendation stems from a Danish cohort study published in 2014 that demonstrated a twofold increased incidence of cancer among patients with pruritus in the first 3 months after the diagnosis of pruritus. The 1-year absolute cancer risk was 1.63%.

Other risk factors for underlying malignancy or malignancy development in patients with CPUO include age older than 60 years, male sex, liver disease, and current or prior smoking, according to another study, noted Dr. Kwatra.

Dr. Kwatra disclosed that he is an advisory board member/consultant for Pfizer, Regeneron, Sanofi, and other companies and an investigator for Galderma, Incyte, Pfizer, and Sanofi. Manjunath served as the codirector of the ElderDerm conference.
 

A version of this article first appeared on Medscape.com.

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Study Links Melasma With Comorbidities, Races, Ethnicities

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Changed
Tue, 08/06/2024 - 12:15
Author(s)
Manasi Talwadekar

 

TOPLINE:

A study found significant associations between melasma and several comorbidities, including hypertension and hormonal contraception use, which were the most common.

METHODOLOGY:

  • Melasma predominantly affects young women of color and often worsens in hyperestrogen states; understanding the association with comorbidities can improve surveillance and treatment strategies.
  • Researchers evaluated 41,283 patients with melasma (mean age, 48.8 years; 93% women) from the TriNetX database and an equal number of matched control individuals.
  • The main outcome was comorbidities including allergic rhinitis, atopic dermatitis, anticonvulsants, diabetes, hormonal contraceptives, hypothyroidism, hypertension, lupus, rosacea, skin cancer, and malignancy.

TAKEAWAY:

  • Among those with melasma, 25% had hypertension and 24% used hormonal contraception, the two most commonly associated risk factors identified.
  • Rosacea (odds ratio [OR], 5.1), atopic dermatitis (OR, 3.3), lupus (OR, 2.5), history of skin cancer (OR, 2.5), and history of internal malignancy (OR, 2.1) were associated with the highest risk of developing melasma (< .01 for all).
  • Asian (OR, 2.0; P < .01) and “other/unknown” races (OR, 1.7; P < .01) and Hispanic ethnicity (OR, 1.3; < .01) were also significantly associated with melasma, while the odds were slightly lower among White, Black/African American, and “not Hispanic” groups (ORs, 0.8; P < .01 for all groups).

IN PRACTICE:

“Understanding the potential associations between these risk factors and melasma will better improve the management and monitoring of the most susceptible patients,” the authors wrote.

SOURCE:

The study, led by Ajay N. Sharma, MD, MBA, of the Department of Dermatology at the University of California, Irvine, was published online in Journal of Drugs in Dermatology.

LIMITATIONS:

The study limitations included the retrospective design, potential misclassification of diagnoses, and the inability to establish causality.

DISCLOSURES:

The study did not disclose any funding sources. The authors declared no conflicts of interest.

A version of this article first appeared on Medscape.com.

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Manasi Talwadekar
Author(s)
Manasi Talwadekar

 

TOPLINE:

A study found significant associations between melasma and several comorbidities, including hypertension and hormonal contraception use, which were the most common.

METHODOLOGY:

  • Melasma predominantly affects young women of color and often worsens in hyperestrogen states; understanding the association with comorbidities can improve surveillance and treatment strategies.
  • Researchers evaluated 41,283 patients with melasma (mean age, 48.8 years; 93% women) from the TriNetX database and an equal number of matched control individuals.
  • The main outcome was comorbidities including allergic rhinitis, atopic dermatitis, anticonvulsants, diabetes, hormonal contraceptives, hypothyroidism, hypertension, lupus, rosacea, skin cancer, and malignancy.

TAKEAWAY:

  • Among those with melasma, 25% had hypertension and 24% used hormonal contraception, the two most commonly associated risk factors identified.
  • Rosacea (odds ratio [OR], 5.1), atopic dermatitis (OR, 3.3), lupus (OR, 2.5), history of skin cancer (OR, 2.5), and history of internal malignancy (OR, 2.1) were associated with the highest risk of developing melasma (< .01 for all).
  • Asian (OR, 2.0; P < .01) and “other/unknown” races (OR, 1.7; P < .01) and Hispanic ethnicity (OR, 1.3; < .01) were also significantly associated with melasma, while the odds were slightly lower among White, Black/African American, and “not Hispanic” groups (ORs, 0.8; P < .01 for all groups).

IN PRACTICE:

“Understanding the potential associations between these risk factors and melasma will better improve the management and monitoring of the most susceptible patients,” the authors wrote.

SOURCE:

The study, led by Ajay N. Sharma, MD, MBA, of the Department of Dermatology at the University of California, Irvine, was published online in Journal of Drugs in Dermatology.

LIMITATIONS:

The study limitations included the retrospective design, potential misclassification of diagnoses, and the inability to establish causality.

DISCLOSURES:

The study did not disclose any funding sources. The authors declared no conflicts of interest.

A version of this article first appeared on Medscape.com.

 

TOPLINE:

A study found significant associations between melasma and several comorbidities, including hypertension and hormonal contraception use, which were the most common.

METHODOLOGY:

  • Melasma predominantly affects young women of color and often worsens in hyperestrogen states; understanding the association with comorbidities can improve surveillance and treatment strategies.
  • Researchers evaluated 41,283 patients with melasma (mean age, 48.8 years; 93% women) from the TriNetX database and an equal number of matched control individuals.
  • The main outcome was comorbidities including allergic rhinitis, atopic dermatitis, anticonvulsants, diabetes, hormonal contraceptives, hypothyroidism, hypertension, lupus, rosacea, skin cancer, and malignancy.

TAKEAWAY:

  • Among those with melasma, 25% had hypertension and 24% used hormonal contraception, the two most commonly associated risk factors identified.
  • Rosacea (odds ratio [OR], 5.1), atopic dermatitis (OR, 3.3), lupus (OR, 2.5), history of skin cancer (OR, 2.5), and history of internal malignancy (OR, 2.1) were associated with the highest risk of developing melasma (< .01 for all).
  • Asian (OR, 2.0; P < .01) and “other/unknown” races (OR, 1.7; P < .01) and Hispanic ethnicity (OR, 1.3; < .01) were also significantly associated with melasma, while the odds were slightly lower among White, Black/African American, and “not Hispanic” groups (ORs, 0.8; P < .01 for all groups).

IN PRACTICE:

“Understanding the potential associations between these risk factors and melasma will better improve the management and monitoring of the most susceptible patients,” the authors wrote.

SOURCE:

The study, led by Ajay N. Sharma, MD, MBA, of the Department of Dermatology at the University of California, Irvine, was published online in Journal of Drugs in Dermatology.

LIMITATIONS:

The study limitations included the retrospective design, potential misclassification of diagnoses, and the inability to establish causality.

DISCLOSURES:

The study did not disclose any funding sources. The authors declared no conflicts of interest.

A version of this article first appeared on Medscape.com.

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Case Series: Upadacitinib Effective for Granulomatous Cheilitis

Article Type
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Changed
Tue, 08/06/2024 - 09:45
Author(s)
Edited by Manasi Talwadekar

 

TOPLINE:

Upadacitinib, an oral Janus kinase (JAK) 1 inhibitor, showed an 80% complete response rate in patients with granulomatous cheilitis, with no serious adverse events, in a small retrospective case series.

METHODOLOGY:

  • Granulomatous cheilitis is a rare, nonnecrotizing granulomatous inflammatory disorder characterized by intermittent or persistent swelling of the lips.
  • In a retrospective case series of five patients (median age, 30 years; four women) with granulomatous cheilitis resistant to systemic treatments at a Belgian hospital between June 2023 and March 2024, all five were treated with a high dose of upadacitinib (30 mg daily).
  • The primary endpoint was objective clinical improvement in lip swelling and infiltration over a median follow-up of 7.2 months.
  • Three patients had concomitant dormant Crohn’s disease (CD); a secondary outcome was disease activity in these patients.

TAKEAWAY:

  • Upadacitinib treatment resulted in a complete response in four patients (80%) within a median of 3.8 months and a partial response in one patient.
  • CD remained dormant in the three patients with CD.
  • The safety profile of upadacitinib was favorable, and no serious adverse events were reported. Two patients experienced headaches, acne, mild changes in lipids, and/or transaminitis.

IN PRACTICE:

“Upadacitinib was effective in treating patients with recalcitrant and long-lasting granulomatous cheilitis, even in cases of concomitant CD, which could substantially improve the quality of life of affected patients,” the authors wrote. More studies are needed to confirm these results in larger groups of patients over longer periods of time, “and with other JAK inhibitors.”

SOURCE:

The study was led by Axel De Greef, MD, Department of Dermatology, Cliniques universitaires Saint-Luc, Université catholique de Louvain (UCLouvain), Brussels, Belgium. It was published online in JAMA Dermatology.

LIMITATIONS:

The small sample size and short follow-up may limit the generalizability of the findings to a larger population of patients with granulomatous cheilitis.

DISCLOSURES:

The study did not report any funding sources. Some authors reported receiving nonfinancial support and personal fees from various pharmaceutical companies outside the submitted work.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

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Author(s)
Edited by Manasi Talwadekar
Author(s)
Edited by Manasi Talwadekar

 

TOPLINE:

Upadacitinib, an oral Janus kinase (JAK) 1 inhibitor, showed an 80% complete response rate in patients with granulomatous cheilitis, with no serious adverse events, in a small retrospective case series.

METHODOLOGY:

  • Granulomatous cheilitis is a rare, nonnecrotizing granulomatous inflammatory disorder characterized by intermittent or persistent swelling of the lips.
  • In a retrospective case series of five patients (median age, 30 years; four women) with granulomatous cheilitis resistant to systemic treatments at a Belgian hospital between June 2023 and March 2024, all five were treated with a high dose of upadacitinib (30 mg daily).
  • The primary endpoint was objective clinical improvement in lip swelling and infiltration over a median follow-up of 7.2 months.
  • Three patients had concomitant dormant Crohn’s disease (CD); a secondary outcome was disease activity in these patients.

TAKEAWAY:

  • Upadacitinib treatment resulted in a complete response in four patients (80%) within a median of 3.8 months and a partial response in one patient.
  • CD remained dormant in the three patients with CD.
  • The safety profile of upadacitinib was favorable, and no serious adverse events were reported. Two patients experienced headaches, acne, mild changes in lipids, and/or transaminitis.

IN PRACTICE:

“Upadacitinib was effective in treating patients with recalcitrant and long-lasting granulomatous cheilitis, even in cases of concomitant CD, which could substantially improve the quality of life of affected patients,” the authors wrote. More studies are needed to confirm these results in larger groups of patients over longer periods of time, “and with other JAK inhibitors.”

SOURCE:

The study was led by Axel De Greef, MD, Department of Dermatology, Cliniques universitaires Saint-Luc, Université catholique de Louvain (UCLouvain), Brussels, Belgium. It was published online in JAMA Dermatology.

LIMITATIONS:

The small sample size and short follow-up may limit the generalizability of the findings to a larger population of patients with granulomatous cheilitis.

DISCLOSURES:

The study did not report any funding sources. Some authors reported receiving nonfinancial support and personal fees from various pharmaceutical companies outside the submitted work.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

 

TOPLINE:

Upadacitinib, an oral Janus kinase (JAK) 1 inhibitor, showed an 80% complete response rate in patients with granulomatous cheilitis, with no serious adverse events, in a small retrospective case series.

METHODOLOGY:

  • Granulomatous cheilitis is a rare, nonnecrotizing granulomatous inflammatory disorder characterized by intermittent or persistent swelling of the lips.
  • In a retrospective case series of five patients (median age, 30 years; four women) with granulomatous cheilitis resistant to systemic treatments at a Belgian hospital between June 2023 and March 2024, all five were treated with a high dose of upadacitinib (30 mg daily).
  • The primary endpoint was objective clinical improvement in lip swelling and infiltration over a median follow-up of 7.2 months.
  • Three patients had concomitant dormant Crohn’s disease (CD); a secondary outcome was disease activity in these patients.

TAKEAWAY:

  • Upadacitinib treatment resulted in a complete response in four patients (80%) within a median of 3.8 months and a partial response in one patient.
  • CD remained dormant in the three patients with CD.
  • The safety profile of upadacitinib was favorable, and no serious adverse events were reported. Two patients experienced headaches, acne, mild changes in lipids, and/or transaminitis.

IN PRACTICE:

“Upadacitinib was effective in treating patients with recalcitrant and long-lasting granulomatous cheilitis, even in cases of concomitant CD, which could substantially improve the quality of life of affected patients,” the authors wrote. More studies are needed to confirm these results in larger groups of patients over longer periods of time, “and with other JAK inhibitors.”

SOURCE:

The study was led by Axel De Greef, MD, Department of Dermatology, Cliniques universitaires Saint-Luc, Université catholique de Louvain (UCLouvain), Brussels, Belgium. It was published online in JAMA Dermatology.

LIMITATIONS:

The small sample size and short follow-up may limit the generalizability of the findings to a larger population of patients with granulomatous cheilitis.

DISCLOSURES:

The study did not report any funding sources. Some authors reported receiving nonfinancial support and personal fees from various pharmaceutical companies outside the submitted work.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

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Psychiatric, Autoimmune Comorbidities Increased in Patients with Alopecia Areata

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Changed
Tue, 08/06/2024 - 09:39
Author(s)
Edited by Shrabasti Bhattacharya

 

TOPLINE:

Patients with alopecia areata (AA) had a higher prevalence of several psychiatric and autoimmune comorbidities at baseline and were at greater risk of developing those comorbidities after diagnosis.

METHODOLOGY:

  • Researchers evaluated 63,384 patients with AA and 3,309,107 individuals without AA (aged 12-64 years) from the Merative MarketScan Research Databases.
  • The matched cohorts included 16,512 patients with AA and 66,048 control individuals.
  • Outcomes were the prevalence of psychiatric and autoimmune diseases at baseline and the incidence of new-onset psychiatric and autoimmune diseases during the year after diagnosis.

TAKEAWAY:

  • Overall, patients with AA showed a greater prevalence of any psychiatric disease (30.9% vs 26.8%; P < .001) and any immune-mediated or autoimmune disease (16.1% vs 8.9%; P < .0001) than those with controls.
  • In matched cohorts, patients with AA also showed a higher incidence of any new-onset psychiatric diseases (10.2% vs 6.8%; P < .001) or immune-mediated or autoimmune disease (6.2% vs 1.5%; P <.001) within the first 12 months of AA diagnosis than those with controls.
  • Among patients with AA, the risk of developing a psychiatric comorbidity was higher (adjusted hazard ratio [aHR], 1.3; 95% CI, 1.3-1.4). The highest risks were seen for adjustment disorder (aHR, 1.5), panic disorder (aHR, 1.4), and sexual dysfunction (aHR, 1.4).
  • Compared with controls, patients with AA were also at an increased risk of developing immune-mediated or autoimmune comorbidities (aHR, 2.7; 95% CI, 2.5-2.8), with the highest for systemic lupus (aHR, 5.7), atopic dermatitis (aHR, 4.3), and vitiligo (aHR, 3.8).

IN PRACTICE:

“Routine monitoring of patients with AA, especially those at risk of developing comorbidities, may permit earlier and more effective intervention,” the authors wrote.


SOURCE:

The study was led by Arash Mostaghimi, MD, MPA, MPH, Brigham and Women’s Hospital and Harvard University, Boston. It was published online on July 31, 2024, in JAMA Dermatology.

LIMITATIONS:

Causality could not be inferred because of the retrospective nature of the study. Comorbidities were solely diagnosed on the basis of diagnostic codes, and researchers did not have access to characteristics such as lab values that could have indicated any underlying comorbidity before the AA diagnosis. This study also did not account for the varying levels of severity of the disease, which may have led to an underestimation of disease burden and the risk for comorbidities.

DISCLOSURES:

AbbVie provided funding for this study. Mostaghimi disclosed receiving personal fees from Abbvie and several other companies outside of this work. The other four authors were current or former employees of Abbvie and have or may have stock and/or stock options in AbbVie.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

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Edited by Shrabasti Bhattacharya

 

TOPLINE:

Patients with alopecia areata (AA) had a higher prevalence of several psychiatric and autoimmune comorbidities at baseline and were at greater risk of developing those comorbidities after diagnosis.

METHODOLOGY:

  • Researchers evaluated 63,384 patients with AA and 3,309,107 individuals without AA (aged 12-64 years) from the Merative MarketScan Research Databases.
  • The matched cohorts included 16,512 patients with AA and 66,048 control individuals.
  • Outcomes were the prevalence of psychiatric and autoimmune diseases at baseline and the incidence of new-onset psychiatric and autoimmune diseases during the year after diagnosis.

TAKEAWAY:

  • Overall, patients with AA showed a greater prevalence of any psychiatric disease (30.9% vs 26.8%; P < .001) and any immune-mediated or autoimmune disease (16.1% vs 8.9%; P < .0001) than those with controls.
  • In matched cohorts, patients with AA also showed a higher incidence of any new-onset psychiatric diseases (10.2% vs 6.8%; P < .001) or immune-mediated or autoimmune disease (6.2% vs 1.5%; P <.001) within the first 12 months of AA diagnosis than those with controls.
  • Among patients with AA, the risk of developing a psychiatric comorbidity was higher (adjusted hazard ratio [aHR], 1.3; 95% CI, 1.3-1.4). The highest risks were seen for adjustment disorder (aHR, 1.5), panic disorder (aHR, 1.4), and sexual dysfunction (aHR, 1.4).
  • Compared with controls, patients with AA were also at an increased risk of developing immune-mediated or autoimmune comorbidities (aHR, 2.7; 95% CI, 2.5-2.8), with the highest for systemic lupus (aHR, 5.7), atopic dermatitis (aHR, 4.3), and vitiligo (aHR, 3.8).

IN PRACTICE:

“Routine monitoring of patients with AA, especially those at risk of developing comorbidities, may permit earlier and more effective intervention,” the authors wrote.


SOURCE:

The study was led by Arash Mostaghimi, MD, MPA, MPH, Brigham and Women’s Hospital and Harvard University, Boston. It was published online on July 31, 2024, in JAMA Dermatology.

LIMITATIONS:

Causality could not be inferred because of the retrospective nature of the study. Comorbidities were solely diagnosed on the basis of diagnostic codes, and researchers did not have access to characteristics such as lab values that could have indicated any underlying comorbidity before the AA diagnosis. This study also did not account for the varying levels of severity of the disease, which may have led to an underestimation of disease burden and the risk for comorbidities.

DISCLOSURES:

AbbVie provided funding for this study. Mostaghimi disclosed receiving personal fees from Abbvie and several other companies outside of this work. The other four authors were current or former employees of Abbvie and have or may have stock and/or stock options in AbbVie.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

 

TOPLINE:

Patients with alopecia areata (AA) had a higher prevalence of several psychiatric and autoimmune comorbidities at baseline and were at greater risk of developing those comorbidities after diagnosis.

METHODOLOGY:

  • Researchers evaluated 63,384 patients with AA and 3,309,107 individuals without AA (aged 12-64 years) from the Merative MarketScan Research Databases.
  • The matched cohorts included 16,512 patients with AA and 66,048 control individuals.
  • Outcomes were the prevalence of psychiatric and autoimmune diseases at baseline and the incidence of new-onset psychiatric and autoimmune diseases during the year after diagnosis.

TAKEAWAY:

  • Overall, patients with AA showed a greater prevalence of any psychiatric disease (30.9% vs 26.8%; P < .001) and any immune-mediated or autoimmune disease (16.1% vs 8.9%; P < .0001) than those with controls.
  • In matched cohorts, patients with AA also showed a higher incidence of any new-onset psychiatric diseases (10.2% vs 6.8%; P < .001) or immune-mediated or autoimmune disease (6.2% vs 1.5%; P <.001) within the first 12 months of AA diagnosis than those with controls.
  • Among patients with AA, the risk of developing a psychiatric comorbidity was higher (adjusted hazard ratio [aHR], 1.3; 95% CI, 1.3-1.4). The highest risks were seen for adjustment disorder (aHR, 1.5), panic disorder (aHR, 1.4), and sexual dysfunction (aHR, 1.4).
  • Compared with controls, patients with AA were also at an increased risk of developing immune-mediated or autoimmune comorbidities (aHR, 2.7; 95% CI, 2.5-2.8), with the highest for systemic lupus (aHR, 5.7), atopic dermatitis (aHR, 4.3), and vitiligo (aHR, 3.8).

IN PRACTICE:

“Routine monitoring of patients with AA, especially those at risk of developing comorbidities, may permit earlier and more effective intervention,” the authors wrote.


SOURCE:

The study was led by Arash Mostaghimi, MD, MPA, MPH, Brigham and Women’s Hospital and Harvard University, Boston. It was published online on July 31, 2024, in JAMA Dermatology.

LIMITATIONS:

Causality could not be inferred because of the retrospective nature of the study. Comorbidities were solely diagnosed on the basis of diagnostic codes, and researchers did not have access to characteristics such as lab values that could have indicated any underlying comorbidity before the AA diagnosis. This study also did not account for the varying levels of severity of the disease, which may have led to an underestimation of disease burden and the risk for comorbidities.

DISCLOSURES:

AbbVie provided funding for this study. Mostaghimi disclosed receiving personal fees from Abbvie and several other companies outside of this work. The other four authors were current or former employees of Abbvie and have or may have stock and/or stock options in AbbVie.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

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Expanded Surface Area Safe, Well-Tolerated for AK treatment

Article Type
News
Changed
Tue, 08/06/2024 - 09:33
Author(s)
Edited by Gargi Mukherjee

 

TOPLINE:

Tirbanibulin ointment 1% shows good safety and tolerability in the treatment of actinic keratosis (AK) in fields of up to 100 cm2 on the face and scalp.

METHODOLOGY:

  • This phase 3 multicenter, single-arm trial evaluated the safety and tolerability of tirbanibulin ointment 1% in 105 adults with 4-12 clinically typical, visible, and discrete AKs on the face or balding scalp from June to December 2022 in the United States. (In June 2024, the Food and Drug Administration approved a supplemental new drug application for tirbanibulin 1%, a microtubule inhibitor, allowing the expansion of the surface area treated for AKs of the face or scalp from 25 cm2 to 100 cm2.)
  • Participants applied tirbanibulin ointment 1% once daily for 5 days over a treatment field of about 100 cm2 on the face or balding scalp. A total of 102 patients completed the study.
  • Safety and tolerability were evaluated with reports of treatment-emergent adverse events (TEAEs) and a composite score of six local tolerability signs on days 5, 8, 15, and 29, and on completion of the evaluation period on day 57.

TAKEAWAY:

  • The most common local effects of treatment were erythema (96.1% of patients) and flaking or scaling (84.4%), with severe cases reported in 5.8% and 8.7% of the patients, respectively.
  • The mean maximum local tolerability composite score was 4.1 out of 18, which peaked around day 8 and returned to baseline by day 29.
  • TEAEs considered related to the treatment were reported in 18.1% of patients; the most frequent were application site pruritus (10.5%) and application site pain (8.6%). No adverse events led to the discontinuation of treatment.
  • The mean percent reduction in the lesion count from baseline was 77.8% at day 57, with a mean lesion count of 1.8 at the end of the study.

IN PRACTICE:

In this study, “local tolerability and safety profiles were well characterized in patients with 4-12 clinically typical, visible, and discrete AK lesions in a field of 100 cm2 and were consistent with those previously reported in patients with AK treated in pivotal trials with tirbanibulin over a smaller field (25 cm2),” the authors wrote.

SOURCE:

The study, led by Neal Bhatia, MD, of Therapeutics Clinical Research, San Diego, was published online in JAAD International.

LIMITATIONS:

The study was limited by the lack of a placebo group and the absence of long-term follow-up. 

DISCLOSURES:

This study was funded by Almirall. Five authors reported being employees of Almirall. Other authors declared having ties with various other sources, including Almirall.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

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Author(s)
Edited by Gargi Mukherjee

 

TOPLINE:

Tirbanibulin ointment 1% shows good safety and tolerability in the treatment of actinic keratosis (AK) in fields of up to 100 cm2 on the face and scalp.

METHODOLOGY:

  • This phase 3 multicenter, single-arm trial evaluated the safety and tolerability of tirbanibulin ointment 1% in 105 adults with 4-12 clinically typical, visible, and discrete AKs on the face or balding scalp from June to December 2022 in the United States. (In June 2024, the Food and Drug Administration approved a supplemental new drug application for tirbanibulin 1%, a microtubule inhibitor, allowing the expansion of the surface area treated for AKs of the face or scalp from 25 cm2 to 100 cm2.)
  • Participants applied tirbanibulin ointment 1% once daily for 5 days over a treatment field of about 100 cm2 on the face or balding scalp. A total of 102 patients completed the study.
  • Safety and tolerability were evaluated with reports of treatment-emergent adverse events (TEAEs) and a composite score of six local tolerability signs on days 5, 8, 15, and 29, and on completion of the evaluation period on day 57.

TAKEAWAY:

  • The most common local effects of treatment were erythema (96.1% of patients) and flaking or scaling (84.4%), with severe cases reported in 5.8% and 8.7% of the patients, respectively.
  • The mean maximum local tolerability composite score was 4.1 out of 18, which peaked around day 8 and returned to baseline by day 29.
  • TEAEs considered related to the treatment were reported in 18.1% of patients; the most frequent were application site pruritus (10.5%) and application site pain (8.6%). No adverse events led to the discontinuation of treatment.
  • The mean percent reduction in the lesion count from baseline was 77.8% at day 57, with a mean lesion count of 1.8 at the end of the study.

IN PRACTICE:

In this study, “local tolerability and safety profiles were well characterized in patients with 4-12 clinically typical, visible, and discrete AK lesions in a field of 100 cm2 and were consistent with those previously reported in patients with AK treated in pivotal trials with tirbanibulin over a smaller field (25 cm2),” the authors wrote.

SOURCE:

The study, led by Neal Bhatia, MD, of Therapeutics Clinical Research, San Diego, was published online in JAAD International.

LIMITATIONS:

The study was limited by the lack of a placebo group and the absence of long-term follow-up. 

DISCLOSURES:

This study was funded by Almirall. Five authors reported being employees of Almirall. Other authors declared having ties with various other sources, including Almirall.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

 

TOPLINE:

Tirbanibulin ointment 1% shows good safety and tolerability in the treatment of actinic keratosis (AK) in fields of up to 100 cm2 on the face and scalp.

METHODOLOGY:

  • This phase 3 multicenter, single-arm trial evaluated the safety and tolerability of tirbanibulin ointment 1% in 105 adults with 4-12 clinically typical, visible, and discrete AKs on the face or balding scalp from June to December 2022 in the United States. (In June 2024, the Food and Drug Administration approved a supplemental new drug application for tirbanibulin 1%, a microtubule inhibitor, allowing the expansion of the surface area treated for AKs of the face or scalp from 25 cm2 to 100 cm2.)
  • Participants applied tirbanibulin ointment 1% once daily for 5 days over a treatment field of about 100 cm2 on the face or balding scalp. A total of 102 patients completed the study.
  • Safety and tolerability were evaluated with reports of treatment-emergent adverse events (TEAEs) and a composite score of six local tolerability signs on days 5, 8, 15, and 29, and on completion of the evaluation period on day 57.

TAKEAWAY:

  • The most common local effects of treatment were erythema (96.1% of patients) and flaking or scaling (84.4%), with severe cases reported in 5.8% and 8.7% of the patients, respectively.
  • The mean maximum local tolerability composite score was 4.1 out of 18, which peaked around day 8 and returned to baseline by day 29.
  • TEAEs considered related to the treatment were reported in 18.1% of patients; the most frequent were application site pruritus (10.5%) and application site pain (8.6%). No adverse events led to the discontinuation of treatment.
  • The mean percent reduction in the lesion count from baseline was 77.8% at day 57, with a mean lesion count of 1.8 at the end of the study.

IN PRACTICE:

In this study, “local tolerability and safety profiles were well characterized in patients with 4-12 clinically typical, visible, and discrete AK lesions in a field of 100 cm2 and were consistent with those previously reported in patients with AK treated in pivotal trials with tirbanibulin over a smaller field (25 cm2),” the authors wrote.

SOURCE:

The study, led by Neal Bhatia, MD, of Therapeutics Clinical Research, San Diego, was published online in JAAD International.

LIMITATIONS:

The study was limited by the lack of a placebo group and the absence of long-term follow-up. 

DISCLOSURES:

This study was funded by Almirall. Five authors reported being employees of Almirall. Other authors declared having ties with various other sources, including Almirall.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication. A version of this article first appeared on Medscape.com.

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Skin Dxs in Children in Refugee Camps Include Fungal Infections, Leishmaniasis

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Changed
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Doug Brunk

The prevalence of dermatologic conditions affecting children in refugee camps remains unclear because of the limited data on the topic, a literature review showed. However, likely culprits include infectious diseases with cutaneous manifestations, such as pediculosis, tinea capitis, and scabies.

“Current data indicates that one in two refugees are children,” one of the study investigators, Mehar Maju, MPH, a fourth-year student at of the University of Washington School of Medicine, Seattle, said in an interview following the annual meeting of the Society for Pediatric Dermatology, where the results were presented during a poster session.

Courtesy of Gary White, MD
A scabies mite with an egg inside

“The number of refugees continues to rise to unprecedented levels every year,” and climate change continues to drive increases in migration, “impacting those residing in camps,” she said. “As we continue to think about what this means for best supporting those residing in camps, I think it’s also important to consider how to best support refugees, specifically children, when they arrive in the United States. Part of this is to know what conditions are most prevalent and what type of social support this vulnerable population needs.”

To identify the common dermatologic conditions among children living in refugee camps, Ms. Maju and fellow fourth-year University of Washington medical student Nadia Siddiqui searched PubMed and Google Scholar for studies that were published in English and reported on the skin disease prevalence and management for refugees who are children. Key search terms used included “refugees,” “children,” “dermatology,” and “skin disease.” Of approximately 105 potential studies identified, 19 underwent analysis. Of these, only five were included in the final review. 

One of the five studies was conducted in rural Nyala, Sudan. The study found that 88.8% of those living in orphanages and refugee camps were reported to have a skin disorder, commonly fungal or bacterial infections and dermatitis. In a separate case series, researchers found that cutaneous leishmaniasis was rising among Syrian refugee children. 



A study that looked at morbidity and disease burden in mainland Greece refugee camps found that the skin was the second-most common site of communicable diseases among children, behind those of the respiratory tract. In another study that investigated the health of children in Australian immigration detention centers, complaints related to skin conditions were significantly elevated among children who were detained offshore, compared with those who were detained onshore.

Finally, in a study of 125 children between the ages of 1 and 15 years at a Sierra Leone–based displacement camp, the prevalence of scabies was 77% among those aged < 5 years and peaked to 86% among those aged 5-9 years. 

“It was surprising to see the limited information about dermatologic diseases impacting children in refugee camps,” Ms. Maju said. “I expected that there would be more information on the specific proportion of diseases beyond those of infectious etiology. For example, I had believed that we would have more information on the prevalence of atopic dermatitis, vitiligo, and other more chronic skin diseases.” 

She acknowledged certain limitations of the analysis, mainly the lack of published information on the skin health of pediatric refugees. “A study that evaluates the health status and dermatologic prevalence of disease among children residing in camps and those newly arrived in the United States from camps would provide unprecedented insight into this topic,” Ms. Maju said. “The results could guide public health efforts in improving care delivery and preparedness in camps and clinicians serving this particular population when they arrive in the United States.”

She and Ms. Siddiqui reported having no relevant disclosures.

A version of this article first appeared on Medscape.com.

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The prevalence of dermatologic conditions affecting children in refugee camps remains unclear because of the limited data on the topic, a literature review showed. However, likely culprits include infectious diseases with cutaneous manifestations, such as pediculosis, tinea capitis, and scabies.

“Current data indicates that one in two refugees are children,” one of the study investigators, Mehar Maju, MPH, a fourth-year student at of the University of Washington School of Medicine, Seattle, said in an interview following the annual meeting of the Society for Pediatric Dermatology, where the results were presented during a poster session.

Courtesy of Gary White, MD
A scabies mite with an egg inside

“The number of refugees continues to rise to unprecedented levels every year,” and climate change continues to drive increases in migration, “impacting those residing in camps,” she said. “As we continue to think about what this means for best supporting those residing in camps, I think it’s also important to consider how to best support refugees, specifically children, when they arrive in the United States. Part of this is to know what conditions are most prevalent and what type of social support this vulnerable population needs.”

To identify the common dermatologic conditions among children living in refugee camps, Ms. Maju and fellow fourth-year University of Washington medical student Nadia Siddiqui searched PubMed and Google Scholar for studies that were published in English and reported on the skin disease prevalence and management for refugees who are children. Key search terms used included “refugees,” “children,” “dermatology,” and “skin disease.” Of approximately 105 potential studies identified, 19 underwent analysis. Of these, only five were included in the final review. 

One of the five studies was conducted in rural Nyala, Sudan. The study found that 88.8% of those living in orphanages and refugee camps were reported to have a skin disorder, commonly fungal or bacterial infections and dermatitis. In a separate case series, researchers found that cutaneous leishmaniasis was rising among Syrian refugee children. 



A study that looked at morbidity and disease burden in mainland Greece refugee camps found that the skin was the second-most common site of communicable diseases among children, behind those of the respiratory tract. In another study that investigated the health of children in Australian immigration detention centers, complaints related to skin conditions were significantly elevated among children who were detained offshore, compared with those who were detained onshore.

Finally, in a study of 125 children between the ages of 1 and 15 years at a Sierra Leone–based displacement camp, the prevalence of scabies was 77% among those aged < 5 years and peaked to 86% among those aged 5-9 years. 

“It was surprising to see the limited information about dermatologic diseases impacting children in refugee camps,” Ms. Maju said. “I expected that there would be more information on the specific proportion of diseases beyond those of infectious etiology. For example, I had believed that we would have more information on the prevalence of atopic dermatitis, vitiligo, and other more chronic skin diseases.” 

She acknowledged certain limitations of the analysis, mainly the lack of published information on the skin health of pediatric refugees. “A study that evaluates the health status and dermatologic prevalence of disease among children residing in camps and those newly arrived in the United States from camps would provide unprecedented insight into this topic,” Ms. Maju said. “The results could guide public health efforts in improving care delivery and preparedness in camps and clinicians serving this particular population when they arrive in the United States.”

She and Ms. Siddiqui reported having no relevant disclosures.

A version of this article first appeared on Medscape.com.

The prevalence of dermatologic conditions affecting children in refugee camps remains unclear because of the limited data on the topic, a literature review showed. However, likely culprits include infectious diseases with cutaneous manifestations, such as pediculosis, tinea capitis, and scabies.

“Current data indicates that one in two refugees are children,” one of the study investigators, Mehar Maju, MPH, a fourth-year student at of the University of Washington School of Medicine, Seattle, said in an interview following the annual meeting of the Society for Pediatric Dermatology, where the results were presented during a poster session.

Courtesy of Gary White, MD
A scabies mite with an egg inside

“The number of refugees continues to rise to unprecedented levels every year,” and climate change continues to drive increases in migration, “impacting those residing in camps,” she said. “As we continue to think about what this means for best supporting those residing in camps, I think it’s also important to consider how to best support refugees, specifically children, when they arrive in the United States. Part of this is to know what conditions are most prevalent and what type of social support this vulnerable population needs.”

To identify the common dermatologic conditions among children living in refugee camps, Ms. Maju and fellow fourth-year University of Washington medical student Nadia Siddiqui searched PubMed and Google Scholar for studies that were published in English and reported on the skin disease prevalence and management for refugees who are children. Key search terms used included “refugees,” “children,” “dermatology,” and “skin disease.” Of approximately 105 potential studies identified, 19 underwent analysis. Of these, only five were included in the final review. 

One of the five studies was conducted in rural Nyala, Sudan. The study found that 88.8% of those living in orphanages and refugee camps were reported to have a skin disorder, commonly fungal or bacterial infections and dermatitis. In a separate case series, researchers found that cutaneous leishmaniasis was rising among Syrian refugee children. 



A study that looked at morbidity and disease burden in mainland Greece refugee camps found that the skin was the second-most common site of communicable diseases among children, behind those of the respiratory tract. In another study that investigated the health of children in Australian immigration detention centers, complaints related to skin conditions were significantly elevated among children who were detained offshore, compared with those who were detained onshore.

Finally, in a study of 125 children between the ages of 1 and 15 years at a Sierra Leone–based displacement camp, the prevalence of scabies was 77% among those aged < 5 years and peaked to 86% among those aged 5-9 years. 

“It was surprising to see the limited information about dermatologic diseases impacting children in refugee camps,” Ms. Maju said. “I expected that there would be more information on the specific proportion of diseases beyond those of infectious etiology. For example, I had believed that we would have more information on the prevalence of atopic dermatitis, vitiligo, and other more chronic skin diseases.” 

She acknowledged certain limitations of the analysis, mainly the lack of published information on the skin health of pediatric refugees. “A study that evaluates the health status and dermatologic prevalence of disease among children residing in camps and those newly arrived in the United States from camps would provide unprecedented insight into this topic,” Ms. Maju said. “The results could guide public health efforts in improving care delivery and preparedness in camps and clinicians serving this particular population when they arrive in the United States.”

She and Ms. Siddiqui reported having no relevant disclosures.

A version of this article first appeared on Medscape.com.

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Eruptive Syringoma Manifesting as a Widespread Rash in 3 Patients

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Eruptive Syringoma Manifesting as a Widespread Rash in 3 Patients
Author(s)
Beixue Jiang, MD
Youyou Zhou, MD, PhD
Yangyang Jiang, MD
Xiaojing Guo, MD
Jianglin Zhang, MD
Fang Yang, MD, PhD

To the Editor:

Syringoma is a relatively common benign adnexal neoplasm originating in the ducts of eccrine sweat glands. It can be divided into 4 variants based on clinical features: localized; familial; Down syndrome associated; and generalized, which includes multiple syringomas and eruptive syringoma (ES).1 Eruptive syringoma is a rare variant of generalized syringoma that was first described by Jacquet and Darier2 in 1887. Clinically, ES lesions manifest as multiple nonfused, flesh-colored to reddish-brown papules that are located most commonly on the anterior trunk during childhood or adolescence. Eruptive syringoma can be missed easily or misdiagnosed clinically. We present 3 rare cases of ES.

A 28-year-old man presented with multiple asymptomatic papules on the trunk and upper arms of 20 years’ duration (patient 1). He had been diagnosed with Darier disease 3 years prior to the current presentation and was treated with oral and topical retinoic acid without a response. After 3 months of oral treatment, the retinoic acid was stopped due to elevated liver enzymes. Physical examination at the current presentation revealed multiple smooth, firm, nonfused, 1- to 4-mm, reddish to dark red papules on the neck, chest, abdomen, and flexural surfaces of the upper arms (Figure 1A). Dermoscopy of the arm lesions showed light brown pigment networks and yellowish-white unstructured areas surrounded by linear vessels on a pink background under polarized light (Figure 1B). Histopathologic examination of a lesion on the left arm revealed epithelial cords, ducts, and cystic structures within the superficial and mid dermis. The ducts were lined by 2 rows of epithelial cells with a characteristic tadpolelike pattern and filled with eosinophilic amorphous substances (Figure 1C).

FIGURE 1. A, Multiple smooth, firm, nonfused, 1- to 4-mm, reddish to dark red papules on the chest, abdomen, and flexural surfaces of the arms in a patient with eruptive syringoma. B, Dermoscopy of the arm lesions showed light brown pigment networks and yellowish-white unstructured areas surrounded by linear vessels on a pink background. C, Histopathologic examination of a left arm lesion showed some ducts with a tadpolelike pattern in the dermis (H&E, original magnification ×100).


A 27-year-old woman presented with widespread asymptomatic papules of 8 years’ duration (patient 2). She denied any use of drugs. Physical examination revealed multiple flesh-colored to reddish papules on the face, armpits, trunk, thighs, and vulva (Figure 2).

FIGURE 2. Eruptive syringoma consisting of multiple flesh-colored to reddish papules on the vulva.

A 43-year-old man who was otherwise healthy presented with brownish flat-topped papules on the chest and abdomen of 19 years’ duration (Figure 3A)(patient 3). The lesions had remained stable and did not progress. He denied any treatment. Dermoscopy of the chest lesions showed a light brown pigment network as well as dotted and linear vessels on a pale yellow background (Figure 3B).

FIGURE 3. A, Multiple brownish flat-topped papules on the trunk in a patient with eruptive syringoma. B, Dermoscopy of the chest lesions showed a light brown pigment network as well as dotted and linear vessels on a pale yellow background.

All 3 patients demonstrated classic histopathologic features of syringoma, and none had a family history of similar skin lesions. The clinical and dermoscopic findings along with the histopathology in all 3 patients were consistent with ES. In patient 1, three sessions of electrocautery treatments on both upper arms were performed with settings of short-fire mode (1–3 V) at 4- to 8-week intervals. After treatment, the lesions subsided but recurred 7 months later. Five months after recurrence, the rash gradually increased on the trunk and upper arms. In patient 2, two sessions of CO2 laser treatments on the trunk were performed with settings of modulated pulse mode (1–2 W) at 4- to 8-week intervals. The lesions disappeared after treatment but recurred 6 months later. At 1-year follow-up after recurrence, the rash had increased slightly. Neither patient 1 nor patient 2 developed hyperpigmentation or scarring during the 1-year follow-up period after their respective treatments. Patient 3 opted not to undergo treatment after being informed that the lesions were benign, and his condition stabilized at 1-year follow-up.

The pathogenesis of ES is unclear, but it may be affected by hormones, autoimmune status, immunosuppression (eg, liver and kidney transplantation), and medications (eg, hypersensitivity, phototoxicity, and antiepileptic medications).3-6 Guitart et al7 hypothesized that ES may be a hyperplastic response of the eccrine duct to an inflammatory reaction, such as trauma from waxing or chronic scratching. It also has been associated with systemic conditions such as Nicolau-Balus syndrome (syringomas, milia, and atrophoderma vermiculata) and Down syndrome.8,9 The lesions manifest symmetrically and are characterized by flesh-colored to reddish-brown, shiny, or flat-topped papules; however, ES also can manifest as hyperpigmentation, erythema, positive Darier sign, or pseudokoebnerization.10 The lesions typically are located on the eyelids, neck, anterior chest, upper abdomen, upper arms, axillae, and genital region, and they rarely involve the palms, soles, and mucous membranes. Eruptive syringoma commonly is asymptomatic and in rare cases gradually subsides.11


Sometimes the lesions of ES are atypical and clinically resemble Darier disease, Fox-Fordyce disease, lichen planus, mastocytosis, granuloma annulare, trichoepithelioma, and sarcoidosis. Additionally, Marfan syndrome and Ehlers-Danlos syndrome should be ruled out when lesions involve the eyelids.11 The differential diagnosis in our patients included Darier disease and Fox-Fordyce disease, which can be differentiated from ES via noninvasive dermoscopy and pathologic biopsy. In most patients with ES, dermoscopic findings include reticular brown lines or fine pigment networks as well as dotted and linear or reticular vessels. Tiny whitish dots, multifocal hypopigmented areas, and glittering yellow-whitish round structures are dermoscopic hallmarks of the vulvar variant of ES.12-14 Histopathology of ES has shown epithelial cords, ducts, and cystic structures within the dermis. The ducts are lined by 2 rows of epithelial cells with a characteristic comma-shaped/tadpolelike pattern and are filled with eosinophilic amorphous substances. The dermoscopic features of Darier disease differ from ES in that Darier disease usually manifests as a comedolike opening with a central polygonal yellowish-brownish structure surrounded by a whitish halo on a pink background.15Histopathology of Darier disease has shown acantholysis above the basal layer of the epidermis and dyskeratotic keratinocytes. Dermoscopic findings in Fox-Fordyce disease include typical light brown to dark brown, folliculocentric, structureless areas with loss of dermatoglyphics. Some of the lesions also show hyperkeratotic follicular plugging.16 Histopathology of Fox-Fordyce disease includes infundibulum dilation, hyperkeratosis, plugging, acanthosis, a lymphohistiocytic infiltrate, and a perifollicular foam cell infiltrate.17Eruptive syringoma is a benign condition that generally requires no treatment. The goal of treatment is to improve cosmesis and primarily includes physical and chemical therapies such as surgical resection, cryosurgery, electrodesiccation, CO2 laser (alone and in combination with trichloroacetic acid10), argon laser, fractional photothermolysis, dermabrasion, and chemical peeling. However, because ES involves deeper areas of the dermis, some treatments may cause hyperpigmentation, scar formation, or recurrence of the lesions and may be less effective for lesions on the eyelids, which may remain untreated. Systemic therapy consists of oral retinoic acid or tranilast.18The use of topical retinoic acid and atropine also have been reported,19 but their efficacy remains uncertain. The lesions in patient 1 did not resolve after receiving oral and topical retinoic acid. Although ES lesions may decrease in size or subside without inter­vention in rare cases, the disease was not self-limiting in our patients.

References
  1. Williams K, Shinkai K. Evaluation and management of the patient with multiple syringomas: a systematic review of the literature. J Am Acad Dermatol. 2016;74:1234-1240.e1239. doi:10.1016/j.jaad.2015.12.006
  2. Jacquet L, Darier J. Hidradénomes éruptifs, I.épithéliomes adenoids des glandes sudoripares ou adénomes sudoripares. Ann Dermatol Venerol. 1887;8:317-323.
  3. Huang A, Taylor G, Liebman TN. Generalized eruptive syringomas. Dermatol Online J. 2017;23:13030/qt0hb8q22g..
  4. Maeda T, Natsuga K, Nishie W, et al. Extensive eruptive syringoma after liver transplantation. Acta Derm Venereol. 2018;98:119-120. doi:10.2340/00015555-2814
  5. Lerner TH, Barr RJ, Dolezal JF, et al. Syringomatous hyperplasia and eccrine squamous syringometaplasia associated with benoxaprofen therapy. Arch Dermatol. 1987;123:1202-1204. doi:10.1001/archderm.1987.01660330113022
  6. Ozturk F, Ermertcan AT, Bilac C, et al. A case report of postpubertal eruptive syringoma triggered with antiepileptic drugs. J Drugs Dermatol. 2010;9:707-710.
  7. Guitart J, Rosenbaum MM, Requena L. ‘Eruptive syringoma’: a misnomer for a reactive eccrine gland ductal proliferation? J Cutan Pathol. 2003;30:202-205. doi:10.1034/j.1600-0560.2003.00023.x
  8. Dupre A, Carrere S, Bonafe JL, et al. Eruptive generalized syringomas, milium and atrophoderma vermiculata. Nicolau and Balus’ syndrome (author’s transl). Dermatologica. 1981;162:281-286.
  9. Schepis C, Torre V, Siragusa M, et al. Eruptive syringomas with calcium deposits in a young woman with Down’s syndrome. Dermatology. 2001;203:345-347. doi:10.1159/000051788
  10. Samia AM, Donthi D, Nenow J, et al. A case study and review of literature of eruptive syringoma in a six-year-old. Cureus. 2021;13:E14634. doi:10.7759/cureus.14634
  11. Soler-Carrillo J, Estrach T, Mascaró JM. Eruptive syringoma: 27 new cases and review of the literature. J Eur Acad Dermatol Venereol. 2001;15:242-246. doi:10.1046/j.1468-3083.2001.00235.x
  12. Aleissa M, Aljarbou O, AlJasser MI. Dermoscopy of eruptive syringoma. Skin Appendage Disord. 2021;7:401-403. doi:10.1159/000515443
  13. Botsali A, Caliskan E, Coskun A, et al. Eruptive syringoma: two cases with dermoscopic features. Skin Appendage Disord. 2020;6:319-322. doi:10.1159/000508656
  14. Dutra Rezende H, Madia ACT, Elias BM, et al. Comment on: eruptive syringoma—two cases with dermoscopic features. Skin Appendage Disord. 2022;8:81-82. doi:10.1159/000518158
  15. Silva-Hirschberg C, Cabrera R, Rollán MP, et al. Darier disease: the use of dermoscopy in monitoring acitretin treatment. An Bras Dermatol. 2022;97:644-647. doi:10.1016/j.abd.2021.05.021
  16. Singal A, Kaur I, Jakhar D. Fox-Fordyce disease: dermoscopic perspective. Skin Appendage Disord. 2020;6:247-249. doi:10.1159/000508201
  17. Brau Javier CN, Morales A, Sanchez JL. Histopathology attributes of Fox-Fordyce disease. Int J Dermatol. 2012;51:1313-1318. doi:10.1159/000508201
  18. Horie K, Shinkuma S, Fujita Y, et al. Efficacy of N-(3,4-dimethoxycinnamoyl)-anthranilic acid (tranilast) against eruptive syringoma: report of two cases and review of published work. J Dermatol. 2012;39:1044-1046. doi:10.1111/j.1346-8138.2012.01612.x
  19. Sanchez TS, Dauden E, Casas AP, et al. Eruptive pruritic syringomas: treatment with topical atropine. J Am Acad Dermatol. 2001;44:148-149. doi:10.1067/mjd.2001.109854
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Author and Disclosure Information

Dr. B. Jiang is from the Department of Dermatology, Shenzhen Children’s Hospital, Guangdong, China. Drs. Zhou, Y. Jiang, Guo, Zhang, and Yang are from Shenzhen People's Hospital, The Second Clinical Medical College of Jinan University, China. Drs. Zhou, Zhang, and Yang are from the Department of Dermatology, and Drs. Y. Jiang and Guo are from the Department of Pathology. Drs. Zhou, Y. Jiang, Guo, Zhang, and Yang also are from the First Affiliated Hospital, Southern University of Science and Technology, Shenzhen.

The authors report no conflict of interest.

Correspondence: Fang Yang, MD, PhD, Department of Dermatology, Shenzhen People’s Hospital, 1017 Dongmen N Rd, Cuizhu Sub-district, Luohu District, Shenzhen, SZ 518020, Guangdong, China ([email protected]).

Cutis. 2024 August;114(2):E3-E5. doi:10.12788/cutis.1078

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Youyou Zhou, MD, PhD
Yangyang Jiang, MD
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Jianglin Zhang, MD
Fang Yang, MD, PhD
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Beixue Jiang, MD
Youyou Zhou, MD, PhD
Yangyang Jiang, MD
Xiaojing Guo, MD
Jianglin Zhang, MD
Fang Yang, MD, PhD
Author and Disclosure Information

Dr. B. Jiang is from the Department of Dermatology, Shenzhen Children’s Hospital, Guangdong, China. Drs. Zhou, Y. Jiang, Guo, Zhang, and Yang are from Shenzhen People's Hospital, The Second Clinical Medical College of Jinan University, China. Drs. Zhou, Zhang, and Yang are from the Department of Dermatology, and Drs. Y. Jiang and Guo are from the Department of Pathology. Drs. Zhou, Y. Jiang, Guo, Zhang, and Yang also are from the First Affiliated Hospital, Southern University of Science and Technology, Shenzhen.

The authors report no conflict of interest.

Correspondence: Fang Yang, MD, PhD, Department of Dermatology, Shenzhen People’s Hospital, 1017 Dongmen N Rd, Cuizhu Sub-district, Luohu District, Shenzhen, SZ 518020, Guangdong, China ([email protected]).

Cutis. 2024 August;114(2):E3-E5. doi:10.12788/cutis.1078

Author and Disclosure Information

Dr. B. Jiang is from the Department of Dermatology, Shenzhen Children’s Hospital, Guangdong, China. Drs. Zhou, Y. Jiang, Guo, Zhang, and Yang are from Shenzhen People's Hospital, The Second Clinical Medical College of Jinan University, China. Drs. Zhou, Zhang, and Yang are from the Department of Dermatology, and Drs. Y. Jiang and Guo are from the Department of Pathology. Drs. Zhou, Y. Jiang, Guo, Zhang, and Yang also are from the First Affiliated Hospital, Southern University of Science and Technology, Shenzhen.

The authors report no conflict of interest.

Correspondence: Fang Yang, MD, PhD, Department of Dermatology, Shenzhen People’s Hospital, 1017 Dongmen N Rd, Cuizhu Sub-district, Luohu District, Shenzhen, SZ 518020, Guangdong, China ([email protected]).

Cutis. 2024 August;114(2):E3-E5. doi:10.12788/cutis.1078

Article PDF
CT114002003_e.pdf
Article PDF
CT114002003_e.pdf

To the Editor:

Syringoma is a relatively common benign adnexal neoplasm originating in the ducts of eccrine sweat glands. It can be divided into 4 variants based on clinical features: localized; familial; Down syndrome associated; and generalized, which includes multiple syringomas and eruptive syringoma (ES).1 Eruptive syringoma is a rare variant of generalized syringoma that was first described by Jacquet and Darier2 in 1887. Clinically, ES lesions manifest as multiple nonfused, flesh-colored to reddish-brown papules that are located most commonly on the anterior trunk during childhood or adolescence. Eruptive syringoma can be missed easily or misdiagnosed clinically. We present 3 rare cases of ES.

A 28-year-old man presented with multiple asymptomatic papules on the trunk and upper arms of 20 years’ duration (patient 1). He had been diagnosed with Darier disease 3 years prior to the current presentation and was treated with oral and topical retinoic acid without a response. After 3 months of oral treatment, the retinoic acid was stopped due to elevated liver enzymes. Physical examination at the current presentation revealed multiple smooth, firm, nonfused, 1- to 4-mm, reddish to dark red papules on the neck, chest, abdomen, and flexural surfaces of the upper arms (Figure 1A). Dermoscopy of the arm lesions showed light brown pigment networks and yellowish-white unstructured areas surrounded by linear vessels on a pink background under polarized light (Figure 1B). Histopathologic examination of a lesion on the left arm revealed epithelial cords, ducts, and cystic structures within the superficial and mid dermis. The ducts were lined by 2 rows of epithelial cells with a characteristic tadpolelike pattern and filled with eosinophilic amorphous substances (Figure 1C).

FIGURE 1. A, Multiple smooth, firm, nonfused, 1- to 4-mm, reddish to dark red papules on the chest, abdomen, and flexural surfaces of the arms in a patient with eruptive syringoma. B, Dermoscopy of the arm lesions showed light brown pigment networks and yellowish-white unstructured areas surrounded by linear vessels on a pink background. C, Histopathologic examination of a left arm lesion showed some ducts with a tadpolelike pattern in the dermis (H&E, original magnification ×100).


A 27-year-old woman presented with widespread asymptomatic papules of 8 years’ duration (patient 2). She denied any use of drugs. Physical examination revealed multiple flesh-colored to reddish papules on the face, armpits, trunk, thighs, and vulva (Figure 2).

FIGURE 2. Eruptive syringoma consisting of multiple flesh-colored to reddish papules on the vulva.

A 43-year-old man who was otherwise healthy presented with brownish flat-topped papules on the chest and abdomen of 19 years’ duration (Figure 3A)(patient 3). The lesions had remained stable and did not progress. He denied any treatment. Dermoscopy of the chest lesions showed a light brown pigment network as well as dotted and linear vessels on a pale yellow background (Figure 3B).

FIGURE 3. A, Multiple brownish flat-topped papules on the trunk in a patient with eruptive syringoma. B, Dermoscopy of the chest lesions showed a light brown pigment network as well as dotted and linear vessels on a pale yellow background.

All 3 patients demonstrated classic histopathologic features of syringoma, and none had a family history of similar skin lesions. The clinical and dermoscopic findings along with the histopathology in all 3 patients were consistent with ES. In patient 1, three sessions of electrocautery treatments on both upper arms were performed with settings of short-fire mode (1–3 V) at 4- to 8-week intervals. After treatment, the lesions subsided but recurred 7 months later. Five months after recurrence, the rash gradually increased on the trunk and upper arms. In patient 2, two sessions of CO2 laser treatments on the trunk were performed with settings of modulated pulse mode (1–2 W) at 4- to 8-week intervals. The lesions disappeared after treatment but recurred 6 months later. At 1-year follow-up after recurrence, the rash had increased slightly. Neither patient 1 nor patient 2 developed hyperpigmentation or scarring during the 1-year follow-up period after their respective treatments. Patient 3 opted not to undergo treatment after being informed that the lesions were benign, and his condition stabilized at 1-year follow-up.

The pathogenesis of ES is unclear, but it may be affected by hormones, autoimmune status, immunosuppression (eg, liver and kidney transplantation), and medications (eg, hypersensitivity, phototoxicity, and antiepileptic medications).3-6 Guitart et al7 hypothesized that ES may be a hyperplastic response of the eccrine duct to an inflammatory reaction, such as trauma from waxing or chronic scratching. It also has been associated with systemic conditions such as Nicolau-Balus syndrome (syringomas, milia, and atrophoderma vermiculata) and Down syndrome.8,9 The lesions manifest symmetrically and are characterized by flesh-colored to reddish-brown, shiny, or flat-topped papules; however, ES also can manifest as hyperpigmentation, erythema, positive Darier sign, or pseudokoebnerization.10 The lesions typically are located on the eyelids, neck, anterior chest, upper abdomen, upper arms, axillae, and genital region, and they rarely involve the palms, soles, and mucous membranes. Eruptive syringoma commonly is asymptomatic and in rare cases gradually subsides.11


Sometimes the lesions of ES are atypical and clinically resemble Darier disease, Fox-Fordyce disease, lichen planus, mastocytosis, granuloma annulare, trichoepithelioma, and sarcoidosis. Additionally, Marfan syndrome and Ehlers-Danlos syndrome should be ruled out when lesions involve the eyelids.11 The differential diagnosis in our patients included Darier disease and Fox-Fordyce disease, which can be differentiated from ES via noninvasive dermoscopy and pathologic biopsy. In most patients with ES, dermoscopic findings include reticular brown lines or fine pigment networks as well as dotted and linear or reticular vessels. Tiny whitish dots, multifocal hypopigmented areas, and glittering yellow-whitish round structures are dermoscopic hallmarks of the vulvar variant of ES.12-14 Histopathology of ES has shown epithelial cords, ducts, and cystic structures within the dermis. The ducts are lined by 2 rows of epithelial cells with a characteristic comma-shaped/tadpolelike pattern and are filled with eosinophilic amorphous substances. The dermoscopic features of Darier disease differ from ES in that Darier disease usually manifests as a comedolike opening with a central polygonal yellowish-brownish structure surrounded by a whitish halo on a pink background.15Histopathology of Darier disease has shown acantholysis above the basal layer of the epidermis and dyskeratotic keratinocytes. Dermoscopic findings in Fox-Fordyce disease include typical light brown to dark brown, folliculocentric, structureless areas with loss of dermatoglyphics. Some of the lesions also show hyperkeratotic follicular plugging.16 Histopathology of Fox-Fordyce disease includes infundibulum dilation, hyperkeratosis, plugging, acanthosis, a lymphohistiocytic infiltrate, and a perifollicular foam cell infiltrate.17Eruptive syringoma is a benign condition that generally requires no treatment. The goal of treatment is to improve cosmesis and primarily includes physical and chemical therapies such as surgical resection, cryosurgery, electrodesiccation, CO2 laser (alone and in combination with trichloroacetic acid10), argon laser, fractional photothermolysis, dermabrasion, and chemical peeling. However, because ES involves deeper areas of the dermis, some treatments may cause hyperpigmentation, scar formation, or recurrence of the lesions and may be less effective for lesions on the eyelids, which may remain untreated. Systemic therapy consists of oral retinoic acid or tranilast.18The use of topical retinoic acid and atropine also have been reported,19 but their efficacy remains uncertain. The lesions in patient 1 did not resolve after receiving oral and topical retinoic acid. Although ES lesions may decrease in size or subside without inter­vention in rare cases, the disease was not self-limiting in our patients.

To the Editor:

Syringoma is a relatively common benign adnexal neoplasm originating in the ducts of eccrine sweat glands. It can be divided into 4 variants based on clinical features: localized; familial; Down syndrome associated; and generalized, which includes multiple syringomas and eruptive syringoma (ES).1 Eruptive syringoma is a rare variant of generalized syringoma that was first described by Jacquet and Darier2 in 1887. Clinically, ES lesions manifest as multiple nonfused, flesh-colored to reddish-brown papules that are located most commonly on the anterior trunk during childhood or adolescence. Eruptive syringoma can be missed easily or misdiagnosed clinically. We present 3 rare cases of ES.

A 28-year-old man presented with multiple asymptomatic papules on the trunk and upper arms of 20 years’ duration (patient 1). He had been diagnosed with Darier disease 3 years prior to the current presentation and was treated with oral and topical retinoic acid without a response. After 3 months of oral treatment, the retinoic acid was stopped due to elevated liver enzymes. Physical examination at the current presentation revealed multiple smooth, firm, nonfused, 1- to 4-mm, reddish to dark red papules on the neck, chest, abdomen, and flexural surfaces of the upper arms (Figure 1A). Dermoscopy of the arm lesions showed light brown pigment networks and yellowish-white unstructured areas surrounded by linear vessels on a pink background under polarized light (Figure 1B). Histopathologic examination of a lesion on the left arm revealed epithelial cords, ducts, and cystic structures within the superficial and mid dermis. The ducts were lined by 2 rows of epithelial cells with a characteristic tadpolelike pattern and filled with eosinophilic amorphous substances (Figure 1C).

FIGURE 1. A, Multiple smooth, firm, nonfused, 1- to 4-mm, reddish to dark red papules on the chest, abdomen, and flexural surfaces of the arms in a patient with eruptive syringoma. B, Dermoscopy of the arm lesions showed light brown pigment networks and yellowish-white unstructured areas surrounded by linear vessels on a pink background. C, Histopathologic examination of a left arm lesion showed some ducts with a tadpolelike pattern in the dermis (H&E, original magnification ×100).


A 27-year-old woman presented with widespread asymptomatic papules of 8 years’ duration (patient 2). She denied any use of drugs. Physical examination revealed multiple flesh-colored to reddish papules on the face, armpits, trunk, thighs, and vulva (Figure 2).

FIGURE 2. Eruptive syringoma consisting of multiple flesh-colored to reddish papules on the vulva.

A 43-year-old man who was otherwise healthy presented with brownish flat-topped papules on the chest and abdomen of 19 years’ duration (Figure 3A)(patient 3). The lesions had remained stable and did not progress. He denied any treatment. Dermoscopy of the chest lesions showed a light brown pigment network as well as dotted and linear vessels on a pale yellow background (Figure 3B).

FIGURE 3. A, Multiple brownish flat-topped papules on the trunk in a patient with eruptive syringoma. B, Dermoscopy of the chest lesions showed a light brown pigment network as well as dotted and linear vessels on a pale yellow background.

All 3 patients demonstrated classic histopathologic features of syringoma, and none had a family history of similar skin lesions. The clinical and dermoscopic findings along with the histopathology in all 3 patients were consistent with ES. In patient 1, three sessions of electrocautery treatments on both upper arms were performed with settings of short-fire mode (1–3 V) at 4- to 8-week intervals. After treatment, the lesions subsided but recurred 7 months later. Five months after recurrence, the rash gradually increased on the trunk and upper arms. In patient 2, two sessions of CO2 laser treatments on the trunk were performed with settings of modulated pulse mode (1–2 W) at 4- to 8-week intervals. The lesions disappeared after treatment but recurred 6 months later. At 1-year follow-up after recurrence, the rash had increased slightly. Neither patient 1 nor patient 2 developed hyperpigmentation or scarring during the 1-year follow-up period after their respective treatments. Patient 3 opted not to undergo treatment after being informed that the lesions were benign, and his condition stabilized at 1-year follow-up.

The pathogenesis of ES is unclear, but it may be affected by hormones, autoimmune status, immunosuppression (eg, liver and kidney transplantation), and medications (eg, hypersensitivity, phototoxicity, and antiepileptic medications).3-6 Guitart et al7 hypothesized that ES may be a hyperplastic response of the eccrine duct to an inflammatory reaction, such as trauma from waxing or chronic scratching. It also has been associated with systemic conditions such as Nicolau-Balus syndrome (syringomas, milia, and atrophoderma vermiculata) and Down syndrome.8,9 The lesions manifest symmetrically and are characterized by flesh-colored to reddish-brown, shiny, or flat-topped papules; however, ES also can manifest as hyperpigmentation, erythema, positive Darier sign, or pseudokoebnerization.10 The lesions typically are located on the eyelids, neck, anterior chest, upper abdomen, upper arms, axillae, and genital region, and they rarely involve the palms, soles, and mucous membranes. Eruptive syringoma commonly is asymptomatic and in rare cases gradually subsides.11


Sometimes the lesions of ES are atypical and clinically resemble Darier disease, Fox-Fordyce disease, lichen planus, mastocytosis, granuloma annulare, trichoepithelioma, and sarcoidosis. Additionally, Marfan syndrome and Ehlers-Danlos syndrome should be ruled out when lesions involve the eyelids.11 The differential diagnosis in our patients included Darier disease and Fox-Fordyce disease, which can be differentiated from ES via noninvasive dermoscopy and pathologic biopsy. In most patients with ES, dermoscopic findings include reticular brown lines or fine pigment networks as well as dotted and linear or reticular vessels. Tiny whitish dots, multifocal hypopigmented areas, and glittering yellow-whitish round structures are dermoscopic hallmarks of the vulvar variant of ES.12-14 Histopathology of ES has shown epithelial cords, ducts, and cystic structures within the dermis. The ducts are lined by 2 rows of epithelial cells with a characteristic comma-shaped/tadpolelike pattern and are filled with eosinophilic amorphous substances. The dermoscopic features of Darier disease differ from ES in that Darier disease usually manifests as a comedolike opening with a central polygonal yellowish-brownish structure surrounded by a whitish halo on a pink background.15Histopathology of Darier disease has shown acantholysis above the basal layer of the epidermis and dyskeratotic keratinocytes. Dermoscopic findings in Fox-Fordyce disease include typical light brown to dark brown, folliculocentric, structureless areas with loss of dermatoglyphics. Some of the lesions also show hyperkeratotic follicular plugging.16 Histopathology of Fox-Fordyce disease includes infundibulum dilation, hyperkeratosis, plugging, acanthosis, a lymphohistiocytic infiltrate, and a perifollicular foam cell infiltrate.17Eruptive syringoma is a benign condition that generally requires no treatment. The goal of treatment is to improve cosmesis and primarily includes physical and chemical therapies such as surgical resection, cryosurgery, electrodesiccation, CO2 laser (alone and in combination with trichloroacetic acid10), argon laser, fractional photothermolysis, dermabrasion, and chemical peeling. However, because ES involves deeper areas of the dermis, some treatments may cause hyperpigmentation, scar formation, or recurrence of the lesions and may be less effective for lesions on the eyelids, which may remain untreated. Systemic therapy consists of oral retinoic acid or tranilast.18The use of topical retinoic acid and atropine also have been reported,19 but their efficacy remains uncertain. The lesions in patient 1 did not resolve after receiving oral and topical retinoic acid. Although ES lesions may decrease in size or subside without inter­vention in rare cases, the disease was not self-limiting in our patients.

References
  1. Williams K, Shinkai K. Evaluation and management of the patient with multiple syringomas: a systematic review of the literature. J Am Acad Dermatol. 2016;74:1234-1240.e1239. doi:10.1016/j.jaad.2015.12.006
  2. Jacquet L, Darier J. Hidradénomes éruptifs, I.épithéliomes adenoids des glandes sudoripares ou adénomes sudoripares. Ann Dermatol Venerol. 1887;8:317-323.
  3. Huang A, Taylor G, Liebman TN. Generalized eruptive syringomas. Dermatol Online J. 2017;23:13030/qt0hb8q22g..
  4. Maeda T, Natsuga K, Nishie W, et al. Extensive eruptive syringoma after liver transplantation. Acta Derm Venereol. 2018;98:119-120. doi:10.2340/00015555-2814
  5. Lerner TH, Barr RJ, Dolezal JF, et al. Syringomatous hyperplasia and eccrine squamous syringometaplasia associated with benoxaprofen therapy. Arch Dermatol. 1987;123:1202-1204. doi:10.1001/archderm.1987.01660330113022
  6. Ozturk F, Ermertcan AT, Bilac C, et al. A case report of postpubertal eruptive syringoma triggered with antiepileptic drugs. J Drugs Dermatol. 2010;9:707-710.
  7. Guitart J, Rosenbaum MM, Requena L. ‘Eruptive syringoma’: a misnomer for a reactive eccrine gland ductal proliferation? J Cutan Pathol. 2003;30:202-205. doi:10.1034/j.1600-0560.2003.00023.x
  8. Dupre A, Carrere S, Bonafe JL, et al. Eruptive generalized syringomas, milium and atrophoderma vermiculata. Nicolau and Balus’ syndrome (author’s transl). Dermatologica. 1981;162:281-286.
  9. Schepis C, Torre V, Siragusa M, et al. Eruptive syringomas with calcium deposits in a young woman with Down’s syndrome. Dermatology. 2001;203:345-347. doi:10.1159/000051788
  10. Samia AM, Donthi D, Nenow J, et al. A case study and review of literature of eruptive syringoma in a six-year-old. Cureus. 2021;13:E14634. doi:10.7759/cureus.14634
  11. Soler-Carrillo J, Estrach T, Mascaró JM. Eruptive syringoma: 27 new cases and review of the literature. J Eur Acad Dermatol Venereol. 2001;15:242-246. doi:10.1046/j.1468-3083.2001.00235.x
  12. Aleissa M, Aljarbou O, AlJasser MI. Dermoscopy of eruptive syringoma. Skin Appendage Disord. 2021;7:401-403. doi:10.1159/000515443
  13. Botsali A, Caliskan E, Coskun A, et al. Eruptive syringoma: two cases with dermoscopic features. Skin Appendage Disord. 2020;6:319-322. doi:10.1159/000508656
  14. Dutra Rezende H, Madia ACT, Elias BM, et al. Comment on: eruptive syringoma—two cases with dermoscopic features. Skin Appendage Disord. 2022;8:81-82. doi:10.1159/000518158
  15. Silva-Hirschberg C, Cabrera R, Rollán MP, et al. Darier disease: the use of dermoscopy in monitoring acitretin treatment. An Bras Dermatol. 2022;97:644-647. doi:10.1016/j.abd.2021.05.021
  16. Singal A, Kaur I, Jakhar D. Fox-Fordyce disease: dermoscopic perspective. Skin Appendage Disord. 2020;6:247-249. doi:10.1159/000508201
  17. Brau Javier CN, Morales A, Sanchez JL. Histopathology attributes of Fox-Fordyce disease. Int J Dermatol. 2012;51:1313-1318. doi:10.1159/000508201
  18. Horie K, Shinkuma S, Fujita Y, et al. Efficacy of N-(3,4-dimethoxycinnamoyl)-anthranilic acid (tranilast) against eruptive syringoma: report of two cases and review of published work. J Dermatol. 2012;39:1044-1046. doi:10.1111/j.1346-8138.2012.01612.x
  19. Sanchez TS, Dauden E, Casas AP, et al. Eruptive pruritic syringomas: treatment with topical atropine. J Am Acad Dermatol. 2001;44:148-149. doi:10.1067/mjd.2001.109854
References
  1. Williams K, Shinkai K. Evaluation and management of the patient with multiple syringomas: a systematic review of the literature. J Am Acad Dermatol. 2016;74:1234-1240.e1239. doi:10.1016/j.jaad.2015.12.006
  2. Jacquet L, Darier J. Hidradénomes éruptifs, I.épithéliomes adenoids des glandes sudoripares ou adénomes sudoripares. Ann Dermatol Venerol. 1887;8:317-323.
  3. Huang A, Taylor G, Liebman TN. Generalized eruptive syringomas. Dermatol Online J. 2017;23:13030/qt0hb8q22g..
  4. Maeda T, Natsuga K, Nishie W, et al. Extensive eruptive syringoma after liver transplantation. Acta Derm Venereol. 2018;98:119-120. doi:10.2340/00015555-2814
  5. Lerner TH, Barr RJ, Dolezal JF, et al. Syringomatous hyperplasia and eccrine squamous syringometaplasia associated with benoxaprofen therapy. Arch Dermatol. 1987;123:1202-1204. doi:10.1001/archderm.1987.01660330113022
  6. Ozturk F, Ermertcan AT, Bilac C, et al. A case report of postpubertal eruptive syringoma triggered with antiepileptic drugs. J Drugs Dermatol. 2010;9:707-710.
  7. Guitart J, Rosenbaum MM, Requena L. ‘Eruptive syringoma’: a misnomer for a reactive eccrine gland ductal proliferation? J Cutan Pathol. 2003;30:202-205. doi:10.1034/j.1600-0560.2003.00023.x
  8. Dupre A, Carrere S, Bonafe JL, et al. Eruptive generalized syringomas, milium and atrophoderma vermiculata. Nicolau and Balus’ syndrome (author’s transl). Dermatologica. 1981;162:281-286.
  9. Schepis C, Torre V, Siragusa M, et al. Eruptive syringomas with calcium deposits in a young woman with Down’s syndrome. Dermatology. 2001;203:345-347. doi:10.1159/000051788
  10. Samia AM, Donthi D, Nenow J, et al. A case study and review of literature of eruptive syringoma in a six-year-old. Cureus. 2021;13:E14634. doi:10.7759/cureus.14634
  11. Soler-Carrillo J, Estrach T, Mascaró JM. Eruptive syringoma: 27 new cases and review of the literature. J Eur Acad Dermatol Venereol. 2001;15:242-246. doi:10.1046/j.1468-3083.2001.00235.x
  12. Aleissa M, Aljarbou O, AlJasser MI. Dermoscopy of eruptive syringoma. Skin Appendage Disord. 2021;7:401-403. doi:10.1159/000515443
  13. Botsali A, Caliskan E, Coskun A, et al. Eruptive syringoma: two cases with dermoscopic features. Skin Appendage Disord. 2020;6:319-322. doi:10.1159/000508656
  14. Dutra Rezende H, Madia ACT, Elias BM, et al. Comment on: eruptive syringoma—two cases with dermoscopic features. Skin Appendage Disord. 2022;8:81-82. doi:10.1159/000518158
  15. Silva-Hirschberg C, Cabrera R, Rollán MP, et al. Darier disease: the use of dermoscopy in monitoring acitretin treatment. An Bras Dermatol. 2022;97:644-647. doi:10.1016/j.abd.2021.05.021
  16. Singal A, Kaur I, Jakhar D. Fox-Fordyce disease: dermoscopic perspective. Skin Appendage Disord. 2020;6:247-249. doi:10.1159/000508201
  17. Brau Javier CN, Morales A, Sanchez JL. Histopathology attributes of Fox-Fordyce disease. Int J Dermatol. 2012;51:1313-1318. doi:10.1159/000508201
  18. Horie K, Shinkuma S, Fujita Y, et al. Efficacy of N-(3,4-dimethoxycinnamoyl)-anthranilic acid (tranilast) against eruptive syringoma: report of two cases and review of published work. J Dermatol. 2012;39:1044-1046. doi:10.1111/j.1346-8138.2012.01612.x
  19. Sanchez TS, Dauden E, Casas AP, et al. Eruptive pruritic syringomas: treatment with topical atropine. J Am Acad Dermatol. 2001;44:148-149. doi:10.1067/mjd.2001.109854
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Eruptive Syringoma Manifesting as a Widespread Rash in 3 Patients
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  • Eruptive syringoma (ES) is a benign cutaneous adnexal neoplasm that typically does not require treatment.
  • Dermoscopy and biopsy are helpful for the diagnosis of ES, which often is missed or misdiagnosed clinically.
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Saxophone Penis: A Forgotten Manifestation of Hidradenitis Suppurativa

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Saxophone Penis: A Forgotten Manifestation of Hidradenitis Suppurativa
Author(s)
Emanuel Carvalheiro Marques, MD, PhD
Petra Hoffmanová, MD
Anshu Jha, MD
Alžbeta Smetanová, MD
Jirí Veselý, MD, CSc
Monika Arenbergerová, PhD

To the Editor:

Hidradenitis suppurativa (HS) is a multifactorial chronic inflammatory skin disease affecting 1% to 4% of Europeans. It is characterized by recurrent inflamed nodules, abscesses, and sinus tracts in intertriginous regions.1 The genital area is affected in 11% of cases2 and usually is connected to severe forms of HS in both men and women.3 The prevalence of HS-associated genital lymphedema remains unknown.

Saxophone penis is a specific penile malformation characterized by a saxophone shape due to inflammation of the major penile lymphatic vessels that cause fibrosis of the surrounding connective tissue. Poor blood flow further causes contracture and distortion of the penile axis.4 Saxophone penis also has been associated with primary lymphedema, lymphogranuloma venereum, filariasis,5 and administration of paraffin injections.6 We describe 3 men with HS who presented with saxophone penis.

A 33-year-old man with Hurley stage III HS presented with a medical history of groin lesions and progressive penoscrotal edema of 13 years’ duration. He had a body mass index (BMI) of 37, no family history of HS or comorbidities, and a 15-year history of smoking 20 cigarettes per day. After repeated surgical drainage of the HS lesions as well as antibiotic treatment with clindamycin 600 mg/d and rifampicin 600 mg/d, the patient was kept on a maintenance therapy with adalimumab 40 mg/wk. Due to lack of response, treatment was discontinued at week 16. Clindamycin and ­rifampicin 300 mg were immediately reintroduced with no benefit on the genital lesions. The patient underwent genital reconstruction, including penile degloving, scrotoplasty, infrapubic fat pad removal, and perineoplasty (Figure 1). The patient currently is not undergoing any therapies.

A 55-year-old man presented with Hurley stage II HS of 33 years’ duration. He had a BMI of 52; a history of hypertension, hyperuricemia, severe hip and knee osteoarthritis, and orchiopexy in childhood; a smoking history of 40 cigarettes per day; and an alcohol consumption history of 200 mL per day since 18 years of age. He had radical excision of axillary lesions 8 years prior. One year later, he was treated with concomitant clindamycin and rifampicin 300 mg twice daily for 3 months with no desirable effects. Adalimumab 40 mg/wk was initiated. After 12 weeks of treatment, he experienced 80% improvement in all areas except the genital region. He continued adalimumab for 3 years with good clinical response in all HS-affected sites except the genital region.

A 66-year-old man presented with Hurley stage III HS of 37 years’ duration. He had a smoking history of 10 cigarettes per day for 30 years, a BMI of 24.6, and a medical history of long-standing hypertension and hypothyroidism. A 3-month course of clindamycin and rifampicin 600 mg/d was ineffective; adalimumab 40 mg/wk was initiated. All affected areas improved, except for the saxophone penis. He continues his fifth year of therapy with adalimumab (Figure 2).

FIGURE 2. Saxophone penis in a patient with hidradenitis suppurativa treated with adalimumab.

Hidradenitis suppurativa is associated with chronic pain, purulent malodor, and scarring with structural deformity. Repetitive inflammation causes fibrosis, scar formation, and soft-tissue destruction of lymphatic vessels, leading to lymphedema; primary lymphedema of the genitals in men has been reported to result in a saxophone penis.4

The only approved biologic treatments for moderate to severe HS are the tumor necrosis factor α inhibitor adalimumab and anti-IL-17 secukinumab.1 All 3 of our patients with HS were treated with adalimumab with reasonable success; however, the penile condition remained refractory, which we speculate may be due to adalimumab’s ability to control only active inflammatory lesions but not scars or fibrotic tissue.7 Higher adalimumab dosages were unlikely to be beneficial for their penile condition; some improvements have been reported following fluoroquinolone therapy. To our knowledge, there is no effective medical treatment for saxophone penis. However, surgery showed good results in one of our patients. Among our 3 adalimumab-treated patients, only 1 patient had corrective surgery that resulted in improvement in the penile deformity, further confirming adalimumab’s limited role in genital lymphedema.7 Extensive resection of the lymphedematous tissue, scrotoplasty, and Charles procedure are treatment options.8

Genital lymphedema has been associated with lymphangiectasia, lymphangioma circumscriptum, infections, and neoplasms such as lymphangiosarcoma and squamous cell carcinoma.9 Our patients reported discomfort, hygiene issues, and swelling. One patient reported micturition, and 2 patients reported sexual dysfunction.

Saxophone penis remains a disabling sequela of HS. Early diagnosis and treatment of HS may help prevent development of this condition.

References
  1. Lee EY, Alhusayen R, Lansang P, et al. What is hidradenitis suppurativa? Can Fam Physician. 2017;63:114-120.
  2. Fertitta L, Hotz C, Wolkenstein P, et al. Efficacy and satisfaction of surgical treatment for hidradenitis suppurativa. J Eur Acad Dermatol Venereol. 2020;34:839-845.
  3. Micieli R, Alavi A. Lymphedema in patients with hidradenitis suppurativa: a systematic review of published literature. Int J Dermatol. 2018;57:1471-1480.
  4. Maatouk I, Moutran R. Saxophone penis. JAMA Dermatol. 2013;149:802.
  5. Koley S, Mandal RK. Saxophone penis after unilateral inguinal bubo of lymphogranuloma venereum. Indian J Sex Transm Dis AIDS. 2013;34:149-151.
  6. D’Antuono A, Lambertini M, Gaspari V, et al. Visual dermatology: self-induced chronic saxophone penis due to paraffin injections. J Cutan Med Surg. 2019;23:330.
  7. Musumeci ML, Scilletta A, Sorci F, et al. Genital lymphedema associated with hidradenitis suppurativa unresponsive to adalimumab treatment. JAAD Case Rep. 2019;5:326-328.
  8. Jain V, Singh S, Garge S, et al. Saxophone penis due to primary lymphoedema. J Indian Assoc Pediatr Surg. 2009;14:230-231.
  9. Moosbrugger EA, Mutasim DF. Hidradenitis suppurativa complicated by severe lymphedema and lymphangiectasias. J Am Acad Dermatol. 2011;64:1223-1224.
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Drs. Marques, Hoffmanová, Smetanová, and Arenbergerová are from the Department of Dermatovenereology, Third Faculty of Medicine, Charles University and University Hospital Královská Vinohrady, Prague, Czech Republic. Dr. Jha is from the Department of Urology, James Cook University Hospital, Middlesbrough, United Kingdom. Dr. Veselý is from the Department of Plastic and Aesthetic Surgery, St Anne’s University Hospital, Masaryk University, Brno, Czech Republic.

Dr. Marques has received honoraria and consulting fees from AbbVie and LEO Pharma. Drs. Hoffmanová, Jha, Smetanová, and Veselý report no conflict of interest. Dr. Arenbergerová received honoraria from AbbVie, Bristol-Myers Squibb, L’Oréal, MSD, Novartis, and Pierre Fabre.

Correspondence: Emanuel Carvalheiro Marques, MD, PhD, Srobarova 50, Prague 10, 100 00, Czech Republic ([email protected]).

Cutis. 2024 July;114(1):E43-E45. doi:10.12788/cutis.1077

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Emanuel Carvalheiro Marques, MD, PhD
Petra Hoffmanová, MD
Anshu Jha, MD
Alžbeta Smetanová, MD
Jirí Veselý, MD, CSc
Monika Arenbergerová, PhD
Author(s)
Emanuel Carvalheiro Marques, MD, PhD
Petra Hoffmanová, MD
Anshu Jha, MD
Alžbeta Smetanová, MD
Jirí Veselý, MD, CSc
Monika Arenbergerová, PhD
Author and Disclosure Information

Drs. Marques, Hoffmanová, Smetanová, and Arenbergerová are from the Department of Dermatovenereology, Third Faculty of Medicine, Charles University and University Hospital Královská Vinohrady, Prague, Czech Republic. Dr. Jha is from the Department of Urology, James Cook University Hospital, Middlesbrough, United Kingdom. Dr. Veselý is from the Department of Plastic and Aesthetic Surgery, St Anne’s University Hospital, Masaryk University, Brno, Czech Republic.

Dr. Marques has received honoraria and consulting fees from AbbVie and LEO Pharma. Drs. Hoffmanová, Jha, Smetanová, and Veselý report no conflict of interest. Dr. Arenbergerová received honoraria from AbbVie, Bristol-Myers Squibb, L’Oréal, MSD, Novartis, and Pierre Fabre.

Correspondence: Emanuel Carvalheiro Marques, MD, PhD, Srobarova 50, Prague 10, 100 00, Czech Republic ([email protected]).

Cutis. 2024 July;114(1):E43-E45. doi:10.12788/cutis.1077

Author and Disclosure Information

Drs. Marques, Hoffmanová, Smetanová, and Arenbergerová are from the Department of Dermatovenereology, Third Faculty of Medicine, Charles University and University Hospital Královská Vinohrady, Prague, Czech Republic. Dr. Jha is from the Department of Urology, James Cook University Hospital, Middlesbrough, United Kingdom. Dr. Veselý is from the Department of Plastic and Aesthetic Surgery, St Anne’s University Hospital, Masaryk University, Brno, Czech Republic.

Dr. Marques has received honoraria and consulting fees from AbbVie and LEO Pharma. Drs. Hoffmanová, Jha, Smetanová, and Veselý report no conflict of interest. Dr. Arenbergerová received honoraria from AbbVie, Bristol-Myers Squibb, L’Oréal, MSD, Novartis, and Pierre Fabre.

Correspondence: Emanuel Carvalheiro Marques, MD, PhD, Srobarova 50, Prague 10, 100 00, Czech Republic ([email protected]).

Cutis. 2024 July;114(1):E43-E45. doi:10.12788/cutis.1077

Article PDF
CT114001044_e.pdf
Article PDF
CT114001044_e.pdf

To the Editor:

Hidradenitis suppurativa (HS) is a multifactorial chronic inflammatory skin disease affecting 1% to 4% of Europeans. It is characterized by recurrent inflamed nodules, abscesses, and sinus tracts in intertriginous regions.1 The genital area is affected in 11% of cases2 and usually is connected to severe forms of HS in both men and women.3 The prevalence of HS-associated genital lymphedema remains unknown.

Saxophone penis is a specific penile malformation characterized by a saxophone shape due to inflammation of the major penile lymphatic vessels that cause fibrosis of the surrounding connective tissue. Poor blood flow further causes contracture and distortion of the penile axis.4 Saxophone penis also has been associated with primary lymphedema, lymphogranuloma venereum, filariasis,5 and administration of paraffin injections.6 We describe 3 men with HS who presented with saxophone penis.

A 33-year-old man with Hurley stage III HS presented with a medical history of groin lesions and progressive penoscrotal edema of 13 years’ duration. He had a body mass index (BMI) of 37, no family history of HS or comorbidities, and a 15-year history of smoking 20 cigarettes per day. After repeated surgical drainage of the HS lesions as well as antibiotic treatment with clindamycin 600 mg/d and rifampicin 600 mg/d, the patient was kept on a maintenance therapy with adalimumab 40 mg/wk. Due to lack of response, treatment was discontinued at week 16. Clindamycin and ­rifampicin 300 mg were immediately reintroduced with no benefit on the genital lesions. The patient underwent genital reconstruction, including penile degloving, scrotoplasty, infrapubic fat pad removal, and perineoplasty (Figure 1). The patient currently is not undergoing any therapies.

A 55-year-old man presented with Hurley stage II HS of 33 years’ duration. He had a BMI of 52; a history of hypertension, hyperuricemia, severe hip and knee osteoarthritis, and orchiopexy in childhood; a smoking history of 40 cigarettes per day; and an alcohol consumption history of 200 mL per day since 18 years of age. He had radical excision of axillary lesions 8 years prior. One year later, he was treated with concomitant clindamycin and rifampicin 300 mg twice daily for 3 months with no desirable effects. Adalimumab 40 mg/wk was initiated. After 12 weeks of treatment, he experienced 80% improvement in all areas except the genital region. He continued adalimumab for 3 years with good clinical response in all HS-affected sites except the genital region.

A 66-year-old man presented with Hurley stage III HS of 37 years’ duration. He had a smoking history of 10 cigarettes per day for 30 years, a BMI of 24.6, and a medical history of long-standing hypertension and hypothyroidism. A 3-month course of clindamycin and rifampicin 600 mg/d was ineffective; adalimumab 40 mg/wk was initiated. All affected areas improved, except for the saxophone penis. He continues his fifth year of therapy with adalimumab (Figure 2).

FIGURE 2. Saxophone penis in a patient with hidradenitis suppurativa treated with adalimumab.

Hidradenitis suppurativa is associated with chronic pain, purulent malodor, and scarring with structural deformity. Repetitive inflammation causes fibrosis, scar formation, and soft-tissue destruction of lymphatic vessels, leading to lymphedema; primary lymphedema of the genitals in men has been reported to result in a saxophone penis.4

The only approved biologic treatments for moderate to severe HS are the tumor necrosis factor α inhibitor adalimumab and anti-IL-17 secukinumab.1 All 3 of our patients with HS were treated with adalimumab with reasonable success; however, the penile condition remained refractory, which we speculate may be due to adalimumab’s ability to control only active inflammatory lesions but not scars or fibrotic tissue.7 Higher adalimumab dosages were unlikely to be beneficial for their penile condition; some improvements have been reported following fluoroquinolone therapy. To our knowledge, there is no effective medical treatment for saxophone penis. However, surgery showed good results in one of our patients. Among our 3 adalimumab-treated patients, only 1 patient had corrective surgery that resulted in improvement in the penile deformity, further confirming adalimumab’s limited role in genital lymphedema.7 Extensive resection of the lymphedematous tissue, scrotoplasty, and Charles procedure are treatment options.8

Genital lymphedema has been associated with lymphangiectasia, lymphangioma circumscriptum, infections, and neoplasms such as lymphangiosarcoma and squamous cell carcinoma.9 Our patients reported discomfort, hygiene issues, and swelling. One patient reported micturition, and 2 patients reported sexual dysfunction.

Saxophone penis remains a disabling sequela of HS. Early diagnosis and treatment of HS may help prevent development of this condition.

To the Editor:

Hidradenitis suppurativa (HS) is a multifactorial chronic inflammatory skin disease affecting 1% to 4% of Europeans. It is characterized by recurrent inflamed nodules, abscesses, and sinus tracts in intertriginous regions.1 The genital area is affected in 11% of cases2 and usually is connected to severe forms of HS in both men and women.3 The prevalence of HS-associated genital lymphedema remains unknown.

Saxophone penis is a specific penile malformation characterized by a saxophone shape due to inflammation of the major penile lymphatic vessels that cause fibrosis of the surrounding connective tissue. Poor blood flow further causes contracture and distortion of the penile axis.4 Saxophone penis also has been associated with primary lymphedema, lymphogranuloma venereum, filariasis,5 and administration of paraffin injections.6 We describe 3 men with HS who presented with saxophone penis.

A 33-year-old man with Hurley stage III HS presented with a medical history of groin lesions and progressive penoscrotal edema of 13 years’ duration. He had a body mass index (BMI) of 37, no family history of HS or comorbidities, and a 15-year history of smoking 20 cigarettes per day. After repeated surgical drainage of the HS lesions as well as antibiotic treatment with clindamycin 600 mg/d and rifampicin 600 mg/d, the patient was kept on a maintenance therapy with adalimumab 40 mg/wk. Due to lack of response, treatment was discontinued at week 16. Clindamycin and ­rifampicin 300 mg were immediately reintroduced with no benefit on the genital lesions. The patient underwent genital reconstruction, including penile degloving, scrotoplasty, infrapubic fat pad removal, and perineoplasty (Figure 1). The patient currently is not undergoing any therapies.

A 55-year-old man presented with Hurley stage II HS of 33 years’ duration. He had a BMI of 52; a history of hypertension, hyperuricemia, severe hip and knee osteoarthritis, and orchiopexy in childhood; a smoking history of 40 cigarettes per day; and an alcohol consumption history of 200 mL per day since 18 years of age. He had radical excision of axillary lesions 8 years prior. One year later, he was treated with concomitant clindamycin and rifampicin 300 mg twice daily for 3 months with no desirable effects. Adalimumab 40 mg/wk was initiated. After 12 weeks of treatment, he experienced 80% improvement in all areas except the genital region. He continued adalimumab for 3 years with good clinical response in all HS-affected sites except the genital region.

A 66-year-old man presented with Hurley stage III HS of 37 years’ duration. He had a smoking history of 10 cigarettes per day for 30 years, a BMI of 24.6, and a medical history of long-standing hypertension and hypothyroidism. A 3-month course of clindamycin and rifampicin 600 mg/d was ineffective; adalimumab 40 mg/wk was initiated. All affected areas improved, except for the saxophone penis. He continues his fifth year of therapy with adalimumab (Figure 2).

FIGURE 2. Saxophone penis in a patient with hidradenitis suppurativa treated with adalimumab.

Hidradenitis suppurativa is associated with chronic pain, purulent malodor, and scarring with structural deformity. Repetitive inflammation causes fibrosis, scar formation, and soft-tissue destruction of lymphatic vessels, leading to lymphedema; primary lymphedema of the genitals in men has been reported to result in a saxophone penis.4

The only approved biologic treatments for moderate to severe HS are the tumor necrosis factor α inhibitor adalimumab and anti-IL-17 secukinumab.1 All 3 of our patients with HS were treated with adalimumab with reasonable success; however, the penile condition remained refractory, which we speculate may be due to adalimumab’s ability to control only active inflammatory lesions but not scars or fibrotic tissue.7 Higher adalimumab dosages were unlikely to be beneficial for their penile condition; some improvements have been reported following fluoroquinolone therapy. To our knowledge, there is no effective medical treatment for saxophone penis. However, surgery showed good results in one of our patients. Among our 3 adalimumab-treated patients, only 1 patient had corrective surgery that resulted in improvement in the penile deformity, further confirming adalimumab’s limited role in genital lymphedema.7 Extensive resection of the lymphedematous tissue, scrotoplasty, and Charles procedure are treatment options.8

Genital lymphedema has been associated with lymphangiectasia, lymphangioma circumscriptum, infections, and neoplasms such as lymphangiosarcoma and squamous cell carcinoma.9 Our patients reported discomfort, hygiene issues, and swelling. One patient reported micturition, and 2 patients reported sexual dysfunction.

Saxophone penis remains a disabling sequela of HS. Early diagnosis and treatment of HS may help prevent development of this condition.

References
  1. Lee EY, Alhusayen R, Lansang P, et al. What is hidradenitis suppurativa? Can Fam Physician. 2017;63:114-120.
  2. Fertitta L, Hotz C, Wolkenstein P, et al. Efficacy and satisfaction of surgical treatment for hidradenitis suppurativa. J Eur Acad Dermatol Venereol. 2020;34:839-845.
  3. Micieli R, Alavi A. Lymphedema in patients with hidradenitis suppurativa: a systematic review of published literature. Int J Dermatol. 2018;57:1471-1480.
  4. Maatouk I, Moutran R. Saxophone penis. JAMA Dermatol. 2013;149:802.
  5. Koley S, Mandal RK. Saxophone penis after unilateral inguinal bubo of lymphogranuloma venereum. Indian J Sex Transm Dis AIDS. 2013;34:149-151.
  6. D’Antuono A, Lambertini M, Gaspari V, et al. Visual dermatology: self-induced chronic saxophone penis due to paraffin injections. J Cutan Med Surg. 2019;23:330.
  7. Musumeci ML, Scilletta A, Sorci F, et al. Genital lymphedema associated with hidradenitis suppurativa unresponsive to adalimumab treatment. JAAD Case Rep. 2019;5:326-328.
  8. Jain V, Singh S, Garge S, et al. Saxophone penis due to primary lymphoedema. J Indian Assoc Pediatr Surg. 2009;14:230-231.
  9. Moosbrugger EA, Mutasim DF. Hidradenitis suppurativa complicated by severe lymphedema and lymphangiectasias. J Am Acad Dermatol. 2011;64:1223-1224.
References
  1. Lee EY, Alhusayen R, Lansang P, et al. What is hidradenitis suppurativa? Can Fam Physician. 2017;63:114-120.
  2. Fertitta L, Hotz C, Wolkenstein P, et al. Efficacy and satisfaction of surgical treatment for hidradenitis suppurativa. J Eur Acad Dermatol Venereol. 2020;34:839-845.
  3. Micieli R, Alavi A. Lymphedema in patients with hidradenitis suppurativa: a systematic review of published literature. Int J Dermatol. 2018;57:1471-1480.
  4. Maatouk I, Moutran R. Saxophone penis. JAMA Dermatol. 2013;149:802.
  5. Koley S, Mandal RK. Saxophone penis after unilateral inguinal bubo of lymphogranuloma venereum. Indian J Sex Transm Dis AIDS. 2013;34:149-151.
  6. D’Antuono A, Lambertini M, Gaspari V, et al. Visual dermatology: self-induced chronic saxophone penis due to paraffin injections. J Cutan Med Surg. 2019;23:330.
  7. Musumeci ML, Scilletta A, Sorci F, et al. Genital lymphedema associated with hidradenitis suppurativa unresponsive to adalimumab treatment. JAAD Case Rep. 2019;5:326-328.
  8. Jain V, Singh S, Garge S, et al. Saxophone penis due to primary lymphoedema. J Indian Assoc Pediatr Surg. 2009;14:230-231.
  9. Moosbrugger EA, Mutasim DF. Hidradenitis suppurativa complicated by severe lymphedema and lymphangiectasias. J Am Acad Dermatol. 2011;64:1223-1224.
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  • Hidradenitis suppurativa (HS) is a multifactorial chronic inflammatory skin disease.
  • Saxophone penis is a specific penile malformation characterized by a saxophone shape due to inflammation.
  • Repetitive inflammation within the context of HS may cause structural deformity of the penis, resulting in a saxophone penis.
  • Early diagnosis and treatment of HS may help prevent development of this condition.
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Government Accuses Health System of Paying Docs Outrageous Salaries for Patient Referrals

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Alicia Gallegos

Strapped for cash and searching for new profits, Tennessee-based Erlanger Health System illegally paid excessive salaries to physicians in exchange for patient referrals, the US government alleged in a federal lawsuit.

Erlanger changed its compensation model to entice revenue-generating doctors, paying some two to three times the median salary for their specialty, according to the complaint. 

The physicians in turn referred numerous patients to Erlanger, and the health system submitted claims to Medicare for the referred services in violation of the Stark Law, according to the suit, filed in US District Court for the Western District of North Carolina. 

The government’s complaint “serves as a warning” to healthcare providers who try to boost profits through improper financial arrangements with referring physicians, said Tamala E. Miles, Special Agent in Charge for the US Department of Health and Human Services (HHS) Office of Inspector General (OIG).

In a statement provided to this news organization, Erlanger denied the allegations and said it would “vigorously” defend the lawsuit. 

“Erlanger paid physicians based on amounts that outside experts advised was fair market value,” Erlanger officials said in the statement. “Erlanger did not pay for referrals. A complete picture of the facts will demonstrate that the allegations lack merit and tell a very different story than what the government now claims.”

The Erlanger case is a reminder to physicians to consult their own knowledgeable advisors when considering financial arrangements with hospitals, said William Sarraille, JD, adjunct professor for the University of Maryland Francis King Carey School of Law in Baltimore and a regulatory consultant. 

“There is a tendency by physicians when contracting ... to rely on [hospitals’] perceived compliance and legal expertise,” Mr. Sarraille told this news organization. “This case illustrates the risks in doing so. Sometimes bigger doesn’t translate into more sophisticated or more effective from a compliance perspective.” 
 

Stark Law Prohibits Kickbacks

The Stark Law prohibits hospitals from billing the Centers for Medicare & Medicaid Services (CMS) for services referred by a physician with whom the hospital has an improper financial relationship.

CMS paid Erlanger about $27.8 million for claims stemming from the improper financial arrangements, the government contends. 

“HHS-OIG will continue to investigate such deals to prevent financial arrangements that could compromise impartial medical judgment, increase healthcare costs, and erode public trust in the healthcare system,” Ms. Miles said in a statement
 

Suit: Health System’s Money Woes Led to Illegal Arrangements

Erlanger’s financial troubles allegedly started after a previous run-in with the US government over false claims. 

In 2005, Erlanger Health System agreed to pay the government $40 million to resolve allegations that it knowingly submitted false claims to Medicare, according to the government’s complaint. At the time, Erlanger entered into a Corporate Integrity Agreement (CIA) with the OIG that required Erlanger to put controls in place to ensure its financial relationships did not violate the Stark Law. 

Erlanger’s agreement with OIG ended in 2010. Over the next 3 years, the health system lost nearly $32 million and in fiscal year 2013, had only 65 days of cash on hand, according to the government’s lawsuit. 

Beginning in 2013, Erlanger allegedly implemented a strategy to increase profits by employing more physicians, particularly specialists from competing hospitals whose patients would need costly hospital stays, according to the complaint. 

Once hired, Erlanger’s physicians were expected to treat patients at Erlanger’s hospitals and refer them to other providers within the health system, the suit claims. Erlanger also relaxed or eliminated the oversight and controls on physician compensation put in place under the CIA. For example, Erlanger’s CEO signed some compensation contracts before its chief compliance officer could review them and no longer allowed the compliance officer to vote on whether to approve compensation arrangements, according to the complaint. 

Erlanger also changed its compensation model to include large salaries for medical director and academic positions and allegedly paid such salaries to physicians without ensuring the required work was performed. As a result, Erlanger physicians with profitable referrals were among the highest paid in the nation for their specialties, the government claims. For example, according to the complaint:

  • Erlanger paid an electrophysiologist an annual clinical salary of $816,701, a medical director salary of $101,080, an academic salary of $59,322, and a productivity incentive based on work relative value units (wRVUs). The medical director and academic salaries paid were near the 90th percentile of comparable salaries in the specialty.
  • The health system paid a neurosurgeon a base salary of $654,735, a productivity incentive based on wRVUs, and payments for excess call coverage ranging from $400 to $1000 per 24-hour shift. In 2016, the neurosurgeon made $500,000 in excess call payments.
  • Erlanger paid a cardiothoracic surgeon a base clinical salary of $1,070,000, a sign-on bonus of $150,000, a retention bonus of $100,000 (payable in the 4th year of the contract), and a program incentive of up to $150,000 per year.

In addition, Erlanger ignored patient safety concerns about some of its high revenue-generating physicians, the government claims. 

For instance, Erlanger received multiple complaints that a cardiothoracic surgeon was misusing an expensive form of life support in which pumps and oxygenators take over heart and lung function. Overuse of the equipment prolonged patients’ hospital stays and increased the hospital fees generated by the surgeon, according to the complaint. Staff also raised concerns about the cardiothoracic surgeon’s patient outcomes. 

But Erlanger disregarded the concerns and in 2018, increased the cardiothoracic surgeon’s retention bonus from $100,000 to $250,000, the suit alleges. A year later, the health system increased his base salary from $1,070,000 to $1,195,000.

Health care compensation and billing consultants alerted Erlanger that it was overpaying salaries and handing out bonuses based on measures that overstated the work physicians were performing, but Erlanger ignored the warnings, according to the complaint. 

Administrators allegedly resisted efforts by the chief compliance officer to hire an outside consultant to review its compensation models. Erlanger fired the compliance officer in 2019. 

The former chief compliance officer and another administrator filed a whistleblower lawsuit against Erlanger in 2021. The two administrators are relators in the government’s July 2024 lawsuit. 
 

How to Protect Yourself From Illegal Hospital Deals

The Erlanger case is the latest in a series of recent complaints by the federal government involving financial arrangements between hospitals and physicians.

In December 2023, Indianapolis-based Community Health Network Inc. agreed to pay the government $345 million to resolve claims that it paid physicians above fair market value and awarded bonuses tied to referrals in violation of the Stark Law. 

Also in 2023, Saginaw, Michigan–based Covenant HealthCare and two physicians paid the government $69 million to settle allegations that administrators engaged in improper financial arrangements with referring physicians and a physician-owned investment group. In another 2023 case, Massachusetts Eye and Ear in Boston agreed to pay $5.7 million to resolve claims that some of its physician compensation plans violated the Stark Law. 

Before you enter into a financial arrangement with a hospital, it’s also important to examine what percentile the aggregate compensation would reflect, law professor Mr. Sarraille said. The Erlanger case highlights federal officials’ suspicion of compensation, in aggregate, that exceeds the 90th percentile and increased attention to compensation that exceeds the 75th percentile, he said. 

To research compensation levels, doctors can review the Medical Group Management Association’s annual compensation report or search its compensation data. 

Before signing any contracts, Mr. Sarraille suggests, physicians should also consider whether the hospital shares the same values. Ask physicians at the hospital what they have to say about the hospital’s culture, vision, and values. Have physicians left the hospital after their practices were acquired? Consider speaking with them to learn why. 

Keep in mind that a doctor’s reputation could be impacted by a compliance complaint, regardless of whether it’s directed at the hospital and not the employed physician, Mr. Sarraille said. 

“The [Erlanger] complaint focuses on the compensation of specific, named physicians saying they were wildly overcompensated,” he said. “The implication is that they sold their referral power in exchange for a pay day. It’s a bad look, no matter how the case evolves from here.” 

Physicians could also face their own liability risk under the Stark Law and False Claims Act, depending on the circumstances. In the event of related quality-of-care issues, medical liability could come into play, Mr. Sarraille noted. In such cases, plaintiffs’ attorneys may see an opportunity to boost their claims with allegations that the patient harm was a function of “chasing compensation dollars,” Mr. Sarraille said. 

“Where that happens, plaintiff lawyers see the potential for crippling punitive damages, which might not be covered by an insurer,” he said.

A version of this article appeared on Medscape.com.

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Alicia Gallegos

Strapped for cash and searching for new profits, Tennessee-based Erlanger Health System illegally paid excessive salaries to physicians in exchange for patient referrals, the US government alleged in a federal lawsuit.

Erlanger changed its compensation model to entice revenue-generating doctors, paying some two to three times the median salary for their specialty, according to the complaint. 

The physicians in turn referred numerous patients to Erlanger, and the health system submitted claims to Medicare for the referred services in violation of the Stark Law, according to the suit, filed in US District Court for the Western District of North Carolina. 

The government’s complaint “serves as a warning” to healthcare providers who try to boost profits through improper financial arrangements with referring physicians, said Tamala E. Miles, Special Agent in Charge for the US Department of Health and Human Services (HHS) Office of Inspector General (OIG).

In a statement provided to this news organization, Erlanger denied the allegations and said it would “vigorously” defend the lawsuit. 

“Erlanger paid physicians based on amounts that outside experts advised was fair market value,” Erlanger officials said in the statement. “Erlanger did not pay for referrals. A complete picture of the facts will demonstrate that the allegations lack merit and tell a very different story than what the government now claims.”

The Erlanger case is a reminder to physicians to consult their own knowledgeable advisors when considering financial arrangements with hospitals, said William Sarraille, JD, adjunct professor for the University of Maryland Francis King Carey School of Law in Baltimore and a regulatory consultant. 

“There is a tendency by physicians when contracting ... to rely on [hospitals’] perceived compliance and legal expertise,” Mr. Sarraille told this news organization. “This case illustrates the risks in doing so. Sometimes bigger doesn’t translate into more sophisticated or more effective from a compliance perspective.” 
 

Stark Law Prohibits Kickbacks

The Stark Law prohibits hospitals from billing the Centers for Medicare & Medicaid Services (CMS) for services referred by a physician with whom the hospital has an improper financial relationship.

CMS paid Erlanger about $27.8 million for claims stemming from the improper financial arrangements, the government contends. 

“HHS-OIG will continue to investigate such deals to prevent financial arrangements that could compromise impartial medical judgment, increase healthcare costs, and erode public trust in the healthcare system,” Ms. Miles said in a statement
 

Suit: Health System’s Money Woes Led to Illegal Arrangements

Erlanger’s financial troubles allegedly started after a previous run-in with the US government over false claims. 

In 2005, Erlanger Health System agreed to pay the government $40 million to resolve allegations that it knowingly submitted false claims to Medicare, according to the government’s complaint. At the time, Erlanger entered into a Corporate Integrity Agreement (CIA) with the OIG that required Erlanger to put controls in place to ensure its financial relationships did not violate the Stark Law. 

Erlanger’s agreement with OIG ended in 2010. Over the next 3 years, the health system lost nearly $32 million and in fiscal year 2013, had only 65 days of cash on hand, according to the government’s lawsuit. 

Beginning in 2013, Erlanger allegedly implemented a strategy to increase profits by employing more physicians, particularly specialists from competing hospitals whose patients would need costly hospital stays, according to the complaint. 

Once hired, Erlanger’s physicians were expected to treat patients at Erlanger’s hospitals and refer them to other providers within the health system, the suit claims. Erlanger also relaxed or eliminated the oversight and controls on physician compensation put in place under the CIA. For example, Erlanger’s CEO signed some compensation contracts before its chief compliance officer could review them and no longer allowed the compliance officer to vote on whether to approve compensation arrangements, according to the complaint. 

Erlanger also changed its compensation model to include large salaries for medical director and academic positions and allegedly paid such salaries to physicians without ensuring the required work was performed. As a result, Erlanger physicians with profitable referrals were among the highest paid in the nation for their specialties, the government claims. For example, according to the complaint:

  • Erlanger paid an electrophysiologist an annual clinical salary of $816,701, a medical director salary of $101,080, an academic salary of $59,322, and a productivity incentive based on work relative value units (wRVUs). The medical director and academic salaries paid were near the 90th percentile of comparable salaries in the specialty.
  • The health system paid a neurosurgeon a base salary of $654,735, a productivity incentive based on wRVUs, and payments for excess call coverage ranging from $400 to $1000 per 24-hour shift. In 2016, the neurosurgeon made $500,000 in excess call payments.
  • Erlanger paid a cardiothoracic surgeon a base clinical salary of $1,070,000, a sign-on bonus of $150,000, a retention bonus of $100,000 (payable in the 4th year of the contract), and a program incentive of up to $150,000 per year.

In addition, Erlanger ignored patient safety concerns about some of its high revenue-generating physicians, the government claims. 

For instance, Erlanger received multiple complaints that a cardiothoracic surgeon was misusing an expensive form of life support in which pumps and oxygenators take over heart and lung function. Overuse of the equipment prolonged patients’ hospital stays and increased the hospital fees generated by the surgeon, according to the complaint. Staff also raised concerns about the cardiothoracic surgeon’s patient outcomes. 

But Erlanger disregarded the concerns and in 2018, increased the cardiothoracic surgeon’s retention bonus from $100,000 to $250,000, the suit alleges. A year later, the health system increased his base salary from $1,070,000 to $1,195,000.

Health care compensation and billing consultants alerted Erlanger that it was overpaying salaries and handing out bonuses based on measures that overstated the work physicians were performing, but Erlanger ignored the warnings, according to the complaint. 

Administrators allegedly resisted efforts by the chief compliance officer to hire an outside consultant to review its compensation models. Erlanger fired the compliance officer in 2019. 

The former chief compliance officer and another administrator filed a whistleblower lawsuit against Erlanger in 2021. The two administrators are relators in the government’s July 2024 lawsuit. 
 

How to Protect Yourself From Illegal Hospital Deals

The Erlanger case is the latest in a series of recent complaints by the federal government involving financial arrangements between hospitals and physicians.

In December 2023, Indianapolis-based Community Health Network Inc. agreed to pay the government $345 million to resolve claims that it paid physicians above fair market value and awarded bonuses tied to referrals in violation of the Stark Law. 

Also in 2023, Saginaw, Michigan–based Covenant HealthCare and two physicians paid the government $69 million to settle allegations that administrators engaged in improper financial arrangements with referring physicians and a physician-owned investment group. In another 2023 case, Massachusetts Eye and Ear in Boston agreed to pay $5.7 million to resolve claims that some of its physician compensation plans violated the Stark Law. 

Before you enter into a financial arrangement with a hospital, it’s also important to examine what percentile the aggregate compensation would reflect, law professor Mr. Sarraille said. The Erlanger case highlights federal officials’ suspicion of compensation, in aggregate, that exceeds the 90th percentile and increased attention to compensation that exceeds the 75th percentile, he said. 

To research compensation levels, doctors can review the Medical Group Management Association’s annual compensation report or search its compensation data. 

Before signing any contracts, Mr. Sarraille suggests, physicians should also consider whether the hospital shares the same values. Ask physicians at the hospital what they have to say about the hospital’s culture, vision, and values. Have physicians left the hospital after their practices were acquired? Consider speaking with them to learn why. 

Keep in mind that a doctor’s reputation could be impacted by a compliance complaint, regardless of whether it’s directed at the hospital and not the employed physician, Mr. Sarraille said. 

“The [Erlanger] complaint focuses on the compensation of specific, named physicians saying they were wildly overcompensated,” he said. “The implication is that they sold their referral power in exchange for a pay day. It’s a bad look, no matter how the case evolves from here.” 

Physicians could also face their own liability risk under the Stark Law and False Claims Act, depending on the circumstances. In the event of related quality-of-care issues, medical liability could come into play, Mr. Sarraille noted. In such cases, plaintiffs’ attorneys may see an opportunity to boost their claims with allegations that the patient harm was a function of “chasing compensation dollars,” Mr. Sarraille said. 

“Where that happens, plaintiff lawyers see the potential for crippling punitive damages, which might not be covered by an insurer,” he said.

A version of this article appeared on Medscape.com.

Strapped for cash and searching for new profits, Tennessee-based Erlanger Health System illegally paid excessive salaries to physicians in exchange for patient referrals, the US government alleged in a federal lawsuit.

Erlanger changed its compensation model to entice revenue-generating doctors, paying some two to three times the median salary for their specialty, according to the complaint. 

The physicians in turn referred numerous patients to Erlanger, and the health system submitted claims to Medicare for the referred services in violation of the Stark Law, according to the suit, filed in US District Court for the Western District of North Carolina. 

The government’s complaint “serves as a warning” to healthcare providers who try to boost profits through improper financial arrangements with referring physicians, said Tamala E. Miles, Special Agent in Charge for the US Department of Health and Human Services (HHS) Office of Inspector General (OIG).

In a statement provided to this news organization, Erlanger denied the allegations and said it would “vigorously” defend the lawsuit. 

“Erlanger paid physicians based on amounts that outside experts advised was fair market value,” Erlanger officials said in the statement. “Erlanger did not pay for referrals. A complete picture of the facts will demonstrate that the allegations lack merit and tell a very different story than what the government now claims.”

The Erlanger case is a reminder to physicians to consult their own knowledgeable advisors when considering financial arrangements with hospitals, said William Sarraille, JD, adjunct professor for the University of Maryland Francis King Carey School of Law in Baltimore and a regulatory consultant. 

“There is a tendency by physicians when contracting ... to rely on [hospitals’] perceived compliance and legal expertise,” Mr. Sarraille told this news organization. “This case illustrates the risks in doing so. Sometimes bigger doesn’t translate into more sophisticated or more effective from a compliance perspective.” 
 

Stark Law Prohibits Kickbacks

The Stark Law prohibits hospitals from billing the Centers for Medicare & Medicaid Services (CMS) for services referred by a physician with whom the hospital has an improper financial relationship.

CMS paid Erlanger about $27.8 million for claims stemming from the improper financial arrangements, the government contends. 

“HHS-OIG will continue to investigate such deals to prevent financial arrangements that could compromise impartial medical judgment, increase healthcare costs, and erode public trust in the healthcare system,” Ms. Miles said in a statement
 

Suit: Health System’s Money Woes Led to Illegal Arrangements

Erlanger’s financial troubles allegedly started after a previous run-in with the US government over false claims. 

In 2005, Erlanger Health System agreed to pay the government $40 million to resolve allegations that it knowingly submitted false claims to Medicare, according to the government’s complaint. At the time, Erlanger entered into a Corporate Integrity Agreement (CIA) with the OIG that required Erlanger to put controls in place to ensure its financial relationships did not violate the Stark Law. 

Erlanger’s agreement with OIG ended in 2010. Over the next 3 years, the health system lost nearly $32 million and in fiscal year 2013, had only 65 days of cash on hand, according to the government’s lawsuit. 

Beginning in 2013, Erlanger allegedly implemented a strategy to increase profits by employing more physicians, particularly specialists from competing hospitals whose patients would need costly hospital stays, according to the complaint. 

Once hired, Erlanger’s physicians were expected to treat patients at Erlanger’s hospitals and refer them to other providers within the health system, the suit claims. Erlanger also relaxed or eliminated the oversight and controls on physician compensation put in place under the CIA. For example, Erlanger’s CEO signed some compensation contracts before its chief compliance officer could review them and no longer allowed the compliance officer to vote on whether to approve compensation arrangements, according to the complaint. 

Erlanger also changed its compensation model to include large salaries for medical director and academic positions and allegedly paid such salaries to physicians without ensuring the required work was performed. As a result, Erlanger physicians with profitable referrals were among the highest paid in the nation for their specialties, the government claims. For example, according to the complaint:

  • Erlanger paid an electrophysiologist an annual clinical salary of $816,701, a medical director salary of $101,080, an academic salary of $59,322, and a productivity incentive based on work relative value units (wRVUs). The medical director and academic salaries paid were near the 90th percentile of comparable salaries in the specialty.
  • The health system paid a neurosurgeon a base salary of $654,735, a productivity incentive based on wRVUs, and payments for excess call coverage ranging from $400 to $1000 per 24-hour shift. In 2016, the neurosurgeon made $500,000 in excess call payments.
  • Erlanger paid a cardiothoracic surgeon a base clinical salary of $1,070,000, a sign-on bonus of $150,000, a retention bonus of $100,000 (payable in the 4th year of the contract), and a program incentive of up to $150,000 per year.

In addition, Erlanger ignored patient safety concerns about some of its high revenue-generating physicians, the government claims. 

For instance, Erlanger received multiple complaints that a cardiothoracic surgeon was misusing an expensive form of life support in which pumps and oxygenators take over heart and lung function. Overuse of the equipment prolonged patients’ hospital stays and increased the hospital fees generated by the surgeon, according to the complaint. Staff also raised concerns about the cardiothoracic surgeon’s patient outcomes. 

But Erlanger disregarded the concerns and in 2018, increased the cardiothoracic surgeon’s retention bonus from $100,000 to $250,000, the suit alleges. A year later, the health system increased his base salary from $1,070,000 to $1,195,000.

Health care compensation and billing consultants alerted Erlanger that it was overpaying salaries and handing out bonuses based on measures that overstated the work physicians were performing, but Erlanger ignored the warnings, according to the complaint. 

Administrators allegedly resisted efforts by the chief compliance officer to hire an outside consultant to review its compensation models. Erlanger fired the compliance officer in 2019. 

The former chief compliance officer and another administrator filed a whistleblower lawsuit against Erlanger in 2021. The two administrators are relators in the government’s July 2024 lawsuit. 
 

How to Protect Yourself From Illegal Hospital Deals

The Erlanger case is the latest in a series of recent complaints by the federal government involving financial arrangements between hospitals and physicians.

In December 2023, Indianapolis-based Community Health Network Inc. agreed to pay the government $345 million to resolve claims that it paid physicians above fair market value and awarded bonuses tied to referrals in violation of the Stark Law. 

Also in 2023, Saginaw, Michigan–based Covenant HealthCare and two physicians paid the government $69 million to settle allegations that administrators engaged in improper financial arrangements with referring physicians and a physician-owned investment group. In another 2023 case, Massachusetts Eye and Ear in Boston agreed to pay $5.7 million to resolve claims that some of its physician compensation plans violated the Stark Law. 

Before you enter into a financial arrangement with a hospital, it’s also important to examine what percentile the aggregate compensation would reflect, law professor Mr. Sarraille said. The Erlanger case highlights federal officials’ suspicion of compensation, in aggregate, that exceeds the 90th percentile and increased attention to compensation that exceeds the 75th percentile, he said. 

To research compensation levels, doctors can review the Medical Group Management Association’s annual compensation report or search its compensation data. 

Before signing any contracts, Mr. Sarraille suggests, physicians should also consider whether the hospital shares the same values. Ask physicians at the hospital what they have to say about the hospital’s culture, vision, and values. Have physicians left the hospital after their practices were acquired? Consider speaking with them to learn why. 

Keep in mind that a doctor’s reputation could be impacted by a compliance complaint, regardless of whether it’s directed at the hospital and not the employed physician, Mr. Sarraille said. 

“The [Erlanger] complaint focuses on the compensation of specific, named physicians saying they were wildly overcompensated,” he said. “The implication is that they sold their referral power in exchange for a pay day. It’s a bad look, no matter how the case evolves from here.” 

Physicians could also face their own liability risk under the Stark Law and False Claims Act, depending on the circumstances. In the event of related quality-of-care issues, medical liability could come into play, Mr. Sarraille noted. In such cases, plaintiffs’ attorneys may see an opportunity to boost their claims with allegations that the patient harm was a function of “chasing compensation dollars,” Mr. Sarraille said. 

“Where that happens, plaintiff lawyers see the potential for crippling punitive damages, which might not be covered by an insurer,” he said.

A version of this article appeared on Medscape.com.

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