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Update on Rosacea Classification and Its Controversies

Rosacea is an inflammatory skin condition that affects approximately 5% of the adult population, with the highest prevalence in Europe and North America.1 Despite its prevalence, rosacea remains poorly understood from a pathophysiologic perspective, with no diagnostic laboratory markers.2 Because diagnosis relies on clinical judgment, the nomenclature for describing and characterizing rosacea becomes paramount in ensuring that patients are given an accurate diagnosis and subsequent treatment. We review the shortfalls in the recent history of rosacea classification and discuss their implications.

Subtype to Phenotype Classification

In 2002, the National Rosacea Society (NRS) Expert Committee published a standardized classification schema for rosacea (Table).3 The authors described primary and secondary diagnostic criteria. The presence of 1 or more primary features in a central facial distribution was indicative of rosacea. Primary characteristics included flushing (transient erythema), nontransient erythema, papules and pustules, and telangiectasia. Secondary features, which could occur with or independently of primary features, included burning or stinging of the face, dry appearance, facial edema, ocular manifestations, peripheral (nonfacial) occurrence, phymatous changes, and red facial plaques. Whereas these features often present simultaneously in a characteristic pattern, they were grouped into 4 main subtypes—erythematotelangiectatic (ETR), papulopustular, phymatous, and ocular—and 1 variant, granulomatous rosacea.3

To enhance clinical and research applications of this categorization system as well as offer further standardization, the NRS released a supplementary clinical grading scorecard in 2004 in which each of the primary and secondary characteristics could be assigned a subjective severity score of absent, mild, moderate, or severe. The goal was that the subtype classification and clinical grading system, when used in conjunction with each other, would establish a common language for patients, clinicians, and researchers to describe and further investigate rosacea.4

The 2002 categorization system was certainly an impactful first step in the organization of rosacea. It was not without its critics, however, namely rosacea-oriented dermatologists who were concerned about its lack of specificity.5-7 For instance, the NRS Expert Committee did not address the time frame for flushing, which typically has a long duration in rosacea patients, or for the nontransient erythema; telangiectasia secondary to heliodermatitis; or the often-observed periocular sparing. Additionally, the schema did not account for conditions such as gram-negative folliculitis (pustules characteristically located on the central face) or discuss the need to rule out carcinoid, mastocytosis, or connective-tissue disease, which can lead to nontransient facial erythema. Without strict definitions and exclusions, nonrosacea disorders could be incorrectly labeled as rosacea.

Beyond the lack of specificity, there was additional concern if a subtype system was the ideal way to capture disease presentation and severity. By subtyping, there was unnecessary division of interrelated disease into individual disorders; an individual’s clinical presentation might fall along a spectrum rather than within a discrete box.8

Furthermore, from a research standpoint, subtyping rosacea could hinder or confuse epidemiologic studies. For instance, if patients present with phenotypes from different subtypes, into which subtype would they fall?8-10

The global ROSacea COnsensus (ROSCO) panel, comprising 17 international dermatologists and ophthalmologists, convened in 2016 to address this matter. The panel proposed a new system (published in 2017) based on individual phenotypes.9 In this new system, diagnostic features include persistent centrofacial erythema with periods of increased intensity and phymatous changes. Major features, which are diagnostic when there are at least 2, include flushing (transient erythema), inflammatory papules and pustules, centrofacial telangiectasia, and ocular manifestations. Each feature could then be graded on a severity spectrum independent of concurrent phenotypes (Table).8

The panel concluded that this system would provide a stronger foundation for standardization as new knowledge of rosacea continues to be elucidated.8 In support of their argument, ROSCO also released a treatment algorithm that depended on a phenotype scheme.11 The panel emphasized that by focusing on individual lesions rather than a subtype encompassing many characteristics, treatment could be tailored to the patient. Using this à-la-carte therapy option, physicians could choose those rosacea aspects that are particularly concerning to the patient and manage only those aspects or overlap treatments to improve multiple aspects.11



In 2017, 15 years after the original classification system was proposed, the NRS updated their classification system (published in 2018), taking into consideration some of the criticisms as well as new scientific data on rosacea. Similar to the schema proposed by ROSCO, this system was based on phenotype. Inclusion and exclusion criteria were more robust in this update compared to the original classification in 2002. The criteria provide a timeline for transient flushing—it must occur within seconds or minutes in response to a neurovascular stimulant—and state that it is characteristically prolonged (Table).12

 

 


However, the Expert Committee still did not define either the length of time of flushing or nontransient erythema. It also did not specify convex surfaces of the face with periocular sparing as the characteristic pattern or provide additional information on how photoaging fits into the definition. The updated classification stated that centrofacial erythema must not be from cutaneous lupus or seborrheic eczema, and steroid-induced rosacea was still excluded.12 However, there is still the need to exclude other systemic conditions, such as mastocytosis, carcinoid, polycythemia vera, and dermatomyositis. Therefore, the potential for subjective error and inclusion of nonrosacea diseases persists.



A critical change was elimination of the granulomatous rosacea variant. In 2002, this variant was defined by monomorphic, yellow-brown to red papules and nodules that led to scarring. This variant, however, did not share the commonalities of the other subtypes, including persistent facial erythema, limitation to convex surfaces, periocular sparing, and transient flushing.3,13 At the time, Crawford et al6 proposed that the variant be recategorized as granulomatous facial dermatitis. In the updated NRS classification, this variant and phenotypic description was eliminated from the schema.12 It is unclear if it was removed because of these discrepancies or if the NRS panel felt it had a distinct pathogenesis from the proposed rosacea pathophysiology; however, we applaud this change.

Subtype Progression

Both the ROSCO and NRS classification schemes mention progression between the various phenotypes,10,12 suggesting that rosacea phenotypes exist along a continuum, progressing and regressing with disease severity. The main study addressing this point was based on the self-reported retrospective patient memory of disease features in rosacea patients. The authors used a modified criterion of centrofacial erythema alone to define ETR; therefore, a person who began their disease with this finding but then acquired inflammatory lesions or phymas was defined as progressing along a spectrum.14 Given that persistent erythema of convex surfaces of the face is common in all subtypes, we do not find it surprising that the authors found (using their modified criteria) that ETR appeared to progress to papulopustular and phymatous subtypes in a small number of patients. We strongly disagree with their interpretation and conclusion.

In our experience, ETR patients have fine textured skin without sebaceous quality or a history of extensive acne (Figure 1). Flushing is common and usually lasts 10 minutes to 1 hour. There might be concurrent burning or stinging; however, there is no associated sweating, lightheadedness, palpitations, or diagnostic laboratory findings, which distinguishes ETR from other common causes of flushing. The persistent centrofacial erythema involves convex surfaces, spares periocular skin, and can be best defined as present for longer than 3 months.

Figure 1. Erythematotelangiectatic rosacea.


In contrast, phymas occur commonly in patients with thick and sebaceous (glandular) skin (Figure 2).6,15-17 Men are most often affected and usually have a history of moderate to severe acne. It is not uncommon to observe nodules, cysts, and scarring in addition to papules and pustules. These eruptions primarily cluster on the central face and present in areas of nontransient erythema. Flushing, although less prominent than in other phenotypes, also can be seen.

Figure 2. Phymatous rosacea.


Taken together, we find no convincing evidence from published studies or extensive experience caring for rosacea patients that classic ETR progresses to phymatous rosacea, or the other way around, as displayed in the ROSCO panel report.8 The type of skin seen in Figure 1 will not “progress” to the type seen in Figure 2. Furthermore, treatment will not “reverse” the phymatous skin into thin, ETR-type skin. The implications are important: If a female patient is given a diagnosis of ETR, she will not develop an enlarged phymatous nose. Patients with thick sebaceous skin, as in Figure 2, usually tolerate treatments such as benzoyl peroxide that other rosacea patients do not and frequently respond well to such intervention.

Implications and Future Directions

We present an overview of 2 rosacea classification systems, hoping to stimulate further refinement. Looking forward, there are many directions for further investigation into the pathophysiology of rosacea. From a genetic standpoint, there needs to be continued molecular and epidemiologic data to determine the underlying genetic contributions to disease.

There has been some progress in the realm of understanding the mechanisms of inflammation; we urge further investigation to elucidate how “subclinical neuroinflammation” might lead to glandular hyperplasia.12 We also see value in examining the genetic and hormonal contributions to phymas, as they may be different than those seen in the ETR-type patients. Last, more studies focusing on comorbidities that contribute to or arise from rosacea are welcomed.

The ultimate goal is to develop a classification system that integrates clinical descriptions, pathophysiologic mechanisms, and benchmark indicators of disease. Only then can we have a true gold standard for the diagnosis of rosacea, one that allows for improved personalized treatment and better outcomes.

References
  1. Gether L, Overgaard LK, Egeberg A, et al. Incidence and prevalence of rosacea: a systematic review and meta‐analysis. Br J Dermatol. 2018;179:282-289.
  2. van Zuuren EJ. Rosacea. N Engl J Med. 2017;377:1754-1764.
  3. Wilkin J, Dahl M, Detmar M, et al. Standard classification of rosacea: report of the National Rosacea Society Expert Committee on the Classification and Staging of Rosacea. J Am Acad Dermatol. 2002;46:584-587.
  4. Wilkin J, Dahl M, Detmar M, et al. Standard grading system for rosacea: report of the National Rosacea Society Expert Committee on the Classification and Staging of Rosacea. J Am Acad Dermatol. 2004;50:907-912.
  5. Saleem MD. Revisiting rosacea criteria: where have we been, where are we going, and how will we get there? Dermatol Clin. 2018;36:161-165.
  6. Crawford GH, Pelle MT, James WD. Rosacea: I. etiology, pathogenesis, and subtype classification. J Am Acad Dermatol. 2004;51:327-341.
  7. Tan J, Steinhoff M, Berg M, et al; Rosacea International Study Group. Shortcomings in rosacea diagnosis and classification. Br J Dermatol. 2017;176:197-199.
  8. Tan J, Almeida LMC, Bewley A, et al. Updating the diagnosis, classification and assessment of rosacea: recommendations from the global ROSacea COnsensus (ROSCO) panel. Br J Dermatol. 2017;176:431-438.
  9. Wilkin J. Updating the diagnosis, classification and assessment of rosacea by effacement of subtypes. Br J Dermatol. 2017;177:597-598.
  10. Tan J; ROSCO coauthors. Updating the diagnosis, classification and assessment of rosacea by effacement of subtypes: reply from the author. Br J Dermatol. 2017;177:598-599.
  11. Schaller M, Almeida LM, Bewley A, et al. Rosacea treatment update: recommendations from the global ROSacea COnsensus (ROSCO) panel. Br J Dermatol. 2017;176:465-471.
  12. Gallo RL, Granstein RD, Kang S, et al. Standard classification and pathophysiology of rosacea: the 2017 update by the National Rosacea Society Expert Committee. J Am Acad Dermatol. 2018;78:148-155.
  13. Lee GL, Zirwas MJ. Granulomatous rosacea and periorificial dermatitis: controversies and review of management and treatment. Dermatol Clin. 2015;33:447-455.
  14. Tan J, Blume‐Peytavi U, Ortonne JP, et al. An observational cross‐sectional survey of rosacea: clinical associations and progression between subtypes. Br J Dermatol. 2013;169:555-562.
  15. James WD, Elston D, Treat JR, et al. Andrews’ Diseases of the Skin: Clinical Dermatology. 13th ed. New York, NY: Elsevier; 2019.
  16. Reinholz M, Tietze JK, Kilian K, et al. Rosacea - S1 guideline. J Dtsch Dermatol Ges. 2013;11:768-780.
  17. Reinholz M, Ruzicka T, Steinhoff M, et al. Pathogenesis and clinical presentation of rosacea as a key for a symptom‐oriented therapy. J Dtsch Dermatol Ges. 2016;14(suppl 6):4-15.
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Correspondence: William D. James, MD, Hospital of the University of Pennsylvania, Department of Dermatology, 2 Maloney Building, 3600 Spruce St, Philadelphia, PA 19104 ([email protected]).

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Author and Disclosure Information

From the Department of Dermatology, University of Pennsylvania School of Medicine, Philadelphia.

The authors report no conflict of interest.

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Correspondence: William D. James, MD, Hospital of the University of Pennsylvania, Department of Dermatology, 2 Maloney Building, 3600 Spruce St, Philadelphia, PA 19104 ([email protected]).

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Rosacea is an inflammatory skin condition that affects approximately 5% of the adult population, with the highest prevalence in Europe and North America.1 Despite its prevalence, rosacea remains poorly understood from a pathophysiologic perspective, with no diagnostic laboratory markers.2 Because diagnosis relies on clinical judgment, the nomenclature for describing and characterizing rosacea becomes paramount in ensuring that patients are given an accurate diagnosis and subsequent treatment. We review the shortfalls in the recent history of rosacea classification and discuss their implications.

Subtype to Phenotype Classification

In 2002, the National Rosacea Society (NRS) Expert Committee published a standardized classification schema for rosacea (Table).3 The authors described primary and secondary diagnostic criteria. The presence of 1 or more primary features in a central facial distribution was indicative of rosacea. Primary characteristics included flushing (transient erythema), nontransient erythema, papules and pustules, and telangiectasia. Secondary features, which could occur with or independently of primary features, included burning or stinging of the face, dry appearance, facial edema, ocular manifestations, peripheral (nonfacial) occurrence, phymatous changes, and red facial plaques. Whereas these features often present simultaneously in a characteristic pattern, they were grouped into 4 main subtypes—erythematotelangiectatic (ETR), papulopustular, phymatous, and ocular—and 1 variant, granulomatous rosacea.3

To enhance clinical and research applications of this categorization system as well as offer further standardization, the NRS released a supplementary clinical grading scorecard in 2004 in which each of the primary and secondary characteristics could be assigned a subjective severity score of absent, mild, moderate, or severe. The goal was that the subtype classification and clinical grading system, when used in conjunction with each other, would establish a common language for patients, clinicians, and researchers to describe and further investigate rosacea.4

The 2002 categorization system was certainly an impactful first step in the organization of rosacea. It was not without its critics, however, namely rosacea-oriented dermatologists who were concerned about its lack of specificity.5-7 For instance, the NRS Expert Committee did not address the time frame for flushing, which typically has a long duration in rosacea patients, or for the nontransient erythema; telangiectasia secondary to heliodermatitis; or the often-observed periocular sparing. Additionally, the schema did not account for conditions such as gram-negative folliculitis (pustules characteristically located on the central face) or discuss the need to rule out carcinoid, mastocytosis, or connective-tissue disease, which can lead to nontransient facial erythema. Without strict definitions and exclusions, nonrosacea disorders could be incorrectly labeled as rosacea.

Beyond the lack of specificity, there was additional concern if a subtype system was the ideal way to capture disease presentation and severity. By subtyping, there was unnecessary division of interrelated disease into individual disorders; an individual’s clinical presentation might fall along a spectrum rather than within a discrete box.8

Furthermore, from a research standpoint, subtyping rosacea could hinder or confuse epidemiologic studies. For instance, if patients present with phenotypes from different subtypes, into which subtype would they fall?8-10

The global ROSacea COnsensus (ROSCO) panel, comprising 17 international dermatologists and ophthalmologists, convened in 2016 to address this matter. The panel proposed a new system (published in 2017) based on individual phenotypes.9 In this new system, diagnostic features include persistent centrofacial erythema with periods of increased intensity and phymatous changes. Major features, which are diagnostic when there are at least 2, include flushing (transient erythema), inflammatory papules and pustules, centrofacial telangiectasia, and ocular manifestations. Each feature could then be graded on a severity spectrum independent of concurrent phenotypes (Table).8

The panel concluded that this system would provide a stronger foundation for standardization as new knowledge of rosacea continues to be elucidated.8 In support of their argument, ROSCO also released a treatment algorithm that depended on a phenotype scheme.11 The panel emphasized that by focusing on individual lesions rather than a subtype encompassing many characteristics, treatment could be tailored to the patient. Using this à-la-carte therapy option, physicians could choose those rosacea aspects that are particularly concerning to the patient and manage only those aspects or overlap treatments to improve multiple aspects.11



In 2017, 15 years after the original classification system was proposed, the NRS updated their classification system (published in 2018), taking into consideration some of the criticisms as well as new scientific data on rosacea. Similar to the schema proposed by ROSCO, this system was based on phenotype. Inclusion and exclusion criteria were more robust in this update compared to the original classification in 2002. The criteria provide a timeline for transient flushing—it must occur within seconds or minutes in response to a neurovascular stimulant—and state that it is characteristically prolonged (Table).12

 

 


However, the Expert Committee still did not define either the length of time of flushing or nontransient erythema. It also did not specify convex surfaces of the face with periocular sparing as the characteristic pattern or provide additional information on how photoaging fits into the definition. The updated classification stated that centrofacial erythema must not be from cutaneous lupus or seborrheic eczema, and steroid-induced rosacea was still excluded.12 However, there is still the need to exclude other systemic conditions, such as mastocytosis, carcinoid, polycythemia vera, and dermatomyositis. Therefore, the potential for subjective error and inclusion of nonrosacea diseases persists.



A critical change was elimination of the granulomatous rosacea variant. In 2002, this variant was defined by monomorphic, yellow-brown to red papules and nodules that led to scarring. This variant, however, did not share the commonalities of the other subtypes, including persistent facial erythema, limitation to convex surfaces, periocular sparing, and transient flushing.3,13 At the time, Crawford et al6 proposed that the variant be recategorized as granulomatous facial dermatitis. In the updated NRS classification, this variant and phenotypic description was eliminated from the schema.12 It is unclear if it was removed because of these discrepancies or if the NRS panel felt it had a distinct pathogenesis from the proposed rosacea pathophysiology; however, we applaud this change.

Subtype Progression

Both the ROSCO and NRS classification schemes mention progression between the various phenotypes,10,12 suggesting that rosacea phenotypes exist along a continuum, progressing and regressing with disease severity. The main study addressing this point was based on the self-reported retrospective patient memory of disease features in rosacea patients. The authors used a modified criterion of centrofacial erythema alone to define ETR; therefore, a person who began their disease with this finding but then acquired inflammatory lesions or phymas was defined as progressing along a spectrum.14 Given that persistent erythema of convex surfaces of the face is common in all subtypes, we do not find it surprising that the authors found (using their modified criteria) that ETR appeared to progress to papulopustular and phymatous subtypes in a small number of patients. We strongly disagree with their interpretation and conclusion.

In our experience, ETR patients have fine textured skin without sebaceous quality or a history of extensive acne (Figure 1). Flushing is common and usually lasts 10 minutes to 1 hour. There might be concurrent burning or stinging; however, there is no associated sweating, lightheadedness, palpitations, or diagnostic laboratory findings, which distinguishes ETR from other common causes of flushing. The persistent centrofacial erythema involves convex surfaces, spares periocular skin, and can be best defined as present for longer than 3 months.

Figure 1. Erythematotelangiectatic rosacea.


In contrast, phymas occur commonly in patients with thick and sebaceous (glandular) skin (Figure 2).6,15-17 Men are most often affected and usually have a history of moderate to severe acne. It is not uncommon to observe nodules, cysts, and scarring in addition to papules and pustules. These eruptions primarily cluster on the central face and present in areas of nontransient erythema. Flushing, although less prominent than in other phenotypes, also can be seen.

Figure 2. Phymatous rosacea.


Taken together, we find no convincing evidence from published studies or extensive experience caring for rosacea patients that classic ETR progresses to phymatous rosacea, or the other way around, as displayed in the ROSCO panel report.8 The type of skin seen in Figure 1 will not “progress” to the type seen in Figure 2. Furthermore, treatment will not “reverse” the phymatous skin into thin, ETR-type skin. The implications are important: If a female patient is given a diagnosis of ETR, she will not develop an enlarged phymatous nose. Patients with thick sebaceous skin, as in Figure 2, usually tolerate treatments such as benzoyl peroxide that other rosacea patients do not and frequently respond well to such intervention.

Implications and Future Directions

We present an overview of 2 rosacea classification systems, hoping to stimulate further refinement. Looking forward, there are many directions for further investigation into the pathophysiology of rosacea. From a genetic standpoint, there needs to be continued molecular and epidemiologic data to determine the underlying genetic contributions to disease.

There has been some progress in the realm of understanding the mechanisms of inflammation; we urge further investigation to elucidate how “subclinical neuroinflammation” might lead to glandular hyperplasia.12 We also see value in examining the genetic and hormonal contributions to phymas, as they may be different than those seen in the ETR-type patients. Last, more studies focusing on comorbidities that contribute to or arise from rosacea are welcomed.

The ultimate goal is to develop a classification system that integrates clinical descriptions, pathophysiologic mechanisms, and benchmark indicators of disease. Only then can we have a true gold standard for the diagnosis of rosacea, one that allows for improved personalized treatment and better outcomes.

Rosacea is an inflammatory skin condition that affects approximately 5% of the adult population, with the highest prevalence in Europe and North America.1 Despite its prevalence, rosacea remains poorly understood from a pathophysiologic perspective, with no diagnostic laboratory markers.2 Because diagnosis relies on clinical judgment, the nomenclature for describing and characterizing rosacea becomes paramount in ensuring that patients are given an accurate diagnosis and subsequent treatment. We review the shortfalls in the recent history of rosacea classification and discuss their implications.

Subtype to Phenotype Classification

In 2002, the National Rosacea Society (NRS) Expert Committee published a standardized classification schema for rosacea (Table).3 The authors described primary and secondary diagnostic criteria. The presence of 1 or more primary features in a central facial distribution was indicative of rosacea. Primary characteristics included flushing (transient erythema), nontransient erythema, papules and pustules, and telangiectasia. Secondary features, which could occur with or independently of primary features, included burning or stinging of the face, dry appearance, facial edema, ocular manifestations, peripheral (nonfacial) occurrence, phymatous changes, and red facial plaques. Whereas these features often present simultaneously in a characteristic pattern, they were grouped into 4 main subtypes—erythematotelangiectatic (ETR), papulopustular, phymatous, and ocular—and 1 variant, granulomatous rosacea.3

To enhance clinical and research applications of this categorization system as well as offer further standardization, the NRS released a supplementary clinical grading scorecard in 2004 in which each of the primary and secondary characteristics could be assigned a subjective severity score of absent, mild, moderate, or severe. The goal was that the subtype classification and clinical grading system, when used in conjunction with each other, would establish a common language for patients, clinicians, and researchers to describe and further investigate rosacea.4

The 2002 categorization system was certainly an impactful first step in the organization of rosacea. It was not without its critics, however, namely rosacea-oriented dermatologists who were concerned about its lack of specificity.5-7 For instance, the NRS Expert Committee did not address the time frame for flushing, which typically has a long duration in rosacea patients, or for the nontransient erythema; telangiectasia secondary to heliodermatitis; or the often-observed periocular sparing. Additionally, the schema did not account for conditions such as gram-negative folliculitis (pustules characteristically located on the central face) or discuss the need to rule out carcinoid, mastocytosis, or connective-tissue disease, which can lead to nontransient facial erythema. Without strict definitions and exclusions, nonrosacea disorders could be incorrectly labeled as rosacea.

Beyond the lack of specificity, there was additional concern if a subtype system was the ideal way to capture disease presentation and severity. By subtyping, there was unnecessary division of interrelated disease into individual disorders; an individual’s clinical presentation might fall along a spectrum rather than within a discrete box.8

Furthermore, from a research standpoint, subtyping rosacea could hinder or confuse epidemiologic studies. For instance, if patients present with phenotypes from different subtypes, into which subtype would they fall?8-10

The global ROSacea COnsensus (ROSCO) panel, comprising 17 international dermatologists and ophthalmologists, convened in 2016 to address this matter. The panel proposed a new system (published in 2017) based on individual phenotypes.9 In this new system, diagnostic features include persistent centrofacial erythema with periods of increased intensity and phymatous changes. Major features, which are diagnostic when there are at least 2, include flushing (transient erythema), inflammatory papules and pustules, centrofacial telangiectasia, and ocular manifestations. Each feature could then be graded on a severity spectrum independent of concurrent phenotypes (Table).8

The panel concluded that this system would provide a stronger foundation for standardization as new knowledge of rosacea continues to be elucidated.8 In support of their argument, ROSCO also released a treatment algorithm that depended on a phenotype scheme.11 The panel emphasized that by focusing on individual lesions rather than a subtype encompassing many characteristics, treatment could be tailored to the patient. Using this à-la-carte therapy option, physicians could choose those rosacea aspects that are particularly concerning to the patient and manage only those aspects or overlap treatments to improve multiple aspects.11



In 2017, 15 years after the original classification system was proposed, the NRS updated their classification system (published in 2018), taking into consideration some of the criticisms as well as new scientific data on rosacea. Similar to the schema proposed by ROSCO, this system was based on phenotype. Inclusion and exclusion criteria were more robust in this update compared to the original classification in 2002. The criteria provide a timeline for transient flushing—it must occur within seconds or minutes in response to a neurovascular stimulant—and state that it is characteristically prolonged (Table).12

 

 


However, the Expert Committee still did not define either the length of time of flushing or nontransient erythema. It also did not specify convex surfaces of the face with periocular sparing as the characteristic pattern or provide additional information on how photoaging fits into the definition. The updated classification stated that centrofacial erythema must not be from cutaneous lupus or seborrheic eczema, and steroid-induced rosacea was still excluded.12 However, there is still the need to exclude other systemic conditions, such as mastocytosis, carcinoid, polycythemia vera, and dermatomyositis. Therefore, the potential for subjective error and inclusion of nonrosacea diseases persists.



A critical change was elimination of the granulomatous rosacea variant. In 2002, this variant was defined by monomorphic, yellow-brown to red papules and nodules that led to scarring. This variant, however, did not share the commonalities of the other subtypes, including persistent facial erythema, limitation to convex surfaces, periocular sparing, and transient flushing.3,13 At the time, Crawford et al6 proposed that the variant be recategorized as granulomatous facial dermatitis. In the updated NRS classification, this variant and phenotypic description was eliminated from the schema.12 It is unclear if it was removed because of these discrepancies or if the NRS panel felt it had a distinct pathogenesis from the proposed rosacea pathophysiology; however, we applaud this change.

Subtype Progression

Both the ROSCO and NRS classification schemes mention progression between the various phenotypes,10,12 suggesting that rosacea phenotypes exist along a continuum, progressing and regressing with disease severity. The main study addressing this point was based on the self-reported retrospective patient memory of disease features in rosacea patients. The authors used a modified criterion of centrofacial erythema alone to define ETR; therefore, a person who began their disease with this finding but then acquired inflammatory lesions or phymas was defined as progressing along a spectrum.14 Given that persistent erythema of convex surfaces of the face is common in all subtypes, we do not find it surprising that the authors found (using their modified criteria) that ETR appeared to progress to papulopustular and phymatous subtypes in a small number of patients. We strongly disagree with their interpretation and conclusion.

In our experience, ETR patients have fine textured skin without sebaceous quality or a history of extensive acne (Figure 1). Flushing is common and usually lasts 10 minutes to 1 hour. There might be concurrent burning or stinging; however, there is no associated sweating, lightheadedness, palpitations, or diagnostic laboratory findings, which distinguishes ETR from other common causes of flushing. The persistent centrofacial erythema involves convex surfaces, spares periocular skin, and can be best defined as present for longer than 3 months.

Figure 1. Erythematotelangiectatic rosacea.


In contrast, phymas occur commonly in patients with thick and sebaceous (glandular) skin (Figure 2).6,15-17 Men are most often affected and usually have a history of moderate to severe acne. It is not uncommon to observe nodules, cysts, and scarring in addition to papules and pustules. These eruptions primarily cluster on the central face and present in areas of nontransient erythema. Flushing, although less prominent than in other phenotypes, also can be seen.

Figure 2. Phymatous rosacea.


Taken together, we find no convincing evidence from published studies or extensive experience caring for rosacea patients that classic ETR progresses to phymatous rosacea, or the other way around, as displayed in the ROSCO panel report.8 The type of skin seen in Figure 1 will not “progress” to the type seen in Figure 2. Furthermore, treatment will not “reverse” the phymatous skin into thin, ETR-type skin. The implications are important: If a female patient is given a diagnosis of ETR, she will not develop an enlarged phymatous nose. Patients with thick sebaceous skin, as in Figure 2, usually tolerate treatments such as benzoyl peroxide that other rosacea patients do not and frequently respond well to such intervention.

Implications and Future Directions

We present an overview of 2 rosacea classification systems, hoping to stimulate further refinement. Looking forward, there are many directions for further investigation into the pathophysiology of rosacea. From a genetic standpoint, there needs to be continued molecular and epidemiologic data to determine the underlying genetic contributions to disease.

There has been some progress in the realm of understanding the mechanisms of inflammation; we urge further investigation to elucidate how “subclinical neuroinflammation” might lead to glandular hyperplasia.12 We also see value in examining the genetic and hormonal contributions to phymas, as they may be different than those seen in the ETR-type patients. Last, more studies focusing on comorbidities that contribute to or arise from rosacea are welcomed.

The ultimate goal is to develop a classification system that integrates clinical descriptions, pathophysiologic mechanisms, and benchmark indicators of disease. Only then can we have a true gold standard for the diagnosis of rosacea, one that allows for improved personalized treatment and better outcomes.

References
  1. Gether L, Overgaard LK, Egeberg A, et al. Incidence and prevalence of rosacea: a systematic review and meta‐analysis. Br J Dermatol. 2018;179:282-289.
  2. van Zuuren EJ. Rosacea. N Engl J Med. 2017;377:1754-1764.
  3. Wilkin J, Dahl M, Detmar M, et al. Standard classification of rosacea: report of the National Rosacea Society Expert Committee on the Classification and Staging of Rosacea. J Am Acad Dermatol. 2002;46:584-587.
  4. Wilkin J, Dahl M, Detmar M, et al. Standard grading system for rosacea: report of the National Rosacea Society Expert Committee on the Classification and Staging of Rosacea. J Am Acad Dermatol. 2004;50:907-912.
  5. Saleem MD. Revisiting rosacea criteria: where have we been, where are we going, and how will we get there? Dermatol Clin. 2018;36:161-165.
  6. Crawford GH, Pelle MT, James WD. Rosacea: I. etiology, pathogenesis, and subtype classification. J Am Acad Dermatol. 2004;51:327-341.
  7. Tan J, Steinhoff M, Berg M, et al; Rosacea International Study Group. Shortcomings in rosacea diagnosis and classification. Br J Dermatol. 2017;176:197-199.
  8. Tan J, Almeida LMC, Bewley A, et al. Updating the diagnosis, classification and assessment of rosacea: recommendations from the global ROSacea COnsensus (ROSCO) panel. Br J Dermatol. 2017;176:431-438.
  9. Wilkin J. Updating the diagnosis, classification and assessment of rosacea by effacement of subtypes. Br J Dermatol. 2017;177:597-598.
  10. Tan J; ROSCO coauthors. Updating the diagnosis, classification and assessment of rosacea by effacement of subtypes: reply from the author. Br J Dermatol. 2017;177:598-599.
  11. Schaller M, Almeida LM, Bewley A, et al. Rosacea treatment update: recommendations from the global ROSacea COnsensus (ROSCO) panel. Br J Dermatol. 2017;176:465-471.
  12. Gallo RL, Granstein RD, Kang S, et al. Standard classification and pathophysiology of rosacea: the 2017 update by the National Rosacea Society Expert Committee. J Am Acad Dermatol. 2018;78:148-155.
  13. Lee GL, Zirwas MJ. Granulomatous rosacea and periorificial dermatitis: controversies and review of management and treatment. Dermatol Clin. 2015;33:447-455.
  14. Tan J, Blume‐Peytavi U, Ortonne JP, et al. An observational cross‐sectional survey of rosacea: clinical associations and progression between subtypes. Br J Dermatol. 2013;169:555-562.
  15. James WD, Elston D, Treat JR, et al. Andrews’ Diseases of the Skin: Clinical Dermatology. 13th ed. New York, NY: Elsevier; 2019.
  16. Reinholz M, Tietze JK, Kilian K, et al. Rosacea - S1 guideline. J Dtsch Dermatol Ges. 2013;11:768-780.
  17. Reinholz M, Ruzicka T, Steinhoff M, et al. Pathogenesis and clinical presentation of rosacea as a key for a symptom‐oriented therapy. J Dtsch Dermatol Ges. 2016;14(suppl 6):4-15.
References
  1. Gether L, Overgaard LK, Egeberg A, et al. Incidence and prevalence of rosacea: a systematic review and meta‐analysis. Br J Dermatol. 2018;179:282-289.
  2. van Zuuren EJ. Rosacea. N Engl J Med. 2017;377:1754-1764.
  3. Wilkin J, Dahl M, Detmar M, et al. Standard classification of rosacea: report of the National Rosacea Society Expert Committee on the Classification and Staging of Rosacea. J Am Acad Dermatol. 2002;46:584-587.
  4. Wilkin J, Dahl M, Detmar M, et al. Standard grading system for rosacea: report of the National Rosacea Society Expert Committee on the Classification and Staging of Rosacea. J Am Acad Dermatol. 2004;50:907-912.
  5. Saleem MD. Revisiting rosacea criteria: where have we been, where are we going, and how will we get there? Dermatol Clin. 2018;36:161-165.
  6. Crawford GH, Pelle MT, James WD. Rosacea: I. etiology, pathogenesis, and subtype classification. J Am Acad Dermatol. 2004;51:327-341.
  7. Tan J, Steinhoff M, Berg M, et al; Rosacea International Study Group. Shortcomings in rosacea diagnosis and classification. Br J Dermatol. 2017;176:197-199.
  8. Tan J, Almeida LMC, Bewley A, et al. Updating the diagnosis, classification and assessment of rosacea: recommendations from the global ROSacea COnsensus (ROSCO) panel. Br J Dermatol. 2017;176:431-438.
  9. Wilkin J. Updating the diagnosis, classification and assessment of rosacea by effacement of subtypes. Br J Dermatol. 2017;177:597-598.
  10. Tan J; ROSCO coauthors. Updating the diagnosis, classification and assessment of rosacea by effacement of subtypes: reply from the author. Br J Dermatol. 2017;177:598-599.
  11. Schaller M, Almeida LM, Bewley A, et al. Rosacea treatment update: recommendations from the global ROSacea COnsensus (ROSCO) panel. Br J Dermatol. 2017;176:465-471.
  12. Gallo RL, Granstein RD, Kang S, et al. Standard classification and pathophysiology of rosacea: the 2017 update by the National Rosacea Society Expert Committee. J Am Acad Dermatol. 2018;78:148-155.
  13. Lee GL, Zirwas MJ. Granulomatous rosacea and periorificial dermatitis: controversies and review of management and treatment. Dermatol Clin. 2015;33:447-455.
  14. Tan J, Blume‐Peytavi U, Ortonne JP, et al. An observational cross‐sectional survey of rosacea: clinical associations and progression between subtypes. Br J Dermatol. 2013;169:555-562.
  15. James WD, Elston D, Treat JR, et al. Andrews’ Diseases of the Skin: Clinical Dermatology. 13th ed. New York, NY: Elsevier; 2019.
  16. Reinholz M, Tietze JK, Kilian K, et al. Rosacea - S1 guideline. J Dtsch Dermatol Ges. 2013;11:768-780.
  17. Reinholz M, Ruzicka T, Steinhoff M, et al. Pathogenesis and clinical presentation of rosacea as a key for a symptom‐oriented therapy. J Dtsch Dermatol Ges. 2016;14(suppl 6):4-15.
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Cutis - 104(1)
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Cutis - 104(1)
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70-73
Page Number
70-73
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Update on Rosacea Classification and Its Controversies
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Update on Rosacea Classification and Its Controversies
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Practice Points

  • Rosacea therapy is based on a phenotype classification system, in which patients can have major and minor features across all previously denoted subtypes. This system allows for greater flexibility in treatment regimens.
  • Despite mention of progression between subtypes, there has not been convincing evidence that patients can progress or regress from one end of the rosacea spectrum (erythematotelangiectatic) to the other (phymatous).
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