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Novel Treatment Promising for Cutaneous Lupus in Phase 2 Trial

Article Type
Changed
Mon, 11/04/2024 - 15:03

 

TOPLINE:

Patients with cutaneous lupus erythematosus (CLE) experienced improved symptoms with iberdomide, a cereblon modulator, added to standard lupus medications, particularly in subacute and chronic cases.

METHODOLOGY:

  • Researchers conducted a randomized phase 2 trial to evaluate the efficacy and safety of iberdomide in 288 patients with CLE (mean age, 45 years; 97% women). Iberdomide is a cereblon modulator, which results in degradation of two transcription factors of immune cell development and homeostasis — Ikaros and Aiolos — that have been implicated in the genetic predisposition of systemic lupus.
  • CLE Disease Area and Severity Index Activity (CLASI-A) endpoints included mean percent change from baseline and ≥ 50% reduction from baseline (CLASI-50), which were evaluated in all patients with baseline CLASI-A scores ≥ 8 and by CLE subtypes (acute, subacute, and chronic).
  • At baseline, 56% of patients had acute CLE, 29% had chronic CLE, and 16% had subacute CLE; 28% of patients had a baseline CLASI-A score ≥ 8.
  • Patients were randomly assigned to receive oral iberdomide (0.45 mg, 0.30 mg, 0.15 mg, or placebo daily) for 24 weeks while continuing standard lupus medications. At week 24, patients on placebo were rerandomized to iberdomide 0.45 mg or 0.30 mg once a day, while those on iberdomide continued their assigned dose through week 52.

TAKEAWAY:

  • Among patients with baseline CLASI-A ≥ 8, the mean change in CLASI-A score from baseline at week 24 was −66.7% for those on iberdomide 0.45 mg vs −54.2% for placebo (P = .295).
  • At week 24, patients with subacute CLE showed a significantly greater mean percent change from baseline in CLASI-A with iberdomide 0.45 mg vs placebo (−90.5% vs −51.2%; P = .007), while no significant differences were observed with the 0.45-mg dose vs placebo in patients with chronic or acute CLE.
  • Overall, CLASI-50 responses were not significantly different among those on 0.45 mg vs placebo (55.6% vs 44.6%). The proportions of patients achieving CLASI-50 at week 24 were significantly greater for iberdomide 0.45 mg vs placebo for those with subacute CLE (91.7% vs 52.9%; P = .035) and chronic CLE (62.1% vs 27.8%; P = .029), but not for those with baseline CLASI-A ≥ 8 (66.7% vs 50%).
  • More than 80% of patients had treatment-emergent adverse events (TEAEs), which were mostly mild to moderate. Over 2 years, the most common were urinary tract infections, upper respiratory tract infections, neutropenia, and nasopharyngitis. TEAEs leading to iberdomide discontinuation in one or more patients were neutropenia (n = 7), rash (n = 7), increased hepatic enzymes (n = 4), and deep vein thrombosis (n = 3).

IN PRACTICE:

“Data from this phase 2 trial of iberdomide in patients with SLE suggest that a greater proportion of patients with subacute or chronic CLE who received the higher dose of 0.45 mg iberdomide achieved CLASI-50 vs placebo. For the overall population, CLASI-50 response was not significantly different between treatment groups at week 24, partly due to a high placebo response that may have been driven by patients with acute CLE,” the authors wrote.

 

 

SOURCE:

The study was led by Victoria P. Werth, MD, of the University of Pennsylvania and the Veteran’s Administration Medical Center, both in Philadelphia, and was published online in the Journal of the American Academy of Dermatology.

LIMITATIONS:

The study included small patient subgroups for different CLE subtypes, which may affect the generalizability of the findings. CLE subtype was determined by the investigator without additional photographic adjudication. Additionally, the use of background lupus medications could have influenced the placebo group’s response, limiting the ability to observe the treatment effect of iberdomide monotherapy.

DISCLOSURES:

The study was funded by Bristol-Myers Squibb. Six authors reported being employed by Bristol-Myers Squibb, and several others reported consultancy and research support from various sources including Bristol-Myers Squibb.

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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TOPLINE:

Patients with cutaneous lupus erythematosus (CLE) experienced improved symptoms with iberdomide, a cereblon modulator, added to standard lupus medications, particularly in subacute and chronic cases.

METHODOLOGY:

  • Researchers conducted a randomized phase 2 trial to evaluate the efficacy and safety of iberdomide in 288 patients with CLE (mean age, 45 years; 97% women). Iberdomide is a cereblon modulator, which results in degradation of two transcription factors of immune cell development and homeostasis — Ikaros and Aiolos — that have been implicated in the genetic predisposition of systemic lupus.
  • CLE Disease Area and Severity Index Activity (CLASI-A) endpoints included mean percent change from baseline and ≥ 50% reduction from baseline (CLASI-50), which were evaluated in all patients with baseline CLASI-A scores ≥ 8 and by CLE subtypes (acute, subacute, and chronic).
  • At baseline, 56% of patients had acute CLE, 29% had chronic CLE, and 16% had subacute CLE; 28% of patients had a baseline CLASI-A score ≥ 8.
  • Patients were randomly assigned to receive oral iberdomide (0.45 mg, 0.30 mg, 0.15 mg, or placebo daily) for 24 weeks while continuing standard lupus medications. At week 24, patients on placebo were rerandomized to iberdomide 0.45 mg or 0.30 mg once a day, while those on iberdomide continued their assigned dose through week 52.

TAKEAWAY:

  • Among patients with baseline CLASI-A ≥ 8, the mean change in CLASI-A score from baseline at week 24 was −66.7% for those on iberdomide 0.45 mg vs −54.2% for placebo (P = .295).
  • At week 24, patients with subacute CLE showed a significantly greater mean percent change from baseline in CLASI-A with iberdomide 0.45 mg vs placebo (−90.5% vs −51.2%; P = .007), while no significant differences were observed with the 0.45-mg dose vs placebo in patients with chronic or acute CLE.
  • Overall, CLASI-50 responses were not significantly different among those on 0.45 mg vs placebo (55.6% vs 44.6%). The proportions of patients achieving CLASI-50 at week 24 were significantly greater for iberdomide 0.45 mg vs placebo for those with subacute CLE (91.7% vs 52.9%; P = .035) and chronic CLE (62.1% vs 27.8%; P = .029), but not for those with baseline CLASI-A ≥ 8 (66.7% vs 50%).
  • More than 80% of patients had treatment-emergent adverse events (TEAEs), which were mostly mild to moderate. Over 2 years, the most common were urinary tract infections, upper respiratory tract infections, neutropenia, and nasopharyngitis. TEAEs leading to iberdomide discontinuation in one or more patients were neutropenia (n = 7), rash (n = 7), increased hepatic enzymes (n = 4), and deep vein thrombosis (n = 3).

IN PRACTICE:

“Data from this phase 2 trial of iberdomide in patients with SLE suggest that a greater proportion of patients with subacute or chronic CLE who received the higher dose of 0.45 mg iberdomide achieved CLASI-50 vs placebo. For the overall population, CLASI-50 response was not significantly different between treatment groups at week 24, partly due to a high placebo response that may have been driven by patients with acute CLE,” the authors wrote.

 

 

SOURCE:

The study was led by Victoria P. Werth, MD, of the University of Pennsylvania and the Veteran’s Administration Medical Center, both in Philadelphia, and was published online in the Journal of the American Academy of Dermatology.

LIMITATIONS:

The study included small patient subgroups for different CLE subtypes, which may affect the generalizability of the findings. CLE subtype was determined by the investigator without additional photographic adjudication. Additionally, the use of background lupus medications could have influenced the placebo group’s response, limiting the ability to observe the treatment effect of iberdomide monotherapy.

DISCLOSURES:

The study was funded by Bristol-Myers Squibb. Six authors reported being employed by Bristol-Myers Squibb, and several others reported consultancy and research support from various sources including Bristol-Myers Squibb.

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 cutaneous lupus erythematosus (CLE) experienced improved symptoms with iberdomide, a cereblon modulator, added to standard lupus medications, particularly in subacute and chronic cases.

METHODOLOGY:

  • Researchers conducted a randomized phase 2 trial to evaluate the efficacy and safety of iberdomide in 288 patients with CLE (mean age, 45 years; 97% women). Iberdomide is a cereblon modulator, which results in degradation of two transcription factors of immune cell development and homeostasis — Ikaros and Aiolos — that have been implicated in the genetic predisposition of systemic lupus.
  • CLE Disease Area and Severity Index Activity (CLASI-A) endpoints included mean percent change from baseline and ≥ 50% reduction from baseline (CLASI-50), which were evaluated in all patients with baseline CLASI-A scores ≥ 8 and by CLE subtypes (acute, subacute, and chronic).
  • At baseline, 56% of patients had acute CLE, 29% had chronic CLE, and 16% had subacute CLE; 28% of patients had a baseline CLASI-A score ≥ 8.
  • Patients were randomly assigned to receive oral iberdomide (0.45 mg, 0.30 mg, 0.15 mg, or placebo daily) for 24 weeks while continuing standard lupus medications. At week 24, patients on placebo were rerandomized to iberdomide 0.45 mg or 0.30 mg once a day, while those on iberdomide continued their assigned dose through week 52.

TAKEAWAY:

  • Among patients with baseline CLASI-A ≥ 8, the mean change in CLASI-A score from baseline at week 24 was −66.7% for those on iberdomide 0.45 mg vs −54.2% for placebo (P = .295).
  • At week 24, patients with subacute CLE showed a significantly greater mean percent change from baseline in CLASI-A with iberdomide 0.45 mg vs placebo (−90.5% vs −51.2%; P = .007), while no significant differences were observed with the 0.45-mg dose vs placebo in patients with chronic or acute CLE.
  • Overall, CLASI-50 responses were not significantly different among those on 0.45 mg vs placebo (55.6% vs 44.6%). The proportions of patients achieving CLASI-50 at week 24 were significantly greater for iberdomide 0.45 mg vs placebo for those with subacute CLE (91.7% vs 52.9%; P = .035) and chronic CLE (62.1% vs 27.8%; P = .029), but not for those with baseline CLASI-A ≥ 8 (66.7% vs 50%).
  • More than 80% of patients had treatment-emergent adverse events (TEAEs), which were mostly mild to moderate. Over 2 years, the most common were urinary tract infections, upper respiratory tract infections, neutropenia, and nasopharyngitis. TEAEs leading to iberdomide discontinuation in one or more patients were neutropenia (n = 7), rash (n = 7), increased hepatic enzymes (n = 4), and deep vein thrombosis (n = 3).

IN PRACTICE:

“Data from this phase 2 trial of iberdomide in patients with SLE suggest that a greater proportion of patients with subacute or chronic CLE who received the higher dose of 0.45 mg iberdomide achieved CLASI-50 vs placebo. For the overall population, CLASI-50 response was not significantly different between treatment groups at week 24, partly due to a high placebo response that may have been driven by patients with acute CLE,” the authors wrote.

 

 

SOURCE:

The study was led by Victoria P. Werth, MD, of the University of Pennsylvania and the Veteran’s Administration Medical Center, both in Philadelphia, and was published online in the Journal of the American Academy of Dermatology.

LIMITATIONS:

The study included small patient subgroups for different CLE subtypes, which may affect the generalizability of the findings. CLE subtype was determined by the investigator without additional photographic adjudication. Additionally, the use of background lupus medications could have influenced the placebo group’s response, limiting the ability to observe the treatment effect of iberdomide monotherapy.

DISCLOSURES:

The study was funded by Bristol-Myers Squibb. Six authors reported being employed by Bristol-Myers Squibb, and several others reported consultancy and research support from various sources including Bristol-Myers Squibb.

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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Parent Perceptions Drive Diet Changes for Children With Atopic Dermatitis

Article Type
Changed
Mon, 11/04/2024 - 13:53

Approximately one third of parents of children with atopic dermatitis reported little or no improvement with elimination diets, and nearly 80% reintroduced the eliminated foods, based on survey data from nearly 300 parents.

Although atopic dermatitis can be associated with an increased risk for food allergies, major allergy organizations do not currently recommend elimination diets as a treatment for atopic dermatitis, said Nadia Makkoukdji, MD, a pediatrician at Jackson Memorial Hospital, Miami, in a presentation at the American College of Allergy, Asthma, and Immunology (ACAAI) Annual Scientific Meeting.

“A fear of drastic dietary changes often prevents families from seeking the care their children need,” Makkoukdji said in an interview. In the clinical setting, Makkoukdji noted that she has seen many patients who have started food elimination diets on their own or as recommended by other doctors, and that these diets can lead to dangers such as the development of immunoglobulin E–mediated food allergies on reintroduction of eliminated foods and malnutrition. They can also produce “emotional stress in children and anxiety or depression, while also adding stress to parents and the entire family.”

Makkoukdji conducted the study to explore parents’ perceptions of these diets in management of their children’s atopic dermatitis, she said.

In the study, Makkoukdji and colleagues sought to understand parents’ perceptions of the role of diet in atopic dermatitis in their children. The researchers reviewed surveys from 298 parents of children with atopic dermatitis who were seen at a single academic center. Parents completed the surveys in the emergency department or in an allergy, dermatology, and general pediatrics clinic.

Overall, 42% of parents identified food triggers for their child’s atopic dermatitis. The most commonly identified triggers were milk (32%), tree nuts/seeds/peanuts (16%), and eggs (11%).

Of the parents who reported food triggers, 23% removed the suspected trigger food from the child’s diet completely, 20% removed suspected trigger foods from their own diets while breastfeeding, and 19% changed their infant’s formula.

In the wake of the elimination diets, 38% of the parents reported no improvement in their child’s atopic dermatitis, 35% reported a 25% improvement, and 9% reported complete resolution. The majority (79%) reintroduced eliminated foods and reported no recurrence of atopic dermatitis symptoms.

The researchers were surprised by how many parents changed their child’s diet in the belief that certain foods exacerbated their child’s atopic dermatitis, “although this perception aligns with the common concern that food allergens can trigger or worsen atopic dermatitis flares,” Makkoukdji said.

The current study highlights the need for more awareness of the limited impact of dietary modifications on atopic dermatitis in the absence of confirmed food allergies, Makkoukdji said. “Our study shows that food elimination diets are still commonly being used by parents in the local Miami population.”

The findings were limited by several factors, including the use of data from a single center and the focus only on pediatric patients, but the primary goal was to assess parental perceptions of AD flares in relation to dietary choices, said Makkoukdji. “Future studies that include larger and more diverse populations would be valuable for the field.”
 

 

 

Dietary Modifications Don’t Live Up to Hype

“Food continues to be one of the most discussed aspects of atopic dermatitis,” Peter Lio, MD, clinical assistant professor of dermatology and pediatrics at Northwestern University Feinberg School of Medicine, Chicago, Illinois, said in an interview.

“Almost all of my patients and families ask about dietary modifications, even though almost all of them have experimented with it to some degree,” said Lio. In his experience, diet plays a small role, if any, in the day-to-day management of atopic dermatitis.

This lack of effect of dietary changes is often frustrating to patients because of the persistent “common wisdom” that points to diet as a root cause of atopic dermatitis, Lio said. “Many practitioners continue to recommend excluding foods such as gluten or dairy from the diet, but generally these are only of modest help,” and although patients wish that dietary changes would fix the problem, most are left wondering why these changes didn’t help them.

The current study findings “reflect my own experience after nearly 20 years of being deeply immersed in the world of atopic dermatitis,” Lio said. Although the takeaway message does not argue against eating healthy foods, some foods do seem to make AD worse in some patients and may have nonallergic pro-inflammatory effects.

“In those cases, it is reasonable to limit or avoid those foods. However, it is extremely difficult to tell what food or foods are driving flare-ups when things are out of control, so dietary modification is generally not the best place to start,” he said.

True food allergies are much more common in patients with atopic dermatitis compared with individuals without atopic dermatitis, but the current study is not addressing these types of allergies, Lio emphasized. “If someone has true allergy to peanuts, for example, they should not be eating them; we also know that they are not ‘cheating’ because these patients would not merely have an eczema flare; they would have urticaria, angioedema, or anaphylaxis. There is tremendous confusion around this point and lots of confusion around allergy testing and its limitations.”

In addition, patients with atopic dermatitis are more likely than those without atopic dermatitis to have abnormalities in the gut microbiome and gut barrier, Lio said.

Abnormalities in the gut microbiome are different from the concept of allergy and may fall into the more complex category of barrier and microbiome disruptors, he said. Therefore, “the food category may not be nearly as important as the specific preparation of the food along with the additives (such as preservatives and emulsifiers) that may actually be driving the problem.”

Although in the past many clinicians advised patients to try cutting out certain foods to see whether atopic dermatitis symptoms improved, this strategy is not without risk, said Lio. “There have been incredible advancements in understanding the role of the gut in tolerization to foods.” Recent research has shown that by eating foods regularly, particularly those such as peanuts that seem to have more allergic potential, the body becomes tolerant, and this prevents the development of true food allergies.

As for additional research, many questions remain about the effects of types of foods, processing methods, and timing of introduction of foods on atopic dermatitis, Lio noted.

“Atopic dermatitis is a systemic condition with the immune system, with the skin/gut/respiratory barriers and microbiome involved; I think we now have a broader view of how big and complex the landscape really is,” he said.

The study received no outside funding. The researchers had no financial conflicts to disclose. Lio had no disclosures relevant to elimination diets but disclosed serving on the speakers bureau for AbbVie, Arcutis Biotherapeutics, Eli Lilly, Galderma, Hyphens Pharma, Incyte, La Roche–Posay/L’Oréal, Pfizer, Pierre Fabre Dermatologie, Regeneron/Sanofi Genzyme, and Verrica Pharmaceuticals; serving on consulting/advisory boards; or having stock options for many pharmaceutical companies. Lio also disclosed a patent pending for a Theraplex product with royalties paid and is a board member and Scientific Advisory Committee member emeritus of the National Eczema Association.

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

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Approximately one third of parents of children with atopic dermatitis reported little or no improvement with elimination diets, and nearly 80% reintroduced the eliminated foods, based on survey data from nearly 300 parents.

Although atopic dermatitis can be associated with an increased risk for food allergies, major allergy organizations do not currently recommend elimination diets as a treatment for atopic dermatitis, said Nadia Makkoukdji, MD, a pediatrician at Jackson Memorial Hospital, Miami, in a presentation at the American College of Allergy, Asthma, and Immunology (ACAAI) Annual Scientific Meeting.

“A fear of drastic dietary changes often prevents families from seeking the care their children need,” Makkoukdji said in an interview. In the clinical setting, Makkoukdji noted that she has seen many patients who have started food elimination diets on their own or as recommended by other doctors, and that these diets can lead to dangers such as the development of immunoglobulin E–mediated food allergies on reintroduction of eliminated foods and malnutrition. They can also produce “emotional stress in children and anxiety or depression, while also adding stress to parents and the entire family.”

Makkoukdji conducted the study to explore parents’ perceptions of these diets in management of their children’s atopic dermatitis, she said.

In the study, Makkoukdji and colleagues sought to understand parents’ perceptions of the role of diet in atopic dermatitis in their children. The researchers reviewed surveys from 298 parents of children with atopic dermatitis who were seen at a single academic center. Parents completed the surveys in the emergency department or in an allergy, dermatology, and general pediatrics clinic.

Overall, 42% of parents identified food triggers for their child’s atopic dermatitis. The most commonly identified triggers were milk (32%), tree nuts/seeds/peanuts (16%), and eggs (11%).

Of the parents who reported food triggers, 23% removed the suspected trigger food from the child’s diet completely, 20% removed suspected trigger foods from their own diets while breastfeeding, and 19% changed their infant’s formula.

In the wake of the elimination diets, 38% of the parents reported no improvement in their child’s atopic dermatitis, 35% reported a 25% improvement, and 9% reported complete resolution. The majority (79%) reintroduced eliminated foods and reported no recurrence of atopic dermatitis symptoms.

The researchers were surprised by how many parents changed their child’s diet in the belief that certain foods exacerbated their child’s atopic dermatitis, “although this perception aligns with the common concern that food allergens can trigger or worsen atopic dermatitis flares,” Makkoukdji said.

The current study highlights the need for more awareness of the limited impact of dietary modifications on atopic dermatitis in the absence of confirmed food allergies, Makkoukdji said. “Our study shows that food elimination diets are still commonly being used by parents in the local Miami population.”

The findings were limited by several factors, including the use of data from a single center and the focus only on pediatric patients, but the primary goal was to assess parental perceptions of AD flares in relation to dietary choices, said Makkoukdji. “Future studies that include larger and more diverse populations would be valuable for the field.”
 

 

 

Dietary Modifications Don’t Live Up to Hype

“Food continues to be one of the most discussed aspects of atopic dermatitis,” Peter Lio, MD, clinical assistant professor of dermatology and pediatrics at Northwestern University Feinberg School of Medicine, Chicago, Illinois, said in an interview.

“Almost all of my patients and families ask about dietary modifications, even though almost all of them have experimented with it to some degree,” said Lio. In his experience, diet plays a small role, if any, in the day-to-day management of atopic dermatitis.

This lack of effect of dietary changes is often frustrating to patients because of the persistent “common wisdom” that points to diet as a root cause of atopic dermatitis, Lio said. “Many practitioners continue to recommend excluding foods such as gluten or dairy from the diet, but generally these are only of modest help,” and although patients wish that dietary changes would fix the problem, most are left wondering why these changes didn’t help them.

The current study findings “reflect my own experience after nearly 20 years of being deeply immersed in the world of atopic dermatitis,” Lio said. Although the takeaway message does not argue against eating healthy foods, some foods do seem to make AD worse in some patients and may have nonallergic pro-inflammatory effects.

“In those cases, it is reasonable to limit or avoid those foods. However, it is extremely difficult to tell what food or foods are driving flare-ups when things are out of control, so dietary modification is generally not the best place to start,” he said.

True food allergies are much more common in patients with atopic dermatitis compared with individuals without atopic dermatitis, but the current study is not addressing these types of allergies, Lio emphasized. “If someone has true allergy to peanuts, for example, they should not be eating them; we also know that they are not ‘cheating’ because these patients would not merely have an eczema flare; they would have urticaria, angioedema, or anaphylaxis. There is tremendous confusion around this point and lots of confusion around allergy testing and its limitations.”

In addition, patients with atopic dermatitis are more likely than those without atopic dermatitis to have abnormalities in the gut microbiome and gut barrier, Lio said.

Abnormalities in the gut microbiome are different from the concept of allergy and may fall into the more complex category of barrier and microbiome disruptors, he said. Therefore, “the food category may not be nearly as important as the specific preparation of the food along with the additives (such as preservatives and emulsifiers) that may actually be driving the problem.”

Although in the past many clinicians advised patients to try cutting out certain foods to see whether atopic dermatitis symptoms improved, this strategy is not without risk, said Lio. “There have been incredible advancements in understanding the role of the gut in tolerization to foods.” Recent research has shown that by eating foods regularly, particularly those such as peanuts that seem to have more allergic potential, the body becomes tolerant, and this prevents the development of true food allergies.

As for additional research, many questions remain about the effects of types of foods, processing methods, and timing of introduction of foods on atopic dermatitis, Lio noted.

“Atopic dermatitis is a systemic condition with the immune system, with the skin/gut/respiratory barriers and microbiome involved; I think we now have a broader view of how big and complex the landscape really is,” he said.

The study received no outside funding. The researchers had no financial conflicts to disclose. Lio had no disclosures relevant to elimination diets but disclosed serving on the speakers bureau for AbbVie, Arcutis Biotherapeutics, Eli Lilly, Galderma, Hyphens Pharma, Incyte, La Roche–Posay/L’Oréal, Pfizer, Pierre Fabre Dermatologie, Regeneron/Sanofi Genzyme, and Verrica Pharmaceuticals; serving on consulting/advisory boards; or having stock options for many pharmaceutical companies. Lio also disclosed a patent pending for a Theraplex product with royalties paid and is a board member and Scientific Advisory Committee member emeritus of the National Eczema Association.

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

Approximately one third of parents of children with atopic dermatitis reported little or no improvement with elimination diets, and nearly 80% reintroduced the eliminated foods, based on survey data from nearly 300 parents.

Although atopic dermatitis can be associated with an increased risk for food allergies, major allergy organizations do not currently recommend elimination diets as a treatment for atopic dermatitis, said Nadia Makkoukdji, MD, a pediatrician at Jackson Memorial Hospital, Miami, in a presentation at the American College of Allergy, Asthma, and Immunology (ACAAI) Annual Scientific Meeting.

“A fear of drastic dietary changes often prevents families from seeking the care their children need,” Makkoukdji said in an interview. In the clinical setting, Makkoukdji noted that she has seen many patients who have started food elimination diets on their own or as recommended by other doctors, and that these diets can lead to dangers such as the development of immunoglobulin E–mediated food allergies on reintroduction of eliminated foods and malnutrition. They can also produce “emotional stress in children and anxiety or depression, while also adding stress to parents and the entire family.”

Makkoukdji conducted the study to explore parents’ perceptions of these diets in management of their children’s atopic dermatitis, she said.

In the study, Makkoukdji and colleagues sought to understand parents’ perceptions of the role of diet in atopic dermatitis in their children. The researchers reviewed surveys from 298 parents of children with atopic dermatitis who were seen at a single academic center. Parents completed the surveys in the emergency department or in an allergy, dermatology, and general pediatrics clinic.

Overall, 42% of parents identified food triggers for their child’s atopic dermatitis. The most commonly identified triggers were milk (32%), tree nuts/seeds/peanuts (16%), and eggs (11%).

Of the parents who reported food triggers, 23% removed the suspected trigger food from the child’s diet completely, 20% removed suspected trigger foods from their own diets while breastfeeding, and 19% changed their infant’s formula.

In the wake of the elimination diets, 38% of the parents reported no improvement in their child’s atopic dermatitis, 35% reported a 25% improvement, and 9% reported complete resolution. The majority (79%) reintroduced eliminated foods and reported no recurrence of atopic dermatitis symptoms.

The researchers were surprised by how many parents changed their child’s diet in the belief that certain foods exacerbated their child’s atopic dermatitis, “although this perception aligns with the common concern that food allergens can trigger or worsen atopic dermatitis flares,” Makkoukdji said.

The current study highlights the need for more awareness of the limited impact of dietary modifications on atopic dermatitis in the absence of confirmed food allergies, Makkoukdji said. “Our study shows that food elimination diets are still commonly being used by parents in the local Miami population.”

The findings were limited by several factors, including the use of data from a single center and the focus only on pediatric patients, but the primary goal was to assess parental perceptions of AD flares in relation to dietary choices, said Makkoukdji. “Future studies that include larger and more diverse populations would be valuable for the field.”
 

 

 

Dietary Modifications Don’t Live Up to Hype

“Food continues to be one of the most discussed aspects of atopic dermatitis,” Peter Lio, MD, clinical assistant professor of dermatology and pediatrics at Northwestern University Feinberg School of Medicine, Chicago, Illinois, said in an interview.

“Almost all of my patients and families ask about dietary modifications, even though almost all of them have experimented with it to some degree,” said Lio. In his experience, diet plays a small role, if any, in the day-to-day management of atopic dermatitis.

This lack of effect of dietary changes is often frustrating to patients because of the persistent “common wisdom” that points to diet as a root cause of atopic dermatitis, Lio said. “Many practitioners continue to recommend excluding foods such as gluten or dairy from the diet, but generally these are only of modest help,” and although patients wish that dietary changes would fix the problem, most are left wondering why these changes didn’t help them.

The current study findings “reflect my own experience after nearly 20 years of being deeply immersed in the world of atopic dermatitis,” Lio said. Although the takeaway message does not argue against eating healthy foods, some foods do seem to make AD worse in some patients and may have nonallergic pro-inflammatory effects.

“In those cases, it is reasonable to limit or avoid those foods. However, it is extremely difficult to tell what food or foods are driving flare-ups when things are out of control, so dietary modification is generally not the best place to start,” he said.

True food allergies are much more common in patients with atopic dermatitis compared with individuals without atopic dermatitis, but the current study is not addressing these types of allergies, Lio emphasized. “If someone has true allergy to peanuts, for example, they should not be eating them; we also know that they are not ‘cheating’ because these patients would not merely have an eczema flare; they would have urticaria, angioedema, or anaphylaxis. There is tremendous confusion around this point and lots of confusion around allergy testing and its limitations.”

In addition, patients with atopic dermatitis are more likely than those without atopic dermatitis to have abnormalities in the gut microbiome and gut barrier, Lio said.

Abnormalities in the gut microbiome are different from the concept of allergy and may fall into the more complex category of barrier and microbiome disruptors, he said. Therefore, “the food category may not be nearly as important as the specific preparation of the food along with the additives (such as preservatives and emulsifiers) that may actually be driving the problem.”

Although in the past many clinicians advised patients to try cutting out certain foods to see whether atopic dermatitis symptoms improved, this strategy is not without risk, said Lio. “There have been incredible advancements in understanding the role of the gut in tolerization to foods.” Recent research has shown that by eating foods regularly, particularly those such as peanuts that seem to have more allergic potential, the body becomes tolerant, and this prevents the development of true food allergies.

As for additional research, many questions remain about the effects of types of foods, processing methods, and timing of introduction of foods on atopic dermatitis, Lio noted.

“Atopic dermatitis is a systemic condition with the immune system, with the skin/gut/respiratory barriers and microbiome involved; I think we now have a broader view of how big and complex the landscape really is,” he said.

The study received no outside funding. The researchers had no financial conflicts to disclose. Lio had no disclosures relevant to elimination diets but disclosed serving on the speakers bureau for AbbVie, Arcutis Biotherapeutics, Eli Lilly, Galderma, Hyphens Pharma, Incyte, La Roche–Posay/L’Oréal, Pfizer, Pierre Fabre Dermatologie, Regeneron/Sanofi Genzyme, and Verrica Pharmaceuticals; serving on consulting/advisory boards; or having stock options for many pharmaceutical companies. Lio also disclosed a patent pending for a Theraplex product with royalties paid and is a board member and Scientific Advisory Committee member emeritus of the National Eczema Association.

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

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Can Fish Skin Grafts Heal Diabetic Foot Ulcers?

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Changed
Thu, 10/31/2024 - 15:47

 

TOPLINE:

Intact fish skin grafts, sourced from Atlantic cod, show superior and faster healing than standard wound care practices in patients with deep and penetrating diabetic foot ulcers.

METHODOLOGY:

  • Standard wound care for diabetic foot ulcers involves vascular assessment, surgical debridement, use of appropriate dressings, infection management, and glycemic control; however, standard care is typically associated with poor outcomes.
  • Researchers conducted a multicenter clinical trial in 15 tertiary care centers with diabetic foot units across France, Italy, Germany, and Sweden to evaluate the efficacy and safety of intact fish skin grafts over standard-of-care practices in treating complex diabetic foot ulcers.
  • A total of 255 patients aged 18 years or older with diabetes and lower limb wounds penetrating to the tendon, capsule, bone, or joint were randomly assigned to receive either an intact fish skin graft or standard wound care for 14 weeks.
  • The primary endpoint was the percentage of wounds achieving complete closure by 16 weeks.
  • Wound healing was also assessed at 20 and 24 weeks.

TAKEAWAY:

  • The proportion of wounds healed at 16 weeks was higher with intact fish skin grafts than with standard-of-care (44.0% vs 26.4% adjusted odds ratio [aOR], 2.58; 95% CI, 1.48-4.56).
  • The fish skin grafts continued to be more effective than standard wound care practices at weeks 20 (aOR, 2.15; 95% CI, 1.27–3.70) and 24 (aOR, 2.19; 95% CI, 1.31–3.70).
  • The mean time to healing was 17.31 weeks for the intact fish skin graft group and 19.37 weeks for the standard-of-care group; intact fish skin grafts were also associated with faster healing times than standard wound care (hazard ratio, 1.59; 95% CI, 1.07-2.36).
  • Target wound infections were the most common adverse events, occurring in a similar number of patients in both the groups.

IN PRACTICE:

“Our trial demonstrated treatment of complex diabetic foot ulcers with intact fish skin grafts achieved a significantly greater proportion of diabetic foot ulcers healed at 16 weeks than standard of care, and was associated with increased healing at 20 and 24 weeks. That these results were achieved in non-superficial UT [University of Texas diabetic wound classification system] grade 2 and 3 diabetic foot ulcers and included ischemic and/or infected diabetic foot ulcers is of importance,” the authors wrote.

SOURCE:

The study was led by Dured Dardari, MD, PhD, Center Hospitalier Sud Francilien, Corbeil-Essonnes, France, and was published online in NEJM Evidence.

LIMITATIONS:

No limitations were discussed for this study.

DISCLOSURES:

The study was funded by European Commission Fast Track to Innovation Horizon 2020 and Kerecis. Two authors reported being employees with or without stock options at Kerecis, and other authors reported having ties with many sources including Kerecis.

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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TOPLINE:

Intact fish skin grafts, sourced from Atlantic cod, show superior and faster healing than standard wound care practices in patients with deep and penetrating diabetic foot ulcers.

METHODOLOGY:

  • Standard wound care for diabetic foot ulcers involves vascular assessment, surgical debridement, use of appropriate dressings, infection management, and glycemic control; however, standard care is typically associated with poor outcomes.
  • Researchers conducted a multicenter clinical trial in 15 tertiary care centers with diabetic foot units across France, Italy, Germany, and Sweden to evaluate the efficacy and safety of intact fish skin grafts over standard-of-care practices in treating complex diabetic foot ulcers.
  • A total of 255 patients aged 18 years or older with diabetes and lower limb wounds penetrating to the tendon, capsule, bone, or joint were randomly assigned to receive either an intact fish skin graft or standard wound care for 14 weeks.
  • The primary endpoint was the percentage of wounds achieving complete closure by 16 weeks.
  • Wound healing was also assessed at 20 and 24 weeks.

TAKEAWAY:

  • The proportion of wounds healed at 16 weeks was higher with intact fish skin grafts than with standard-of-care (44.0% vs 26.4% adjusted odds ratio [aOR], 2.58; 95% CI, 1.48-4.56).
  • The fish skin grafts continued to be more effective than standard wound care practices at weeks 20 (aOR, 2.15; 95% CI, 1.27–3.70) and 24 (aOR, 2.19; 95% CI, 1.31–3.70).
  • The mean time to healing was 17.31 weeks for the intact fish skin graft group and 19.37 weeks for the standard-of-care group; intact fish skin grafts were also associated with faster healing times than standard wound care (hazard ratio, 1.59; 95% CI, 1.07-2.36).
  • Target wound infections were the most common adverse events, occurring in a similar number of patients in both the groups.

IN PRACTICE:

“Our trial demonstrated treatment of complex diabetic foot ulcers with intact fish skin grafts achieved a significantly greater proportion of diabetic foot ulcers healed at 16 weeks than standard of care, and was associated with increased healing at 20 and 24 weeks. That these results were achieved in non-superficial UT [University of Texas diabetic wound classification system] grade 2 and 3 diabetic foot ulcers and included ischemic and/or infected diabetic foot ulcers is of importance,” the authors wrote.

SOURCE:

The study was led by Dured Dardari, MD, PhD, Center Hospitalier Sud Francilien, Corbeil-Essonnes, France, and was published online in NEJM Evidence.

LIMITATIONS:

No limitations were discussed for this study.

DISCLOSURES:

The study was funded by European Commission Fast Track to Innovation Horizon 2020 and Kerecis. Two authors reported being employees with or without stock options at Kerecis, and other authors reported having ties with many sources including Kerecis.

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:

Intact fish skin grafts, sourced from Atlantic cod, show superior and faster healing than standard wound care practices in patients with deep and penetrating diabetic foot ulcers.

METHODOLOGY:

  • Standard wound care for diabetic foot ulcers involves vascular assessment, surgical debridement, use of appropriate dressings, infection management, and glycemic control; however, standard care is typically associated with poor outcomes.
  • Researchers conducted a multicenter clinical trial in 15 tertiary care centers with diabetic foot units across France, Italy, Germany, and Sweden to evaluate the efficacy and safety of intact fish skin grafts over standard-of-care practices in treating complex diabetic foot ulcers.
  • A total of 255 patients aged 18 years or older with diabetes and lower limb wounds penetrating to the tendon, capsule, bone, or joint were randomly assigned to receive either an intact fish skin graft or standard wound care for 14 weeks.
  • The primary endpoint was the percentage of wounds achieving complete closure by 16 weeks.
  • Wound healing was also assessed at 20 and 24 weeks.

TAKEAWAY:

  • The proportion of wounds healed at 16 weeks was higher with intact fish skin grafts than with standard-of-care (44.0% vs 26.4% adjusted odds ratio [aOR], 2.58; 95% CI, 1.48-4.56).
  • The fish skin grafts continued to be more effective than standard wound care practices at weeks 20 (aOR, 2.15; 95% CI, 1.27–3.70) and 24 (aOR, 2.19; 95% CI, 1.31–3.70).
  • The mean time to healing was 17.31 weeks for the intact fish skin graft group and 19.37 weeks for the standard-of-care group; intact fish skin grafts were also associated with faster healing times than standard wound care (hazard ratio, 1.59; 95% CI, 1.07-2.36).
  • Target wound infections were the most common adverse events, occurring in a similar number of patients in both the groups.

IN PRACTICE:

“Our trial demonstrated treatment of complex diabetic foot ulcers with intact fish skin grafts achieved a significantly greater proportion of diabetic foot ulcers healed at 16 weeks than standard of care, and was associated with increased healing at 20 and 24 weeks. That these results were achieved in non-superficial UT [University of Texas diabetic wound classification system] grade 2 and 3 diabetic foot ulcers and included ischemic and/or infected diabetic foot ulcers is of importance,” the authors wrote.

SOURCE:

The study was led by Dured Dardari, MD, PhD, Center Hospitalier Sud Francilien, Corbeil-Essonnes, France, and was published online in NEJM Evidence.

LIMITATIONS:

No limitations were discussed for this study.

DISCLOSURES:

The study was funded by European Commission Fast Track to Innovation Horizon 2020 and Kerecis. Two authors reported being employees with or without stock options at Kerecis, and other authors reported having ties with many sources including Kerecis.

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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AI in Medicine: Are Large Language Models Ready for the Exam Room?

Article Type
Changed
Tue, 10/29/2024 - 10:52

In seconds, Ravi Parikh, MD, an oncologist at the Emory University School of Medicine in Atlanta, had a summary of his patient’s entire medical history. Normally, Parikh skimmed the cumbersome files before seeing a patient. However, the artificial intelligence (AI) tool his institution was testing could list the highlights he needed in a fraction of the time.

“On the whole, I like it ... it saves me time,” Parikh said of the tool. “But I’d be lying if I told you it was perfect all the time. It’s interpreting the [patient] history in some ways that may be inaccurate,” he said.

Within the first week of testing the tool, Parikh started to notice that the large language model (LLM) made a particular mistake in his patients with prostate cancer. If their prostate-specific antigen test results came back slightly elevated — which is part of normal variation — the LLM recorded it as disease progression. Because Parikh reviews all his notes — with or without using an AI tool — after a visit, he easily caught the mistake before it was added to the chart. “The problem, I think, is if these mistakes go under the hood,” he said.

In the data science world, these mistakes are called hallucinations. And a growing body of research suggests they’re happening more frequently than is safe for healthcare. The industry promised LLMs would alleviate administrative burden and reduce physician burnout. But so far, studies show these AI-tool mistakes often create more work for doctors, not less. To truly help physicians and be safe for patients, some experts say healthcare needs to build its own LLMs from the ground up. And all agree that the field desperately needs a way to vet these algorithms more thoroughly.
 

Prone to Error

Right now, “I think the industry is focused on taking existing LLMs and forcing them into usage for healthcare,” said Nigam H. Shah, MBBS, PhD, chief data scientist for Stanford Health. However, the value of deploying general LLMs in the healthcare space is questionable. “People are starting to wonder if we’re using these tools wrong,” he told this news organization.

In 2023, Shah and his colleagues evaluated seven LLMs on their ability to answer electronic health record–based questions. For realistic tasks, the error rate in the best cases was about 35%, he said. “To me, that rate seems a bit high ... to adopt for routine use.”

study earlier this year by the UC San Diego School of Medicine showed that using LLMs to respond to patient messages increased the time doctors spent on messages. And this summer, a study by the clinical AI firm Mendel found that when GPT-4o or Llama-3 were used to summarize patient medical records, almost every summary contained at least one type of hallucination.

“We’ve seen cases where a patient does have drug allergies, but the system says ‘no known drug allergies’ ” in the medical history summary, said Wael Salloum, PhD, cofounder and chief science officer at Mendel. “That’s a serious hallucination.” And if physicians have to constantly verify what the system is telling them, that “defeats the purpose [of summarization],” he said.
 

 

 

A Higher Quality Diet

Part of the trouble with LLMs is that there’s just not enough high-quality information to feed them. The algorithms are insatiable, requiring vast swaths of data for training. GPT-3.5, for instance, was trained on 570 GB of data from the internet, more than 300 billion words. And to train GPT-4o, OpenAI reportedly transcribed more than 1 million hours of YouTube content.

However, the strategies that built these general LLMs don’t always translate well to healthcare. The internet is full of low-quality or misleading health information from wellness sites and supplement advertisements. And even data that are trustworthy, like the millions of clinical studies and the US Food and Drug Administration (FDA) statements, can be outdated, Salloum said. And “an LLM in training can’t distinguish good from bad,” he added.

The good news is that clinicians don’t rely on controversial information in the real world. Medical knowledge is standardized. “Healthcare is a domain rich with explicit knowledge,” Salloum said. So there’s potential to build a more reliable LLM that is guided by robust medical standards and guidelines.

It’s possible that healthcare could use small language models, which are LLM’s pocket-sized cousins, and perform tasks needing only bite-sized datasets requiring fewer resources and easier fine-tuning, according to Microsoft’s website. Shah said training these smaller models on real medical data might be an option, like an LLM meant to respond to patient messages that could be trained with real messages sent by physicians.

Several groups are already working on databases of standardized human medical knowledge or real physician responses. “Perhaps that will work better than using LLMs trained on the general internet. Those studies need to be done,” Shah said.

Jon Tamir, assistant professor of electrical and computer engineering and co-lead of the AI Health Lab at The University of Texas at Austin, said, “The community has recognized that we are entering a new era of AI where the dataset itself is the most important aspect. We need training sets that are highly curated and highly specialized.

“If the dataset is highly specialized, it will definitely help reduce hallucinations,” he said.
 

Cutting Overconfidence

A major problem with LLM mistakes is that they are often hard to detect. Hallucinations can be highly convincing even if they’re highly inaccurate, according to Tamir.

When Shah, for instance, was recently testing an LLM on de-identified patient data, he asked the LLM which blood test the patient last had. The model responded with “complete blood count [CBC].” But when he asked for the results, the model gave him white blood count and other values. “Turns out that record did not have a CBC done at all! The result was entirely made up,” he said.

Making healthcare LLMs safer and more reliable will mean training AI to acknowledge potential mistakes and uncertainty. Existing LLMs are trained to project confidence and produce a lot of answers, even when there isn’t one, Salloum said. They rarely respond with “I don’t know” even when their prediction has low confidence, he added.

Healthcare stands to benefit from a system that highlights uncertainty and potential errors. For instance, if a patient’s history shows they have smoked, stopped smoking, vaped, and started smoking again. The LLM might call them a smoker but flag the comment as uncertain because the chronology is complicated, Salloum said.

Tamir added that this strategy could improve LLM and doctor collaboration by honing in on where human expertise is needed most.
 

 

 

Too Little Evaluation

For any improvement strategy to work, LLMs — and all AI-assisted healthcare tools — first need a better evaluation framework. So far, LLMs have “been used in really exciting ways but not really well-vetted ways,” Tamir said.

While some AI-assisted tools, particularly in medical imaging, have undergone rigorous FDA evaluations and earned approval, most haven’t. And because the FDA only regulates algorithms that are considered medical devices, Parikh said that most LLMs used for administrative tasks and efficiency don’t fall under the regulatory agency’s purview.

But these algorithms still have access to patient information and can directly influence patient and doctor decisions. Third-party regulatory agencies are expected to emerge, but it’s still unclear who those will be. Before developers can build a safer and more efficient LLM for healthcare, they’ll need better guidelines and guardrails. “Unless we figure out evaluation, how would we know whether the healthcare-appropriate large language models are better or worse?” Shah asked.
 

A version of this article appeared on Medscape.com.

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In seconds, Ravi Parikh, MD, an oncologist at the Emory University School of Medicine in Atlanta, had a summary of his patient’s entire medical history. Normally, Parikh skimmed the cumbersome files before seeing a patient. However, the artificial intelligence (AI) tool his institution was testing could list the highlights he needed in a fraction of the time.

“On the whole, I like it ... it saves me time,” Parikh said of the tool. “But I’d be lying if I told you it was perfect all the time. It’s interpreting the [patient] history in some ways that may be inaccurate,” he said.

Within the first week of testing the tool, Parikh started to notice that the large language model (LLM) made a particular mistake in his patients with prostate cancer. If their prostate-specific antigen test results came back slightly elevated — which is part of normal variation — the LLM recorded it as disease progression. Because Parikh reviews all his notes — with or without using an AI tool — after a visit, he easily caught the mistake before it was added to the chart. “The problem, I think, is if these mistakes go under the hood,” he said.

In the data science world, these mistakes are called hallucinations. And a growing body of research suggests they’re happening more frequently than is safe for healthcare. The industry promised LLMs would alleviate administrative burden and reduce physician burnout. But so far, studies show these AI-tool mistakes often create more work for doctors, not less. To truly help physicians and be safe for patients, some experts say healthcare needs to build its own LLMs from the ground up. And all agree that the field desperately needs a way to vet these algorithms more thoroughly.
 

Prone to Error

Right now, “I think the industry is focused on taking existing LLMs and forcing them into usage for healthcare,” said Nigam H. Shah, MBBS, PhD, chief data scientist for Stanford Health. However, the value of deploying general LLMs in the healthcare space is questionable. “People are starting to wonder if we’re using these tools wrong,” he told this news organization.

In 2023, Shah and his colleagues evaluated seven LLMs on their ability to answer electronic health record–based questions. For realistic tasks, the error rate in the best cases was about 35%, he said. “To me, that rate seems a bit high ... to adopt for routine use.”

study earlier this year by the UC San Diego School of Medicine showed that using LLMs to respond to patient messages increased the time doctors spent on messages. And this summer, a study by the clinical AI firm Mendel found that when GPT-4o or Llama-3 were used to summarize patient medical records, almost every summary contained at least one type of hallucination.

“We’ve seen cases where a patient does have drug allergies, but the system says ‘no known drug allergies’ ” in the medical history summary, said Wael Salloum, PhD, cofounder and chief science officer at Mendel. “That’s a serious hallucination.” And if physicians have to constantly verify what the system is telling them, that “defeats the purpose [of summarization],” he said.
 

 

 

A Higher Quality Diet

Part of the trouble with LLMs is that there’s just not enough high-quality information to feed them. The algorithms are insatiable, requiring vast swaths of data for training. GPT-3.5, for instance, was trained on 570 GB of data from the internet, more than 300 billion words. And to train GPT-4o, OpenAI reportedly transcribed more than 1 million hours of YouTube content.

However, the strategies that built these general LLMs don’t always translate well to healthcare. The internet is full of low-quality or misleading health information from wellness sites and supplement advertisements. And even data that are trustworthy, like the millions of clinical studies and the US Food and Drug Administration (FDA) statements, can be outdated, Salloum said. And “an LLM in training can’t distinguish good from bad,” he added.

The good news is that clinicians don’t rely on controversial information in the real world. Medical knowledge is standardized. “Healthcare is a domain rich with explicit knowledge,” Salloum said. So there’s potential to build a more reliable LLM that is guided by robust medical standards and guidelines.

It’s possible that healthcare could use small language models, which are LLM’s pocket-sized cousins, and perform tasks needing only bite-sized datasets requiring fewer resources and easier fine-tuning, according to Microsoft’s website. Shah said training these smaller models on real medical data might be an option, like an LLM meant to respond to patient messages that could be trained with real messages sent by physicians.

Several groups are already working on databases of standardized human medical knowledge or real physician responses. “Perhaps that will work better than using LLMs trained on the general internet. Those studies need to be done,” Shah said.

Jon Tamir, assistant professor of electrical and computer engineering and co-lead of the AI Health Lab at The University of Texas at Austin, said, “The community has recognized that we are entering a new era of AI where the dataset itself is the most important aspect. We need training sets that are highly curated and highly specialized.

“If the dataset is highly specialized, it will definitely help reduce hallucinations,” he said.
 

Cutting Overconfidence

A major problem with LLM mistakes is that they are often hard to detect. Hallucinations can be highly convincing even if they’re highly inaccurate, according to Tamir.

When Shah, for instance, was recently testing an LLM on de-identified patient data, he asked the LLM which blood test the patient last had. The model responded with “complete blood count [CBC].” But when he asked for the results, the model gave him white blood count and other values. “Turns out that record did not have a CBC done at all! The result was entirely made up,” he said.

Making healthcare LLMs safer and more reliable will mean training AI to acknowledge potential mistakes and uncertainty. Existing LLMs are trained to project confidence and produce a lot of answers, even when there isn’t one, Salloum said. They rarely respond with “I don’t know” even when their prediction has low confidence, he added.

Healthcare stands to benefit from a system that highlights uncertainty and potential errors. For instance, if a patient’s history shows they have smoked, stopped smoking, vaped, and started smoking again. The LLM might call them a smoker but flag the comment as uncertain because the chronology is complicated, Salloum said.

Tamir added that this strategy could improve LLM and doctor collaboration by honing in on where human expertise is needed most.
 

 

 

Too Little Evaluation

For any improvement strategy to work, LLMs — and all AI-assisted healthcare tools — first need a better evaluation framework. So far, LLMs have “been used in really exciting ways but not really well-vetted ways,” Tamir said.

While some AI-assisted tools, particularly in medical imaging, have undergone rigorous FDA evaluations and earned approval, most haven’t. And because the FDA only regulates algorithms that are considered medical devices, Parikh said that most LLMs used for administrative tasks and efficiency don’t fall under the regulatory agency’s purview.

But these algorithms still have access to patient information and can directly influence patient and doctor decisions. Third-party regulatory agencies are expected to emerge, but it’s still unclear who those will be. Before developers can build a safer and more efficient LLM for healthcare, they’ll need better guidelines and guardrails. “Unless we figure out evaluation, how would we know whether the healthcare-appropriate large language models are better or worse?” Shah asked.
 

A version of this article appeared on Medscape.com.

In seconds, Ravi Parikh, MD, an oncologist at the Emory University School of Medicine in Atlanta, had a summary of his patient’s entire medical history. Normally, Parikh skimmed the cumbersome files before seeing a patient. However, the artificial intelligence (AI) tool his institution was testing could list the highlights he needed in a fraction of the time.

“On the whole, I like it ... it saves me time,” Parikh said of the tool. “But I’d be lying if I told you it was perfect all the time. It’s interpreting the [patient] history in some ways that may be inaccurate,” he said.

Within the first week of testing the tool, Parikh started to notice that the large language model (LLM) made a particular mistake in his patients with prostate cancer. If their prostate-specific antigen test results came back slightly elevated — which is part of normal variation — the LLM recorded it as disease progression. Because Parikh reviews all his notes — with or without using an AI tool — after a visit, he easily caught the mistake before it was added to the chart. “The problem, I think, is if these mistakes go under the hood,” he said.

In the data science world, these mistakes are called hallucinations. And a growing body of research suggests they’re happening more frequently than is safe for healthcare. The industry promised LLMs would alleviate administrative burden and reduce physician burnout. But so far, studies show these AI-tool mistakes often create more work for doctors, not less. To truly help physicians and be safe for patients, some experts say healthcare needs to build its own LLMs from the ground up. And all agree that the field desperately needs a way to vet these algorithms more thoroughly.
 

Prone to Error

Right now, “I think the industry is focused on taking existing LLMs and forcing them into usage for healthcare,” said Nigam H. Shah, MBBS, PhD, chief data scientist for Stanford Health. However, the value of deploying general LLMs in the healthcare space is questionable. “People are starting to wonder if we’re using these tools wrong,” he told this news organization.

In 2023, Shah and his colleagues evaluated seven LLMs on their ability to answer electronic health record–based questions. For realistic tasks, the error rate in the best cases was about 35%, he said. “To me, that rate seems a bit high ... to adopt for routine use.”

study earlier this year by the UC San Diego School of Medicine showed that using LLMs to respond to patient messages increased the time doctors spent on messages. And this summer, a study by the clinical AI firm Mendel found that when GPT-4o or Llama-3 were used to summarize patient medical records, almost every summary contained at least one type of hallucination.

“We’ve seen cases where a patient does have drug allergies, but the system says ‘no known drug allergies’ ” in the medical history summary, said Wael Salloum, PhD, cofounder and chief science officer at Mendel. “That’s a serious hallucination.” And if physicians have to constantly verify what the system is telling them, that “defeats the purpose [of summarization],” he said.
 

 

 

A Higher Quality Diet

Part of the trouble with LLMs is that there’s just not enough high-quality information to feed them. The algorithms are insatiable, requiring vast swaths of data for training. GPT-3.5, for instance, was trained on 570 GB of data from the internet, more than 300 billion words. And to train GPT-4o, OpenAI reportedly transcribed more than 1 million hours of YouTube content.

However, the strategies that built these general LLMs don’t always translate well to healthcare. The internet is full of low-quality or misleading health information from wellness sites and supplement advertisements. And even data that are trustworthy, like the millions of clinical studies and the US Food and Drug Administration (FDA) statements, can be outdated, Salloum said. And “an LLM in training can’t distinguish good from bad,” he added.

The good news is that clinicians don’t rely on controversial information in the real world. Medical knowledge is standardized. “Healthcare is a domain rich with explicit knowledge,” Salloum said. So there’s potential to build a more reliable LLM that is guided by robust medical standards and guidelines.

It’s possible that healthcare could use small language models, which are LLM’s pocket-sized cousins, and perform tasks needing only bite-sized datasets requiring fewer resources and easier fine-tuning, according to Microsoft’s website. Shah said training these smaller models on real medical data might be an option, like an LLM meant to respond to patient messages that could be trained with real messages sent by physicians.

Several groups are already working on databases of standardized human medical knowledge or real physician responses. “Perhaps that will work better than using LLMs trained on the general internet. Those studies need to be done,” Shah said.

Jon Tamir, assistant professor of electrical and computer engineering and co-lead of the AI Health Lab at The University of Texas at Austin, said, “The community has recognized that we are entering a new era of AI where the dataset itself is the most important aspect. We need training sets that are highly curated and highly specialized.

“If the dataset is highly specialized, it will definitely help reduce hallucinations,” he said.
 

Cutting Overconfidence

A major problem with LLM mistakes is that they are often hard to detect. Hallucinations can be highly convincing even if they’re highly inaccurate, according to Tamir.

When Shah, for instance, was recently testing an LLM on de-identified patient data, he asked the LLM which blood test the patient last had. The model responded with “complete blood count [CBC].” But when he asked for the results, the model gave him white blood count and other values. “Turns out that record did not have a CBC done at all! The result was entirely made up,” he said.

Making healthcare LLMs safer and more reliable will mean training AI to acknowledge potential mistakes and uncertainty. Existing LLMs are trained to project confidence and produce a lot of answers, even when there isn’t one, Salloum said. They rarely respond with “I don’t know” even when their prediction has low confidence, he added.

Healthcare stands to benefit from a system that highlights uncertainty and potential errors. For instance, if a patient’s history shows they have smoked, stopped smoking, vaped, and started smoking again. The LLM might call them a smoker but flag the comment as uncertain because the chronology is complicated, Salloum said.

Tamir added that this strategy could improve LLM and doctor collaboration by honing in on where human expertise is needed most.
 

 

 

Too Little Evaluation

For any improvement strategy to work, LLMs — and all AI-assisted healthcare tools — first need a better evaluation framework. So far, LLMs have “been used in really exciting ways but not really well-vetted ways,” Tamir said.

While some AI-assisted tools, particularly in medical imaging, have undergone rigorous FDA evaluations and earned approval, most haven’t. And because the FDA only regulates algorithms that are considered medical devices, Parikh said that most LLMs used for administrative tasks and efficiency don’t fall under the regulatory agency’s purview.

But these algorithms still have access to patient information and can directly influence patient and doctor decisions. Third-party regulatory agencies are expected to emerge, but it’s still unclear who those will be. Before developers can build a safer and more efficient LLM for healthcare, they’ll need better guidelines and guardrails. “Unless we figure out evaluation, how would we know whether the healthcare-appropriate large language models are better or worse?” Shah asked.
 

A version of this article appeared on Medscape.com.

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Cybersecurity Concerns Continue to Rise With Ransom, Data Manipulation, AI Risks

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Tue, 10/29/2024 - 10:00

From the largest healthcare companies to solo practices, just every organization in medicine faces a risk for costly cyberattacks. In recent years, hackers have threatened to release the personal information of patients and employees — or paralyze online systems — unless they’re paid a ransom.

Should companies pay? It’s not an easy answer, a pair of experts told colleagues in an American Medical Association (AMA) cybersecurity webinar on October 18. It turns out that each choice — pay or don’t pay — can end up being costly.

This is just one of the new challenges facing the American medical system on the cybersecurity front, the speakers said. Others include the possibility that hackers will manipulate patient data — turning a medical test negative, for example, when it’s actually positive — and take advantage of the powers of artificial intelligence (AI).

The AMA held the webinar to educate physicians about cybersecurity risks and defenses, an especially hot topic in the wake of February’s Change Healthcare hack, which cost UnitedHealth Group an estimated $2.5 billion — so far — and deeply disrupted the American healthcare system.

Cautionary tales abound. Greg Garcia, executive director for cybersecurity of the Health Sector Coordinating Council, a coalition of medical industry organizations, pointed to a Pennsylvania clinic that refused to pay a ransom to prevent the release of hundreds of images of patients with breast cancer undressed from the waist up. Garcia told webinar participants that the ransom was $5 million.
 

Risky Choices

While the Federal Bureau of Investigation recommends against paying a ransom, this can be a risky choice, Garcia said. Hackers released the images, and the center has reportedly agreed to settle a class-action lawsuit for $65 million. “They traded $5 million for $60 million,” Garcia added, slightly misstating the settlement amount.

Health systems have been cagey about whether they’ve paid ransoms to prevent private data from being made public in cyberattacks. If a ransom is demanded, “it’s every organization for itself,” Garcia said.

He highlighted the case of a chain of psychiatry practices in Finland that suffered a ransomware attack in 2020. The hackers “contacted the patients and said: ‘Hey, call your clinic and tell them to pay the ransom. Otherwise, we’re going to release all your psychiatric notes to the public.’ ”

Cyberattacks continue. In October, Boston Children’s Health Physicians announced that it had suffered a “ recent security incident” involving data — possibly including Social Security numbers and treatment information — regarding patients and employees. A hacker group reportedly claimed responsibility and wants the system, which boasts more than 300 clinicians, to pay a ransom or else it will release the stolen information.
 

Should Paying Ransom Be a Crime?

Christian Dameff, MD, MS, an emergency medicine physician and director of the Center for Healthcare Cybersecurity at the University of California (UC), San Diego, noted that there are efforts to turn paying ransom into a crime. “If people aren’t paying ransoms, then ransomware operators will move to something else that makes them money.”

Dameff urged colleagues to understand we no longer live in a world where clinicians only bother to think of technology when they call the IT department to help them reset their password.

New challenges face clinicians, he said. “How do we develop better strategies, downtime procedures, and safe clinical care in an era where our vital technology may be gone, not just for an hour or 2, but as is the case with these ransomware attacks, sometimes weeks to months.”

Garcia said “cybersecurity is everybody’s responsibility, including frontline clinicians. Because you’re touching data, you’re touching technology, you’re touching patients, and all of those things combine to present some vulnerabilities in the digital world.”
 

 

 

Next Frontier: Hackers May Manipulate Patient Data

Dameff said future hackers may use AI to manipulate individual patient data in ways that threaten patient health. AI makes this easier to accomplish.

“What if I delete your allergies in your electronic health record, or I manipulate your chest x-ray, or I change your lab values so it looks like you’re in diabetic ketoacidosis when you’re not so a clinician gives you insulin when you don’t need it?”

Garcia highlighted another new threat: Phishing efforts that are harder to ignore thanks to AI.

“One of the most successful way that hackers get in, disrupt systems, and steal data is through email phishing, and it’s only going to get better because of artificial intelligence,” he said. “No longer are you going to have typos in that email written by a hacking group in Nigeria or in China. It’s going to be perfect looking.”

What can practices and healthcare systems do? Garcia highlighted federal health agency efforts to encourage organizations to adopt best practices in cybersecurity.

“If you’ve got a data breach, and you can show to the US Department of Health & Human Services [HHS] you have implemented generally recognized cybersecurity controls over the past year, that you have done your best, you did the right thing, and you still got hit, HHS is directed to essentially take it easy on you,” he said. “That’s a positive incentive.”
 

Ransomware Guide in the Works

Dameff said UC San Diego’s Center for Healthcare Cybersecurity plans to publish a free cybersecurity guide in 2025 that will include specific information about ransomware attacks for medical specialties such as cardiology, trauma surgery, and pediatrics.

“Then, should you ever be ransomed, you can pull out this guide. You’ll know what’s going to kind of happen, and you can better prepare for those effects.”

Will the future president prioritize healthcare cybersecurity? That remains to be seen, but crises do have the capacity to concentrate the mind, experts said.

The nation’s capital “has a very short memory, a short attention span. The policymakers tend to be reactive,” Dameff said. “All it takes is yet another Change Healthcare–like attack that disrupts 30% or more of the nation’s healthcare system for the policymakers to sit up, take notice, and try to come up with solutions.”

In addition, he said, an estimated two data breaches/ransomware attacks are occurring per day. “The fact is that we’re all patients, up to the President of the United States and every member of the Congress is a patient.”

There’s a “very existential, very palpable understanding that cyber safety is patient safety and cyber insecurity is patient insecurity,” Dameff said.

A version of this article appeared on Medscape.com.

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From the largest healthcare companies to solo practices, just every organization in medicine faces a risk for costly cyberattacks. In recent years, hackers have threatened to release the personal information of patients and employees — or paralyze online systems — unless they’re paid a ransom.

Should companies pay? It’s not an easy answer, a pair of experts told colleagues in an American Medical Association (AMA) cybersecurity webinar on October 18. It turns out that each choice — pay or don’t pay — can end up being costly.

This is just one of the new challenges facing the American medical system on the cybersecurity front, the speakers said. Others include the possibility that hackers will manipulate patient data — turning a medical test negative, for example, when it’s actually positive — and take advantage of the powers of artificial intelligence (AI).

The AMA held the webinar to educate physicians about cybersecurity risks and defenses, an especially hot topic in the wake of February’s Change Healthcare hack, which cost UnitedHealth Group an estimated $2.5 billion — so far — and deeply disrupted the American healthcare system.

Cautionary tales abound. Greg Garcia, executive director for cybersecurity of the Health Sector Coordinating Council, a coalition of medical industry organizations, pointed to a Pennsylvania clinic that refused to pay a ransom to prevent the release of hundreds of images of patients with breast cancer undressed from the waist up. Garcia told webinar participants that the ransom was $5 million.
 

Risky Choices

While the Federal Bureau of Investigation recommends against paying a ransom, this can be a risky choice, Garcia said. Hackers released the images, and the center has reportedly agreed to settle a class-action lawsuit for $65 million. “They traded $5 million for $60 million,” Garcia added, slightly misstating the settlement amount.

Health systems have been cagey about whether they’ve paid ransoms to prevent private data from being made public in cyberattacks. If a ransom is demanded, “it’s every organization for itself,” Garcia said.

He highlighted the case of a chain of psychiatry practices in Finland that suffered a ransomware attack in 2020. The hackers “contacted the patients and said: ‘Hey, call your clinic and tell them to pay the ransom. Otherwise, we’re going to release all your psychiatric notes to the public.’ ”

Cyberattacks continue. In October, Boston Children’s Health Physicians announced that it had suffered a “ recent security incident” involving data — possibly including Social Security numbers and treatment information — regarding patients and employees. A hacker group reportedly claimed responsibility and wants the system, which boasts more than 300 clinicians, to pay a ransom or else it will release the stolen information.
 

Should Paying Ransom Be a Crime?

Christian Dameff, MD, MS, an emergency medicine physician and director of the Center for Healthcare Cybersecurity at the University of California (UC), San Diego, noted that there are efforts to turn paying ransom into a crime. “If people aren’t paying ransoms, then ransomware operators will move to something else that makes them money.”

Dameff urged colleagues to understand we no longer live in a world where clinicians only bother to think of technology when they call the IT department to help them reset their password.

New challenges face clinicians, he said. “How do we develop better strategies, downtime procedures, and safe clinical care in an era where our vital technology may be gone, not just for an hour or 2, but as is the case with these ransomware attacks, sometimes weeks to months.”

Garcia said “cybersecurity is everybody’s responsibility, including frontline clinicians. Because you’re touching data, you’re touching technology, you’re touching patients, and all of those things combine to present some vulnerabilities in the digital world.”
 

 

 

Next Frontier: Hackers May Manipulate Patient Data

Dameff said future hackers may use AI to manipulate individual patient data in ways that threaten patient health. AI makes this easier to accomplish.

“What if I delete your allergies in your electronic health record, or I manipulate your chest x-ray, or I change your lab values so it looks like you’re in diabetic ketoacidosis when you’re not so a clinician gives you insulin when you don’t need it?”

Garcia highlighted another new threat: Phishing efforts that are harder to ignore thanks to AI.

“One of the most successful way that hackers get in, disrupt systems, and steal data is through email phishing, and it’s only going to get better because of artificial intelligence,” he said. “No longer are you going to have typos in that email written by a hacking group in Nigeria or in China. It’s going to be perfect looking.”

What can practices and healthcare systems do? Garcia highlighted federal health agency efforts to encourage organizations to adopt best practices in cybersecurity.

“If you’ve got a data breach, and you can show to the US Department of Health & Human Services [HHS] you have implemented generally recognized cybersecurity controls over the past year, that you have done your best, you did the right thing, and you still got hit, HHS is directed to essentially take it easy on you,” he said. “That’s a positive incentive.”
 

Ransomware Guide in the Works

Dameff said UC San Diego’s Center for Healthcare Cybersecurity plans to publish a free cybersecurity guide in 2025 that will include specific information about ransomware attacks for medical specialties such as cardiology, trauma surgery, and pediatrics.

“Then, should you ever be ransomed, you can pull out this guide. You’ll know what’s going to kind of happen, and you can better prepare for those effects.”

Will the future president prioritize healthcare cybersecurity? That remains to be seen, but crises do have the capacity to concentrate the mind, experts said.

The nation’s capital “has a very short memory, a short attention span. The policymakers tend to be reactive,” Dameff said. “All it takes is yet another Change Healthcare–like attack that disrupts 30% or more of the nation’s healthcare system for the policymakers to sit up, take notice, and try to come up with solutions.”

In addition, he said, an estimated two data breaches/ransomware attacks are occurring per day. “The fact is that we’re all patients, up to the President of the United States and every member of the Congress is a patient.”

There’s a “very existential, very palpable understanding that cyber safety is patient safety and cyber insecurity is patient insecurity,” Dameff said.

A version of this article appeared on Medscape.com.

From the largest healthcare companies to solo practices, just every organization in medicine faces a risk for costly cyberattacks. In recent years, hackers have threatened to release the personal information of patients and employees — or paralyze online systems — unless they’re paid a ransom.

Should companies pay? It’s not an easy answer, a pair of experts told colleagues in an American Medical Association (AMA) cybersecurity webinar on October 18. It turns out that each choice — pay or don’t pay — can end up being costly.

This is just one of the new challenges facing the American medical system on the cybersecurity front, the speakers said. Others include the possibility that hackers will manipulate patient data — turning a medical test negative, for example, when it’s actually positive — and take advantage of the powers of artificial intelligence (AI).

The AMA held the webinar to educate physicians about cybersecurity risks and defenses, an especially hot topic in the wake of February’s Change Healthcare hack, which cost UnitedHealth Group an estimated $2.5 billion — so far — and deeply disrupted the American healthcare system.

Cautionary tales abound. Greg Garcia, executive director for cybersecurity of the Health Sector Coordinating Council, a coalition of medical industry organizations, pointed to a Pennsylvania clinic that refused to pay a ransom to prevent the release of hundreds of images of patients with breast cancer undressed from the waist up. Garcia told webinar participants that the ransom was $5 million.
 

Risky Choices

While the Federal Bureau of Investigation recommends against paying a ransom, this can be a risky choice, Garcia said. Hackers released the images, and the center has reportedly agreed to settle a class-action lawsuit for $65 million. “They traded $5 million for $60 million,” Garcia added, slightly misstating the settlement amount.

Health systems have been cagey about whether they’ve paid ransoms to prevent private data from being made public in cyberattacks. If a ransom is demanded, “it’s every organization for itself,” Garcia said.

He highlighted the case of a chain of psychiatry practices in Finland that suffered a ransomware attack in 2020. The hackers “contacted the patients and said: ‘Hey, call your clinic and tell them to pay the ransom. Otherwise, we’re going to release all your psychiatric notes to the public.’ ”

Cyberattacks continue. In October, Boston Children’s Health Physicians announced that it had suffered a “ recent security incident” involving data — possibly including Social Security numbers and treatment information — regarding patients and employees. A hacker group reportedly claimed responsibility and wants the system, which boasts more than 300 clinicians, to pay a ransom or else it will release the stolen information.
 

Should Paying Ransom Be a Crime?

Christian Dameff, MD, MS, an emergency medicine physician and director of the Center for Healthcare Cybersecurity at the University of California (UC), San Diego, noted that there are efforts to turn paying ransom into a crime. “If people aren’t paying ransoms, then ransomware operators will move to something else that makes them money.”

Dameff urged colleagues to understand we no longer live in a world where clinicians only bother to think of technology when they call the IT department to help them reset their password.

New challenges face clinicians, he said. “How do we develop better strategies, downtime procedures, and safe clinical care in an era where our vital technology may be gone, not just for an hour or 2, but as is the case with these ransomware attacks, sometimes weeks to months.”

Garcia said “cybersecurity is everybody’s responsibility, including frontline clinicians. Because you’re touching data, you’re touching technology, you’re touching patients, and all of those things combine to present some vulnerabilities in the digital world.”
 

 

 

Next Frontier: Hackers May Manipulate Patient Data

Dameff said future hackers may use AI to manipulate individual patient data in ways that threaten patient health. AI makes this easier to accomplish.

“What if I delete your allergies in your electronic health record, or I manipulate your chest x-ray, or I change your lab values so it looks like you’re in diabetic ketoacidosis when you’re not so a clinician gives you insulin when you don’t need it?”

Garcia highlighted another new threat: Phishing efforts that are harder to ignore thanks to AI.

“One of the most successful way that hackers get in, disrupt systems, and steal data is through email phishing, and it’s only going to get better because of artificial intelligence,” he said. “No longer are you going to have typos in that email written by a hacking group in Nigeria or in China. It’s going to be perfect looking.”

What can practices and healthcare systems do? Garcia highlighted federal health agency efforts to encourage organizations to adopt best practices in cybersecurity.

“If you’ve got a data breach, and you can show to the US Department of Health & Human Services [HHS] you have implemented generally recognized cybersecurity controls over the past year, that you have done your best, you did the right thing, and you still got hit, HHS is directed to essentially take it easy on you,” he said. “That’s a positive incentive.”
 

Ransomware Guide in the Works

Dameff said UC San Diego’s Center for Healthcare Cybersecurity plans to publish a free cybersecurity guide in 2025 that will include specific information about ransomware attacks for medical specialties such as cardiology, trauma surgery, and pediatrics.

“Then, should you ever be ransomed, you can pull out this guide. You’ll know what’s going to kind of happen, and you can better prepare for those effects.”

Will the future president prioritize healthcare cybersecurity? That remains to be seen, but crises do have the capacity to concentrate the mind, experts said.

The nation’s capital “has a very short memory, a short attention span. The policymakers tend to be reactive,” Dameff said. “All it takes is yet another Change Healthcare–like attack that disrupts 30% or more of the nation’s healthcare system for the policymakers to sit up, take notice, and try to come up with solutions.”

In addition, he said, an estimated two data breaches/ransomware attacks are occurring per day. “The fact is that we’re all patients, up to the President of the United States and every member of the Congress is a patient.”

There’s a “very existential, very palpable understanding that cyber safety is patient safety and cyber insecurity is patient insecurity,” Dameff said.

A version of this article appeared on Medscape.com.

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ICD-10-CM Codes for CCCA, FFA Now Available

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Mon, 10/28/2024 - 16:01

On October 1, 2024, International Classification of Diseases, 10th Revision, Clinical Modification (ICD-10-CM) codes for central centrifugal cicatricial alopecia (CCCA) and frontal fibrosing alopecia (FFA) took effect for the first time, a development characterized as a critical advancement in the field of hair loss disorders.

“CCCA and FFA are conditions that require early diagnosis and intervention to prevent irreversible hair loss,” Maria Hordinsky, MD, professor of dermatology at the University of Minnesota, Minneapolis, and a member of the Board of Directors, Scarring Alopecia Foundation (SAF), said in an interview.

Dr. Maria Hordinsky


“The use of these new codes will make it easier for clinicians to identify affected patients and improve treatment outcomes. It also opens the door for more robust research efforts aimed at understanding the etiology and progression of CCCA and FFA, which could lead to new and more effective treatments in the future. Overall, this development represents a positive step toward improving care for individuals affected by these challenging conditions.”

The new codes — L66.81 for CCCA and L66.12 for FFA — were approved by the Centers for Disease Control and Prevention (CDC) on June 15, 2023, but not implemented until October 1, 2024. 

Amy J. McMichael, MD, professor of dermatology at Wake Forest University School of Medicine, Winston-Salem, North Carolina, and a scientific advisor to SAF, told this news organization that Itisha Jefferson, a medical student at Loyola University Chicago’s Stritch School of Medicine, and her peers on the SAF’s Medical Student Executive Board, played a pivotal role in advocating for the codes.

Dr. Amy J. McMichael


In 2022, Jefferson, who has CCCA, and her fellow medical students helped create the proposals that were ultimately submitted to the CDC.

“They were critical in working with the CDC leaders to get the necessary information submitted and processed,” McMichael said. “They were also amazing at corralling our dermatologist group for the development of the necessary presentations and helped to shepherd us to the finish line for all logistic issues.”

On March 8, 2023, McMichael and Hordinsky made their pitch for the codes in person at the CDC’s ICD-10 Coordination and Maintenance Committee meeting, with McMichael discussing CCCA and Hordinsky discussing FFA.

“We also discussed the lack of standardized tracking, which has contributed to misdiagnoses and inadequate treatment options,” Hordinsky recalled. “We highlighted the importance of having distinct codes for these conditions to improve clinical outcomes, ensure that patients have access to appropriate care, better tracking of disease prevalence, and greater epidemiologic monitoring with access to electronic medical records and other large real-world evidence datasets and databases, the results of which could contribute to health policy decision-making.”

To spread the word about the new codes, McMichael, Hordinsky, and other members of the SAF are working with the original team of medical students, some of whom who are now dermatology residents, to develop an information guide to send to societies and organizations that were supportive of the codes. A publication in the dermatology literature is also planned.

Ms. Jefferson
Itisha Jefferson

For her part, Jefferson said that she will continue to advocate for patients with scarring alopecia as a medical student and when she becomes a physician. “I hope in the near future we will see an externally led FDA Patient-Focused Drug Development meeting for both CCCA and FFA, further advancing care and research for these conditions,” she said in an interview.

McMichael, Hordinsky, and Jefferson had no relevant disclosures to report.

A version of this article appeared on Medscape.com.

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On October 1, 2024, International Classification of Diseases, 10th Revision, Clinical Modification (ICD-10-CM) codes for central centrifugal cicatricial alopecia (CCCA) and frontal fibrosing alopecia (FFA) took effect for the first time, a development characterized as a critical advancement in the field of hair loss disorders.

“CCCA and FFA are conditions that require early diagnosis and intervention to prevent irreversible hair loss,” Maria Hordinsky, MD, professor of dermatology at the University of Minnesota, Minneapolis, and a member of the Board of Directors, Scarring Alopecia Foundation (SAF), said in an interview.

Dr. Maria Hordinsky


“The use of these new codes will make it easier for clinicians to identify affected patients and improve treatment outcomes. It also opens the door for more robust research efforts aimed at understanding the etiology and progression of CCCA and FFA, which could lead to new and more effective treatments in the future. Overall, this development represents a positive step toward improving care for individuals affected by these challenging conditions.”

The new codes — L66.81 for CCCA and L66.12 for FFA — were approved by the Centers for Disease Control and Prevention (CDC) on June 15, 2023, but not implemented until October 1, 2024. 

Amy J. McMichael, MD, professor of dermatology at Wake Forest University School of Medicine, Winston-Salem, North Carolina, and a scientific advisor to SAF, told this news organization that Itisha Jefferson, a medical student at Loyola University Chicago’s Stritch School of Medicine, and her peers on the SAF’s Medical Student Executive Board, played a pivotal role in advocating for the codes.

Dr. Amy J. McMichael


In 2022, Jefferson, who has CCCA, and her fellow medical students helped create the proposals that were ultimately submitted to the CDC.

“They were critical in working with the CDC leaders to get the necessary information submitted and processed,” McMichael said. “They were also amazing at corralling our dermatologist group for the development of the necessary presentations and helped to shepherd us to the finish line for all logistic issues.”

On March 8, 2023, McMichael and Hordinsky made their pitch for the codes in person at the CDC’s ICD-10 Coordination and Maintenance Committee meeting, with McMichael discussing CCCA and Hordinsky discussing FFA.

“We also discussed the lack of standardized tracking, which has contributed to misdiagnoses and inadequate treatment options,” Hordinsky recalled. “We highlighted the importance of having distinct codes for these conditions to improve clinical outcomes, ensure that patients have access to appropriate care, better tracking of disease prevalence, and greater epidemiologic monitoring with access to electronic medical records and other large real-world evidence datasets and databases, the results of which could contribute to health policy decision-making.”

To spread the word about the new codes, McMichael, Hordinsky, and other members of the SAF are working with the original team of medical students, some of whom who are now dermatology residents, to develop an information guide to send to societies and organizations that were supportive of the codes. A publication in the dermatology literature is also planned.

Ms. Jefferson
Itisha Jefferson

For her part, Jefferson said that she will continue to advocate for patients with scarring alopecia as a medical student and when she becomes a physician. “I hope in the near future we will see an externally led FDA Patient-Focused Drug Development meeting for both CCCA and FFA, further advancing care and research for these conditions,” she said in an interview.

McMichael, Hordinsky, and Jefferson had no relevant disclosures to report.

A version of this article appeared on Medscape.com.

On October 1, 2024, International Classification of Diseases, 10th Revision, Clinical Modification (ICD-10-CM) codes for central centrifugal cicatricial alopecia (CCCA) and frontal fibrosing alopecia (FFA) took effect for the first time, a development characterized as a critical advancement in the field of hair loss disorders.

“CCCA and FFA are conditions that require early diagnosis and intervention to prevent irreversible hair loss,” Maria Hordinsky, MD, professor of dermatology at the University of Minnesota, Minneapolis, and a member of the Board of Directors, Scarring Alopecia Foundation (SAF), said in an interview.

Dr. Maria Hordinsky


“The use of these new codes will make it easier for clinicians to identify affected patients and improve treatment outcomes. It also opens the door for more robust research efforts aimed at understanding the etiology and progression of CCCA and FFA, which could lead to new and more effective treatments in the future. Overall, this development represents a positive step toward improving care for individuals affected by these challenging conditions.”

The new codes — L66.81 for CCCA and L66.12 for FFA — were approved by the Centers for Disease Control and Prevention (CDC) on June 15, 2023, but not implemented until October 1, 2024. 

Amy J. McMichael, MD, professor of dermatology at Wake Forest University School of Medicine, Winston-Salem, North Carolina, and a scientific advisor to SAF, told this news organization that Itisha Jefferson, a medical student at Loyola University Chicago’s Stritch School of Medicine, and her peers on the SAF’s Medical Student Executive Board, played a pivotal role in advocating for the codes.

Dr. Amy J. McMichael


In 2022, Jefferson, who has CCCA, and her fellow medical students helped create the proposals that were ultimately submitted to the CDC.

“They were critical in working with the CDC leaders to get the necessary information submitted and processed,” McMichael said. “They were also amazing at corralling our dermatologist group for the development of the necessary presentations and helped to shepherd us to the finish line for all logistic issues.”

On March 8, 2023, McMichael and Hordinsky made their pitch for the codes in person at the CDC’s ICD-10 Coordination and Maintenance Committee meeting, with McMichael discussing CCCA and Hordinsky discussing FFA.

“We also discussed the lack of standardized tracking, which has contributed to misdiagnoses and inadequate treatment options,” Hordinsky recalled. “We highlighted the importance of having distinct codes for these conditions to improve clinical outcomes, ensure that patients have access to appropriate care, better tracking of disease prevalence, and greater epidemiologic monitoring with access to electronic medical records and other large real-world evidence datasets and databases, the results of which could contribute to health policy decision-making.”

To spread the word about the new codes, McMichael, Hordinsky, and other members of the SAF are working with the original team of medical students, some of whom who are now dermatology residents, to develop an information guide to send to societies and organizations that were supportive of the codes. A publication in the dermatology literature is also planned.

Ms. Jefferson
Itisha Jefferson

For her part, Jefferson said that she will continue to advocate for patients with scarring alopecia as a medical student and when she becomes a physician. “I hope in the near future we will see an externally led FDA Patient-Focused Drug Development meeting for both CCCA and FFA, further advancing care and research for these conditions,” she said in an interview.

McMichael, Hordinsky, and Jefferson had no relevant disclosures to report.

A version of this article appeared on Medscape.com.

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Community Outreach Benefits Dermatology Residents and Their Patients

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Community Outreach Benefits Dermatology Residents and Their Patients

The sun often is rising in the rearview mirror as I travel with the University of New Mexico dermatology team from Albuquerque to our satellite clinic in Gallup, New Mexico. This twice-monthly trip—with a group usually comprising an attending physician, residents, and medical students—provides an invaluable opportunity for me to take part in delivering care to a majority Native American population and connects our institution and its trainees to the state’s rural and indigenous cultures and communities.

Community outreach is an important initiative for many dermatology residency training programs. Engaging with the community outside the clinic setting allows residents to hone their clinical skills, interact with and meet new people, and help to improve access to health care, especially for members of underserved populations.

Limited access to health care remains a pressing issue in the United States, especially for underserved and rural communities. There currently is no standardized way to measure access to care, but multiple contributing factors have been identified, including but not limited to patient wait times and throughput, provider turnover, ratio of dermatologists to patient population, insurance type, and patient outcomes.1 Fortunately, there are many ways for dermatology residents to get involved and improve access to dermatologic services in their communities, including skin cancer screenings, free clinics, and teledermatology.

Skin Cancer Screenings

More than 40% of community outreach initiatives offered by dermatology residency programs are related to skin cancer screening and prevention.2 The American Academy of Dermatology’s free skin cancer check program (https://www.aad.org/member/career/volunteer/spot) offers a way to participate in or even host a skin cancer screening in your community. Since 1985, this program has identified nearly 300,000 suspicious lesions and more than 30,000 suspected melanomas. Resources for setting up a skin cancer screening in your community are available on the program’s website. Residents may take this opportunity to teach medical students how to perform full-body skin examinations and/or practice making independent decisions as the supervisor for medical trainees. Skin cancer screening events not only expand access to care in underserved communities but also help residents feel more connected to the local community, especially if they have moved to a new location for their residency training.

Free Clinics

Engaging in educational opportunities offered through residency programs is another way to participate in community outreach. In particular, many programs are affiliated with a School of Medicine within their institution that allows residents to spearhead volunteer opportunities such as working at a free clinic. In fact, more than 30% of initiatives offered at dermatology residency programs are free general dermatology clinics.2 Residents are in the unique position of being both learners themselves as well as educators to trainees.3 As part of our role, we can provide crucial specialty care to the community by working in concert with medical students and while also familiarizing ourselves with treating populations that we may not reach in our daily clinical work. For example, by participating in free clinics, we can provide care to vulnerable populations who typically may have financial or time barriers that prevent them from seeking care at the institution-associated clinic, including individuals experiencing homelessness, patients who are uninsured, and individuals who cannot take time off work to pursue medical care. Our presence in the community helps to reduce barriers to specialty care, particularly in the field of dermatology where the access shortage in the context of rising skin cancer rates prompts public health concerns.4

Teledermatology

Teledermatology became a way to extend our reach in the community more than ever before during the COVID-19 pandemic. Advances in audio, visual, and data telecommunication have been particularly helpful in dermatology, a specialty that relies heavily on visual cues for diagnosis. Synchronous, asynchronous, and hybrid teledermatology services implemented during the pandemic have gained favor among patients and dermatologists and are still applied in current practice.5,6

For example, in the state of New Mexico (where there is a severe shortage of board-certified dermatologists to care for the state’s population), teledermatology has allowed rural providers of all specialties to consult University of New Mexico dermatologists by sending clinical photographs along with patient information and history via secure messaging. Instead of having the patient travel hundreds of miles to see the nearest dermatologist for their skin condition or endure long wait times to get in to see a specialist, primary providers now can initiate treatment or work-up for their patient’s skin issue in a timely manner with the use of teledermatology to consult specialists.

Teledermatology has demonstrated cost-effectiveness, accuracy, and efficiency in conveniently expanding access to care. It offers patients and dermatologists flexibility in receiving and delivering health care, respectively.7 As residents, learning how to navigate this technologic frontier in health care delivery is imperative, as it will remain a prevalent tool in the future care of our communities, particularly in underserved areas.

Final Thoughts

Through community outreach initiatives, dermatology residents have an opportunity not only to enrich our education but also to connect with and become closer to our patients. Skin cancer screenings, free clinics, and teledermatology have provided ways to reach more communities and remain important aspects of dermatology residency.

References
  1. Patel B, Blalock TW. Defining “access to care” for dermatology at academic medical institutions. J Am Acad Dermatol. 2023;89:627-628. doi:10.1016/j.jaad.2023.03.014
  2. Fritsche M, Maglakelidze N, Zaenglein A, et al. Community outreach initiatives in dermatology: cross-sectional study. Arch Dermatol Res. 2023;315:2693-2695. doi:10.1007/s00403-023-02629-y
  3. Chiu LW. Teaching tips for dermatology residents. Cutis. 2024;113:E17-E19. doi:10.12788/cutis.1046
  4. Duniphin DD. Limited access to dermatology specialty care: barriers and teledermatology. Dermatol Pract Concept. 2023;13:E2023031. doi:10.5826/dpc.1301a31
  5. Ibrahim AE, Magdy M, Khalaf EM, et al. Teledermatology in the time of COVID-19. Int J Clin Pract. 2021;75:e15000. doi:10.1111/ijcp.15000
  6. Farr MA, Duvic M, Joshi TP. Teledermatology during COVID-19: an updated review. Am J Clin Dermatol. 2021;22:467-475. doi:10.1007/s40257-021-00601-y
  7. Lipner SR. Optimizing patient care with teledermatology: improving access, efficiency, and satisfaction. Cutis. 2024;114:63-64. doi:10.12788/cutis.1073
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Cutis. 2024 October;114(4):E24-E25. doi:10.12788/cutis.1127

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Cutis. 2024 October;114(4):E24-E25. doi:10.12788/cutis.1127

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The sun often is rising in the rearview mirror as I travel with the University of New Mexico dermatology team from Albuquerque to our satellite clinic in Gallup, New Mexico. This twice-monthly trip—with a group usually comprising an attending physician, residents, and medical students—provides an invaluable opportunity for me to take part in delivering care to a majority Native American population and connects our institution and its trainees to the state’s rural and indigenous cultures and communities.

Community outreach is an important initiative for many dermatology residency training programs. Engaging with the community outside the clinic setting allows residents to hone their clinical skills, interact with and meet new people, and help to improve access to health care, especially for members of underserved populations.

Limited access to health care remains a pressing issue in the United States, especially for underserved and rural communities. There currently is no standardized way to measure access to care, but multiple contributing factors have been identified, including but not limited to patient wait times and throughput, provider turnover, ratio of dermatologists to patient population, insurance type, and patient outcomes.1 Fortunately, there are many ways for dermatology residents to get involved and improve access to dermatologic services in their communities, including skin cancer screenings, free clinics, and teledermatology.

Skin Cancer Screenings

More than 40% of community outreach initiatives offered by dermatology residency programs are related to skin cancer screening and prevention.2 The American Academy of Dermatology’s free skin cancer check program (https://www.aad.org/member/career/volunteer/spot) offers a way to participate in or even host a skin cancer screening in your community. Since 1985, this program has identified nearly 300,000 suspicious lesions and more than 30,000 suspected melanomas. Resources for setting up a skin cancer screening in your community are available on the program’s website. Residents may take this opportunity to teach medical students how to perform full-body skin examinations and/or practice making independent decisions as the supervisor for medical trainees. Skin cancer screening events not only expand access to care in underserved communities but also help residents feel more connected to the local community, especially if they have moved to a new location for their residency training.

Free Clinics

Engaging in educational opportunities offered through residency programs is another way to participate in community outreach. In particular, many programs are affiliated with a School of Medicine within their institution that allows residents to spearhead volunteer opportunities such as working at a free clinic. In fact, more than 30% of initiatives offered at dermatology residency programs are free general dermatology clinics.2 Residents are in the unique position of being both learners themselves as well as educators to trainees.3 As part of our role, we can provide crucial specialty care to the community by working in concert with medical students and while also familiarizing ourselves with treating populations that we may not reach in our daily clinical work. For example, by participating in free clinics, we can provide care to vulnerable populations who typically may have financial or time barriers that prevent them from seeking care at the institution-associated clinic, including individuals experiencing homelessness, patients who are uninsured, and individuals who cannot take time off work to pursue medical care. Our presence in the community helps to reduce barriers to specialty care, particularly in the field of dermatology where the access shortage in the context of rising skin cancer rates prompts public health concerns.4

Teledermatology

Teledermatology became a way to extend our reach in the community more than ever before during the COVID-19 pandemic. Advances in audio, visual, and data telecommunication have been particularly helpful in dermatology, a specialty that relies heavily on visual cues for diagnosis. Synchronous, asynchronous, and hybrid teledermatology services implemented during the pandemic have gained favor among patients and dermatologists and are still applied in current practice.5,6

For example, in the state of New Mexico (where there is a severe shortage of board-certified dermatologists to care for the state’s population), teledermatology has allowed rural providers of all specialties to consult University of New Mexico dermatologists by sending clinical photographs along with patient information and history via secure messaging. Instead of having the patient travel hundreds of miles to see the nearest dermatologist for their skin condition or endure long wait times to get in to see a specialist, primary providers now can initiate treatment or work-up for their patient’s skin issue in a timely manner with the use of teledermatology to consult specialists.

Teledermatology has demonstrated cost-effectiveness, accuracy, and efficiency in conveniently expanding access to care. It offers patients and dermatologists flexibility in receiving and delivering health care, respectively.7 As residents, learning how to navigate this technologic frontier in health care delivery is imperative, as it will remain a prevalent tool in the future care of our communities, particularly in underserved areas.

Final Thoughts

Through community outreach initiatives, dermatology residents have an opportunity not only to enrich our education but also to connect with and become closer to our patients. Skin cancer screenings, free clinics, and teledermatology have provided ways to reach more communities and remain important aspects of dermatology residency.

The sun often is rising in the rearview mirror as I travel with the University of New Mexico dermatology team from Albuquerque to our satellite clinic in Gallup, New Mexico. This twice-monthly trip—with a group usually comprising an attending physician, residents, and medical students—provides an invaluable opportunity for me to take part in delivering care to a majority Native American population and connects our institution and its trainees to the state’s rural and indigenous cultures and communities.

Community outreach is an important initiative for many dermatology residency training programs. Engaging with the community outside the clinic setting allows residents to hone their clinical skills, interact with and meet new people, and help to improve access to health care, especially for members of underserved populations.

Limited access to health care remains a pressing issue in the United States, especially for underserved and rural communities. There currently is no standardized way to measure access to care, but multiple contributing factors have been identified, including but not limited to patient wait times and throughput, provider turnover, ratio of dermatologists to patient population, insurance type, and patient outcomes.1 Fortunately, there are many ways for dermatology residents to get involved and improve access to dermatologic services in their communities, including skin cancer screenings, free clinics, and teledermatology.

Skin Cancer Screenings

More than 40% of community outreach initiatives offered by dermatology residency programs are related to skin cancer screening and prevention.2 The American Academy of Dermatology’s free skin cancer check program (https://www.aad.org/member/career/volunteer/spot) offers a way to participate in or even host a skin cancer screening in your community. Since 1985, this program has identified nearly 300,000 suspicious lesions and more than 30,000 suspected melanomas. Resources for setting up a skin cancer screening in your community are available on the program’s website. Residents may take this opportunity to teach medical students how to perform full-body skin examinations and/or practice making independent decisions as the supervisor for medical trainees. Skin cancer screening events not only expand access to care in underserved communities but also help residents feel more connected to the local community, especially if they have moved to a new location for their residency training.

Free Clinics

Engaging in educational opportunities offered through residency programs is another way to participate in community outreach. In particular, many programs are affiliated with a School of Medicine within their institution that allows residents to spearhead volunteer opportunities such as working at a free clinic. In fact, more than 30% of initiatives offered at dermatology residency programs are free general dermatology clinics.2 Residents are in the unique position of being both learners themselves as well as educators to trainees.3 As part of our role, we can provide crucial specialty care to the community by working in concert with medical students and while also familiarizing ourselves with treating populations that we may not reach in our daily clinical work. For example, by participating in free clinics, we can provide care to vulnerable populations who typically may have financial or time barriers that prevent them from seeking care at the institution-associated clinic, including individuals experiencing homelessness, patients who are uninsured, and individuals who cannot take time off work to pursue medical care. Our presence in the community helps to reduce barriers to specialty care, particularly in the field of dermatology where the access shortage in the context of rising skin cancer rates prompts public health concerns.4

Teledermatology

Teledermatology became a way to extend our reach in the community more than ever before during the COVID-19 pandemic. Advances in audio, visual, and data telecommunication have been particularly helpful in dermatology, a specialty that relies heavily on visual cues for diagnosis. Synchronous, asynchronous, and hybrid teledermatology services implemented during the pandemic have gained favor among patients and dermatologists and are still applied in current practice.5,6

For example, in the state of New Mexico (where there is a severe shortage of board-certified dermatologists to care for the state’s population), teledermatology has allowed rural providers of all specialties to consult University of New Mexico dermatologists by sending clinical photographs along with patient information and history via secure messaging. Instead of having the patient travel hundreds of miles to see the nearest dermatologist for their skin condition or endure long wait times to get in to see a specialist, primary providers now can initiate treatment or work-up for their patient’s skin issue in a timely manner with the use of teledermatology to consult specialists.

Teledermatology has demonstrated cost-effectiveness, accuracy, and efficiency in conveniently expanding access to care. It offers patients and dermatologists flexibility in receiving and delivering health care, respectively.7 As residents, learning how to navigate this technologic frontier in health care delivery is imperative, as it will remain a prevalent tool in the future care of our communities, particularly in underserved areas.

Final Thoughts

Through community outreach initiatives, dermatology residents have an opportunity not only to enrich our education but also to connect with and become closer to our patients. Skin cancer screenings, free clinics, and teledermatology have provided ways to reach more communities and remain important aspects of dermatology residency.

References
  1. Patel B, Blalock TW. Defining “access to care” for dermatology at academic medical institutions. J Am Acad Dermatol. 2023;89:627-628. doi:10.1016/j.jaad.2023.03.014
  2. Fritsche M, Maglakelidze N, Zaenglein A, et al. Community outreach initiatives in dermatology: cross-sectional study. Arch Dermatol Res. 2023;315:2693-2695. doi:10.1007/s00403-023-02629-y
  3. Chiu LW. Teaching tips for dermatology residents. Cutis. 2024;113:E17-E19. doi:10.12788/cutis.1046
  4. Duniphin DD. Limited access to dermatology specialty care: barriers and teledermatology. Dermatol Pract Concept. 2023;13:E2023031. doi:10.5826/dpc.1301a31
  5. Ibrahim AE, Magdy M, Khalaf EM, et al. Teledermatology in the time of COVID-19. Int J Clin Pract. 2021;75:e15000. doi:10.1111/ijcp.15000
  6. Farr MA, Duvic M, Joshi TP. Teledermatology during COVID-19: an updated review. Am J Clin Dermatol. 2021;22:467-475. doi:10.1007/s40257-021-00601-y
  7. Lipner SR. Optimizing patient care with teledermatology: improving access, efficiency, and satisfaction. Cutis. 2024;114:63-64. doi:10.12788/cutis.1073
References
  1. Patel B, Blalock TW. Defining “access to care” for dermatology at academic medical institutions. J Am Acad Dermatol. 2023;89:627-628. doi:10.1016/j.jaad.2023.03.014
  2. Fritsche M, Maglakelidze N, Zaenglein A, et al. Community outreach initiatives in dermatology: cross-sectional study. Arch Dermatol Res. 2023;315:2693-2695. doi:10.1007/s00403-023-02629-y
  3. Chiu LW. Teaching tips for dermatology residents. Cutis. 2024;113:E17-E19. doi:10.12788/cutis.1046
  4. Duniphin DD. Limited access to dermatology specialty care: barriers and teledermatology. Dermatol Pract Concept. 2023;13:E2023031. doi:10.5826/dpc.1301a31
  5. Ibrahim AE, Magdy M, Khalaf EM, et al. Teledermatology in the time of COVID-19. Int J Clin Pract. 2021;75:e15000. doi:10.1111/ijcp.15000
  6. Farr MA, Duvic M, Joshi TP. Teledermatology during COVID-19: an updated review. Am J Clin Dermatol. 2021;22:467-475. doi:10.1007/s40257-021-00601-y
  7. Lipner SR. Optimizing patient care with teledermatology: improving access, efficiency, and satisfaction. Cutis. 2024;114:63-64. doi:10.12788/cutis.1073
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  • Outreach initiatives can help residents feel more connected to their community and expand access to care.
  • Skin cancer screenings, free clinics, and teledermatology are a few ways residents may get involved in their local communities.
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Eruption of Multiple Linear Hyperpigmented Plaques

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Eruption of Multiple Linear Hyperpigmented Plaques

THE DIAGNOSIS: Chemotherapy-Induced Flagellate Dermatitis

Based on the clinical presentation and temporal relation with chemotherapy, a diagnosis of bleomycininduced flagellate dermatitis (FD) was made, as bleomycin is the only chemotherapeutic agent from this regimen that has been linked with FD.1,2 Laboratory findings revealed eosinophilia, further supporting a druginduced dermatitis. The patient was treated with oral steroids and diphenhydramine to alleviate itching and discomfort. The chemotherapy was temporarily discontinued until symptomatic improvement was observed within 2 to 3 days.

Flagellate dermatitis is characterized by unique erythematous, linear, intermingled streaks of adjoining firm papules—often preceded by a prodrome of global pruritus—that eventually become hyperpigmented as the erythema subsides. The clinical manifestation of FD can be idiopathic; true/mechanical (dermatitis artefacta, abuse, sadomasochism); chemotherapy induced (peplomycin, trastuzumab, cisplatin, docetaxel, bendamustine); toxin induced (shiitake mushroom, cnidarian stings, Paederus insects); related to rheumatologic diseases (dermatomyositis, adult-onset Still disease), dermatographism, phytophotodermatitis, or poison ivy dermatitis; or induced by chikungunya fever.1

The term flagellate originates from the Latin word flagellum, which pertains to the distinctive whiplike pattern. It was first described by Moulin et al3 in 1970 in reference to bleomycin-induced linear hyperpigmentation. Bleomycin, a glycopeptide antibiotic derived from Streptomyces verticillus, is used to treat Hodgkin lymphoma, squamous cell carcinoma, and germ cell tumors. The worldwide incidence of bleomycin-induced FD is 8% to 22% and commonly is associated with a cumulative dose greater than 100 U.2 Clinical presentation is variable in terms of onset, distribution, and morphology of the eruption and could be independent of dose, route of administration, or type of malignancy being treated. The flagellate rash commonly involves the trunk, arms, and legs; can develop within hours to 6 months of starting bleomycin therapy; often is preceded by generalized itching; and eventually heals with hyperpigmentation.

Possible mechanisms of bleomycin-induced FD include localized melanogenesis, inflammatory pigmentary incontinence, alterations to normal pigmentation patterns, cytotoxic effects of the drug itself, minor trauma/ scratching leading to increased blood flow and causing local accumulation of bleomycin, heat recall, and reduced epidermal turnover leading to extended interaction between keratinocytes and melanocytes.2 Heat exposure can act as a trigger for bleomycin-induced skin rash recall even months after the treatment is stopped.

Apart from discontinuing the drug, there is no specific treatment available for bleomycin-induced FD. The primary objective of treatment is to alleviate pruritus, which often involves the use of topical or systemic corticosteroids and oral antihistamines. The duration of treatment depends on the patient’s clinical response. Once treatment is discontinued, FD typically resolves within 6 to 8 months. However, there can be a permanent postinflammatory hyperpigmentation in the affected area.4 Although there is a concern for increased mortality after postponement of chemotherapy,5 the decision to proceed with or discontinue the chemotherapy regimen necessitates a comprehensive interdisciplinary discussion and a meticulous assessment of the risks and benefits that is customized to each individual patient. Flagellate dermatitis can reoccur with bleomycin re-exposure; a combined approach of proactive topical and systemic steroid treatment seems to diminish the likelihood of FD recurrence.5

Our case underscores the importance of recognizing, detecting, and managing FD promptly in individuals undergoing bleomycin-based chemotherapy. Medical professionals should familiarize themselves with this distinct adverse effect linked to bleomycin, enabling prompt discontinuation if necessary, and educate patients about the condition’s typically temporary nature, thereby alleviating their concerns.

References
  1. Bhushan P, Manjul P, Baliyan V. Flagellate dermatoses. Indian J Dermatol Venereol Leprol. 2014;80:149-152.
  2. Ziemer M, Goetze S, Juhasz K, et al. Flagellate dermatitis as a bleomycinspecific adverse effect of cytostatic therapy: a clinical-histopathologic correlation. Am J Clin Dermatol. 2011;12:68-76. doi:10.2165/11537080-000000000-00000
  3. Moulin G, Fière B, Beyvin A. Cutaneous pigmentation caused by bleomycin. Article in French. Bull Soc Fr Dermatol Syphiligr. 1970;77:293-296.
  4. Biswas A, Chaudhari PB, Sharma P, et al. Bleomycin induced flagellate erythema: revisiting a unique complication. J Cancer Res Ther. 2013;9:500-503. doi:10.4103/0973-1482.119358
  5. Hanna TP, King WD, Thibodeau S, et al. Mortality due to cancer treatment delay: systematic review and meta-analysis. BMJ. 2020;371:m4087. doi:10.1136/bmj.m4087
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The authors have no relevant financial disclosures to report.

Correspondence: Mansi R. Satasia, MD, Saint Peters University Hospital, 254 Easton Ave, New Brunswick, NJ 08901 ([email protected]).

Cutis. 2024 October;114(4):E22-E23. doi:10.12788/cutis.1128

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The authors have no relevant financial disclosures to report.

Correspondence: Mansi R. Satasia, MD, Saint Peters University Hospital, 254 Easton Ave, New Brunswick, NJ 08901 ([email protected]).

Cutis. 2024 October;114(4):E22-E23. doi:10.12788/cutis.1128

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Drs. Satasia and Hamadani are from the Department of Internal Medicine, Saint Peter’s University Hospital, New Brunswick, New Jersey. Dr. Fein is from the Department of Oncology, Robert Wood Johnson University Hospital, New Brunswick.

The authors have no relevant financial disclosures to report.

Correspondence: Mansi R. Satasia, MD, Saint Peters University Hospital, 254 Easton Ave, New Brunswick, NJ 08901 ([email protected]).

Cutis. 2024 October;114(4):E22-E23. doi:10.12788/cutis.1128

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THE DIAGNOSIS: Chemotherapy-Induced Flagellate Dermatitis

Based on the clinical presentation and temporal relation with chemotherapy, a diagnosis of bleomycininduced flagellate dermatitis (FD) was made, as bleomycin is the only chemotherapeutic agent from this regimen that has been linked with FD.1,2 Laboratory findings revealed eosinophilia, further supporting a druginduced dermatitis. The patient was treated with oral steroids and diphenhydramine to alleviate itching and discomfort. The chemotherapy was temporarily discontinued until symptomatic improvement was observed within 2 to 3 days.

Flagellate dermatitis is characterized by unique erythematous, linear, intermingled streaks of adjoining firm papules—often preceded by a prodrome of global pruritus—that eventually become hyperpigmented as the erythema subsides. The clinical manifestation of FD can be idiopathic; true/mechanical (dermatitis artefacta, abuse, sadomasochism); chemotherapy induced (peplomycin, trastuzumab, cisplatin, docetaxel, bendamustine); toxin induced (shiitake mushroom, cnidarian stings, Paederus insects); related to rheumatologic diseases (dermatomyositis, adult-onset Still disease), dermatographism, phytophotodermatitis, or poison ivy dermatitis; or induced by chikungunya fever.1

The term flagellate originates from the Latin word flagellum, which pertains to the distinctive whiplike pattern. It was first described by Moulin et al3 in 1970 in reference to bleomycin-induced linear hyperpigmentation. Bleomycin, a glycopeptide antibiotic derived from Streptomyces verticillus, is used to treat Hodgkin lymphoma, squamous cell carcinoma, and germ cell tumors. The worldwide incidence of bleomycin-induced FD is 8% to 22% and commonly is associated with a cumulative dose greater than 100 U.2 Clinical presentation is variable in terms of onset, distribution, and morphology of the eruption and could be independent of dose, route of administration, or type of malignancy being treated. The flagellate rash commonly involves the trunk, arms, and legs; can develop within hours to 6 months of starting bleomycin therapy; often is preceded by generalized itching; and eventually heals with hyperpigmentation.

Possible mechanisms of bleomycin-induced FD include localized melanogenesis, inflammatory pigmentary incontinence, alterations to normal pigmentation patterns, cytotoxic effects of the drug itself, minor trauma/ scratching leading to increased blood flow and causing local accumulation of bleomycin, heat recall, and reduced epidermal turnover leading to extended interaction between keratinocytes and melanocytes.2 Heat exposure can act as a trigger for bleomycin-induced skin rash recall even months after the treatment is stopped.

Apart from discontinuing the drug, there is no specific treatment available for bleomycin-induced FD. The primary objective of treatment is to alleviate pruritus, which often involves the use of topical or systemic corticosteroids and oral antihistamines. The duration of treatment depends on the patient’s clinical response. Once treatment is discontinued, FD typically resolves within 6 to 8 months. However, there can be a permanent postinflammatory hyperpigmentation in the affected area.4 Although there is a concern for increased mortality after postponement of chemotherapy,5 the decision to proceed with or discontinue the chemotherapy regimen necessitates a comprehensive interdisciplinary discussion and a meticulous assessment of the risks and benefits that is customized to each individual patient. Flagellate dermatitis can reoccur with bleomycin re-exposure; a combined approach of proactive topical and systemic steroid treatment seems to diminish the likelihood of FD recurrence.5

Our case underscores the importance of recognizing, detecting, and managing FD promptly in individuals undergoing bleomycin-based chemotherapy. Medical professionals should familiarize themselves with this distinct adverse effect linked to bleomycin, enabling prompt discontinuation if necessary, and educate patients about the condition’s typically temporary nature, thereby alleviating their concerns.

THE DIAGNOSIS: Chemotherapy-Induced Flagellate Dermatitis

Based on the clinical presentation and temporal relation with chemotherapy, a diagnosis of bleomycininduced flagellate dermatitis (FD) was made, as bleomycin is the only chemotherapeutic agent from this regimen that has been linked with FD.1,2 Laboratory findings revealed eosinophilia, further supporting a druginduced dermatitis. The patient was treated with oral steroids and diphenhydramine to alleviate itching and discomfort. The chemotherapy was temporarily discontinued until symptomatic improvement was observed within 2 to 3 days.

Flagellate dermatitis is characterized by unique erythematous, linear, intermingled streaks of adjoining firm papules—often preceded by a prodrome of global pruritus—that eventually become hyperpigmented as the erythema subsides. The clinical manifestation of FD can be idiopathic; true/mechanical (dermatitis artefacta, abuse, sadomasochism); chemotherapy induced (peplomycin, trastuzumab, cisplatin, docetaxel, bendamustine); toxin induced (shiitake mushroom, cnidarian stings, Paederus insects); related to rheumatologic diseases (dermatomyositis, adult-onset Still disease), dermatographism, phytophotodermatitis, or poison ivy dermatitis; or induced by chikungunya fever.1

The term flagellate originates from the Latin word flagellum, which pertains to the distinctive whiplike pattern. It was first described by Moulin et al3 in 1970 in reference to bleomycin-induced linear hyperpigmentation. Bleomycin, a glycopeptide antibiotic derived from Streptomyces verticillus, is used to treat Hodgkin lymphoma, squamous cell carcinoma, and germ cell tumors. The worldwide incidence of bleomycin-induced FD is 8% to 22% and commonly is associated with a cumulative dose greater than 100 U.2 Clinical presentation is variable in terms of onset, distribution, and morphology of the eruption and could be independent of dose, route of administration, or type of malignancy being treated. The flagellate rash commonly involves the trunk, arms, and legs; can develop within hours to 6 months of starting bleomycin therapy; often is preceded by generalized itching; and eventually heals with hyperpigmentation.

Possible mechanisms of bleomycin-induced FD include localized melanogenesis, inflammatory pigmentary incontinence, alterations to normal pigmentation patterns, cytotoxic effects of the drug itself, minor trauma/ scratching leading to increased blood flow and causing local accumulation of bleomycin, heat recall, and reduced epidermal turnover leading to extended interaction between keratinocytes and melanocytes.2 Heat exposure can act as a trigger for bleomycin-induced skin rash recall even months after the treatment is stopped.

Apart from discontinuing the drug, there is no specific treatment available for bleomycin-induced FD. The primary objective of treatment is to alleviate pruritus, which often involves the use of topical or systemic corticosteroids and oral antihistamines. The duration of treatment depends on the patient’s clinical response. Once treatment is discontinued, FD typically resolves within 6 to 8 months. However, there can be a permanent postinflammatory hyperpigmentation in the affected area.4 Although there is a concern for increased mortality after postponement of chemotherapy,5 the decision to proceed with or discontinue the chemotherapy regimen necessitates a comprehensive interdisciplinary discussion and a meticulous assessment of the risks and benefits that is customized to each individual patient. Flagellate dermatitis can reoccur with bleomycin re-exposure; a combined approach of proactive topical and systemic steroid treatment seems to diminish the likelihood of FD recurrence.5

Our case underscores the importance of recognizing, detecting, and managing FD promptly in individuals undergoing bleomycin-based chemotherapy. Medical professionals should familiarize themselves with this distinct adverse effect linked to bleomycin, enabling prompt discontinuation if necessary, and educate patients about the condition’s typically temporary nature, thereby alleviating their concerns.

References
  1. Bhushan P, Manjul P, Baliyan V. Flagellate dermatoses. Indian J Dermatol Venereol Leprol. 2014;80:149-152.
  2. Ziemer M, Goetze S, Juhasz K, et al. Flagellate dermatitis as a bleomycinspecific adverse effect of cytostatic therapy: a clinical-histopathologic correlation. Am J Clin Dermatol. 2011;12:68-76. doi:10.2165/11537080-000000000-00000
  3. Moulin G, Fière B, Beyvin A. Cutaneous pigmentation caused by bleomycin. Article in French. Bull Soc Fr Dermatol Syphiligr. 1970;77:293-296.
  4. Biswas A, Chaudhari PB, Sharma P, et al. Bleomycin induced flagellate erythema: revisiting a unique complication. J Cancer Res Ther. 2013;9:500-503. doi:10.4103/0973-1482.119358
  5. Hanna TP, King WD, Thibodeau S, et al. Mortality due to cancer treatment delay: systematic review and meta-analysis. BMJ. 2020;371:m4087. doi:10.1136/bmj.m4087
References
  1. Bhushan P, Manjul P, Baliyan V. Flagellate dermatoses. Indian J Dermatol Venereol Leprol. 2014;80:149-152.
  2. Ziemer M, Goetze S, Juhasz K, et al. Flagellate dermatitis as a bleomycinspecific adverse effect of cytostatic therapy: a clinical-histopathologic correlation. Am J Clin Dermatol. 2011;12:68-76. doi:10.2165/11537080-000000000-00000
  3. Moulin G, Fière B, Beyvin A. Cutaneous pigmentation caused by bleomycin. Article in French. Bull Soc Fr Dermatol Syphiligr. 1970;77:293-296.
  4. Biswas A, Chaudhari PB, Sharma P, et al. Bleomycin induced flagellate erythema: revisiting a unique complication. J Cancer Res Ther. 2013;9:500-503. doi:10.4103/0973-1482.119358
  5. Hanna TP, King WD, Thibodeau S, et al. Mortality due to cancer treatment delay: systematic review and meta-analysis. BMJ. 2020;371:m4087. doi:10.1136/bmj.m4087
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A 28-year-old man presented for evaluation of an intensely itchy rash of 5 days’ duration involving the face, trunk, arms, and legs. The patient recently had been diagnosed with classical Hodgkin lymphoma and was started on a biweekly chemotherapy regimen of adriamycin, bleomycin, vinblastine, and dacarbazine 3 weeks prior. He reported that a red, itchy, papular rash had developed on the hands 1 week after starting chemotherapy and improved with antihistamines. Symptoms of the current rash included night sweats, occasional fever, substantial unintentional weight loss, and fatigue. He had no history of urticaria, angioedema, anaphylaxis, or nail changes.

Physical examination revealed widespread, itchy, linear and curvilinear hyperpigmented plaques on the upper arms, shoulders, back (top), face, and thighs, as well as erythematous grouped papules on the bilateral palms (bottom). There was no mucosal or systemic involvement.

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Six Tips for Media Interviews

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As a physician, you might be contacted by the media to provide your professional opinion and advice. Or you might be looking for media interview opportunities to market your practice or side project. And if you do research, media interviews can be an effective way to spread the word. It’s important to prepare for a media interview so that you achieve the outcome you are looking for. Here are six tips I learned from writing health articles, interviewing experts, and being interviewed myself. 

Keep your message simple. When you are a subject expert, you might think that the basics are obvious or even boring, and that the nuances are more important. However, most of the audience is looking for big-picture information that they can apply to their lives. Consider a few key takeaways, keeping in mind that your interview is likely to be edited to short sound bites or a few quotes. It may help to jot down notes so that you cover the fundamentals clearly. You could even write and rehearse a script beforehand. If there is something complicated or subtle that you want to convey, you can preface it by saying, “This is confusing but very important …” to let the audience know to give extra consideration to what you are about to say.

Avoid extremes and hyperbole. Sometimes, exaggerated statements make their way into medical discussions. Statements such as “it doesn’t matter how many calories you consume — it’s all about the quality” are common oversimplifications. But you might be upset to see your name next to a comment like this because it is not actually correct. Check the phrasing of your key takeaways to avoid being stuck defending or explaining an inaccurate statement when your patients ask you about it later. 

Ask the interviewers what they are looking for. Many medical topics have some controversial element, so it is good to know what you’re getting into. Find out the purpose of the article or interview before you decide whether it is right for you. It could be about another doctor in town who is being sued; if you don’t want to be associated with that story, it might be best to decline the interview. 

Explain your goals. You might accept or pursue an interview to raise awareness about an underrecognized condition. You might want the public to identify and get help for early symptoms, or you might want to create empathy for people coping with a disease you treat. Consider why you are participating in an interview, and communicate that to the interviewer to ensure that your objective can be part of the final product. 

Know whom you’re dealing with. It is good to learn about the publication/media channel before you agree to participate. It may have a political bias, or perhaps the interview is intended to promote a specific product. If you agree with and support their purposes, then you may be happy to lend your opinion. But learning about the “voice” of the publication in advance allows you to make an informed decision about whether you want to be identified with a particular political ideology or product endorsement.

Ask to see your quotes before publication. It’s good to have the opportunity to make corrections in case you are accidentally misquoted or misunderstood. It is best to ask to see quotes before you agree to the interview. Some reporters may agree to (or even prefer) a written question-and-answer format so that they can directly quote your responses without rephrasing your words. You could suggest this, especially if you are too busy for a call or live meeting.

As a physician, your insights and advice can be highly beneficial to others. You can also use media interviews to propel your career forward. Doing your homework can ensure that you will be pleased with the final product and how your words were used. 
 

Dr. Moawad, Clinical Assistant Professor, Department of Medical Education, Case Western Reserve University School of Medicine, Cleveland, Ohio, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

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As a physician, you might be contacted by the media to provide your professional opinion and advice. Or you might be looking for media interview opportunities to market your practice or side project. And if you do research, media interviews can be an effective way to spread the word. It’s important to prepare for a media interview so that you achieve the outcome you are looking for. Here are six tips I learned from writing health articles, interviewing experts, and being interviewed myself. 

Keep your message simple. When you are a subject expert, you might think that the basics are obvious or even boring, and that the nuances are more important. However, most of the audience is looking for big-picture information that they can apply to their lives. Consider a few key takeaways, keeping in mind that your interview is likely to be edited to short sound bites or a few quotes. It may help to jot down notes so that you cover the fundamentals clearly. You could even write and rehearse a script beforehand. If there is something complicated or subtle that you want to convey, you can preface it by saying, “This is confusing but very important …” to let the audience know to give extra consideration to what you are about to say.

Avoid extremes and hyperbole. Sometimes, exaggerated statements make their way into medical discussions. Statements such as “it doesn’t matter how many calories you consume — it’s all about the quality” are common oversimplifications. But you might be upset to see your name next to a comment like this because it is not actually correct. Check the phrasing of your key takeaways to avoid being stuck defending or explaining an inaccurate statement when your patients ask you about it later. 

Ask the interviewers what they are looking for. Many medical topics have some controversial element, so it is good to know what you’re getting into. Find out the purpose of the article or interview before you decide whether it is right for you. It could be about another doctor in town who is being sued; if you don’t want to be associated with that story, it might be best to decline the interview. 

Explain your goals. You might accept or pursue an interview to raise awareness about an underrecognized condition. You might want the public to identify and get help for early symptoms, or you might want to create empathy for people coping with a disease you treat. Consider why you are participating in an interview, and communicate that to the interviewer to ensure that your objective can be part of the final product. 

Know whom you’re dealing with. It is good to learn about the publication/media channel before you agree to participate. It may have a political bias, or perhaps the interview is intended to promote a specific product. If you agree with and support their purposes, then you may be happy to lend your opinion. But learning about the “voice” of the publication in advance allows you to make an informed decision about whether you want to be identified with a particular political ideology or product endorsement.

Ask to see your quotes before publication. It’s good to have the opportunity to make corrections in case you are accidentally misquoted or misunderstood. It is best to ask to see quotes before you agree to the interview. Some reporters may agree to (or even prefer) a written question-and-answer format so that they can directly quote your responses without rephrasing your words. You could suggest this, especially if you are too busy for a call or live meeting.

As a physician, your insights and advice can be highly beneficial to others. You can also use media interviews to propel your career forward. Doing your homework can ensure that you will be pleased with the final product and how your words were used. 
 

Dr. Moawad, Clinical Assistant Professor, Department of Medical Education, Case Western Reserve University School of Medicine, Cleveland, Ohio, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

As a physician, you might be contacted by the media to provide your professional opinion and advice. Or you might be looking for media interview opportunities to market your practice or side project. And if you do research, media interviews can be an effective way to spread the word. It’s important to prepare for a media interview so that you achieve the outcome you are looking for. Here are six tips I learned from writing health articles, interviewing experts, and being interviewed myself. 

Keep your message simple. When you are a subject expert, you might think that the basics are obvious or even boring, and that the nuances are more important. However, most of the audience is looking for big-picture information that they can apply to their lives. Consider a few key takeaways, keeping in mind that your interview is likely to be edited to short sound bites or a few quotes. It may help to jot down notes so that you cover the fundamentals clearly. You could even write and rehearse a script beforehand. If there is something complicated or subtle that you want to convey, you can preface it by saying, “This is confusing but very important …” to let the audience know to give extra consideration to what you are about to say.

Avoid extremes and hyperbole. Sometimes, exaggerated statements make their way into medical discussions. Statements such as “it doesn’t matter how many calories you consume — it’s all about the quality” are common oversimplifications. But you might be upset to see your name next to a comment like this because it is not actually correct. Check the phrasing of your key takeaways to avoid being stuck defending or explaining an inaccurate statement when your patients ask you about it later. 

Ask the interviewers what they are looking for. Many medical topics have some controversial element, so it is good to know what you’re getting into. Find out the purpose of the article or interview before you decide whether it is right for you. It could be about another doctor in town who is being sued; if you don’t want to be associated with that story, it might be best to decline the interview. 

Explain your goals. You might accept or pursue an interview to raise awareness about an underrecognized condition. You might want the public to identify and get help for early symptoms, or you might want to create empathy for people coping with a disease you treat. Consider why you are participating in an interview, and communicate that to the interviewer to ensure that your objective can be part of the final product. 

Know whom you’re dealing with. It is good to learn about the publication/media channel before you agree to participate. It may have a political bias, or perhaps the interview is intended to promote a specific product. If you agree with and support their purposes, then you may be happy to lend your opinion. But learning about the “voice” of the publication in advance allows you to make an informed decision about whether you want to be identified with a particular political ideology or product endorsement.

Ask to see your quotes before publication. It’s good to have the opportunity to make corrections in case you are accidentally misquoted or misunderstood. It is best to ask to see quotes before you agree to the interview. Some reporters may agree to (or even prefer) a written question-and-answer format so that they can directly quote your responses without rephrasing your words. You could suggest this, especially if you are too busy for a call or live meeting.

As a physician, your insights and advice can be highly beneficial to others. You can also use media interviews to propel your career forward. Doing your homework can ensure that you will be pleased with the final product and how your words were used. 
 

Dr. Moawad, Clinical Assistant Professor, Department of Medical Education, Case Western Reserve University School of Medicine, Cleveland, Ohio, has disclosed no relevant financial relationships.

A version of this article appeared on Medscape.com.

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Study Finds Elevated Skin Cancer Risk Among US Veterans

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US veterans were nearly three times more likely to develop skin cancer than the general population, according to a large cross-sectional analysis of recent national data.

“US veterans are known to have increased risk of cancers and cancer morbidity compared to the general US population,” one of the study authors, Sepideh Ashrafzadeh, MD, a third-year dermatology resident at Massachusetts General Hospital, Boston, told this news organization following the annual meeting of the American Society for Dermatologic Surgery, where the results were presented. “There have been several studies that have shown that US veterans have an increased prevalence of melanoma compared to nonveterans,” she said, noting, however, that no study has investigated the prevalence of nonmelanoma skin cancers (NMSCs), which include basal cell carcinomas and squamous cell carcinomas, compared with the general population.

Dr. Ashrafzadeh
Dr. Sepideh Ashrafzadeh

To address this knowledge gap, the researchers performed a national cross-sectional study of adults aged 18 years or older from the 2019-2023 National Health Interview Surveys to examine the prevalence of melanoma and NMSCs among veterans compared with the general US population. They aggregated and tabulated the data by veteran status, defined as having served at any point in the US armed forces, reserves, or national guard, and by demographic and socioeconomic status variables. Next, they performed multivariate logistic regression for skin cancer risk adjusted for age, sex, race, ethnicity, urbanicity, and disability status.

The study population consisted of 14,301 veterans and 209,936 nonveterans. Compared with nonveterans, veterans were more likely to have been diagnosed with skin cancer at some point in their lives (7% vs 2.4%; P < .001); had a higher mean age of skin cancer diagnosis (61.1 vs 55.8 years; P < .001); were more likely to have been diagnosed with melanoma (2.8% vs 0.9%; P < .001), and were more likely to have been diagnosed with NMSC (4.4% vs 1.6%; P < .001).

The researchers found that older age, White race, non-Hispanic ethnicity, and veteran status were all associated with higher odds of developing NMSCs, even after adjusting for relevant covariates. Specifically, veterans had 1.23 higher odds of developing NMSC than the general population, while two factors were protective for developing NMSCs: Living in a rural setting (adjusted odds ratio [aOR], 0.78) and receiving supplemental security income or disability income (aOR, 0.69).

In another part of the study, the researchers evaluated demographic and socioeconomic variables associated with developing melanoma among veterans. These included the following: Male (aOR, 1.16), older age (50-64 years: aOR, 6.82; 65-74 years: aOR, 12.55; and 75 years or older: aOR, 16.16), White race (aOR, 9.24), and non-Hispanic ethnicity (aOR, 7.15).

“Veterans may have occupational risks such as sun and chemical exposure, as well as behavioral habits for sun protection, that may contribute to their elevated risk of melanoma and NMSCs,” Ashrafzadeh said. “Therefore, US veterans would benefit from targeted and regular skin cancer screenings, sun protective preventative resources such as hats and sunscreen, and access to medical and surgical care for diagnosis and treatment of skin cancers.”

Christine Ko, MD, professor of dermatology and pathology at Yale University, New Haven, Connecticut, who was asked to comment on the findings, said that a key strength of the study is that it drew from a nationally representative sample. “A limitation is that skin cancer was self-reported rather than based on documented medical histories,” Ko said. “The study confirms that skin cancer risk is higher in older individuals (> 75 as compared to < 50) and in individuals of self-reported white race and non-Hispanic ethnicity,” she added.

Neither the researchers nor Ko reported having relevant disclosures.
 

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

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US veterans were nearly three times more likely to develop skin cancer than the general population, according to a large cross-sectional analysis of recent national data.

“US veterans are known to have increased risk of cancers and cancer morbidity compared to the general US population,” one of the study authors, Sepideh Ashrafzadeh, MD, a third-year dermatology resident at Massachusetts General Hospital, Boston, told this news organization following the annual meeting of the American Society for Dermatologic Surgery, where the results were presented. “There have been several studies that have shown that US veterans have an increased prevalence of melanoma compared to nonveterans,” she said, noting, however, that no study has investigated the prevalence of nonmelanoma skin cancers (NMSCs), which include basal cell carcinomas and squamous cell carcinomas, compared with the general population.

Dr. Ashrafzadeh
Dr. Sepideh Ashrafzadeh

To address this knowledge gap, the researchers performed a national cross-sectional study of adults aged 18 years or older from the 2019-2023 National Health Interview Surveys to examine the prevalence of melanoma and NMSCs among veterans compared with the general US population. They aggregated and tabulated the data by veteran status, defined as having served at any point in the US armed forces, reserves, or national guard, and by demographic and socioeconomic status variables. Next, they performed multivariate logistic regression for skin cancer risk adjusted for age, sex, race, ethnicity, urbanicity, and disability status.

The study population consisted of 14,301 veterans and 209,936 nonveterans. Compared with nonveterans, veterans were more likely to have been diagnosed with skin cancer at some point in their lives (7% vs 2.4%; P < .001); had a higher mean age of skin cancer diagnosis (61.1 vs 55.8 years; P < .001); were more likely to have been diagnosed with melanoma (2.8% vs 0.9%; P < .001), and were more likely to have been diagnosed with NMSC (4.4% vs 1.6%; P < .001).

The researchers found that older age, White race, non-Hispanic ethnicity, and veteran status were all associated with higher odds of developing NMSCs, even after adjusting for relevant covariates. Specifically, veterans had 1.23 higher odds of developing NMSC than the general population, while two factors were protective for developing NMSCs: Living in a rural setting (adjusted odds ratio [aOR], 0.78) and receiving supplemental security income or disability income (aOR, 0.69).

In another part of the study, the researchers evaluated demographic and socioeconomic variables associated with developing melanoma among veterans. These included the following: Male (aOR, 1.16), older age (50-64 years: aOR, 6.82; 65-74 years: aOR, 12.55; and 75 years or older: aOR, 16.16), White race (aOR, 9.24), and non-Hispanic ethnicity (aOR, 7.15).

“Veterans may have occupational risks such as sun and chemical exposure, as well as behavioral habits for sun protection, that may contribute to their elevated risk of melanoma and NMSCs,” Ashrafzadeh said. “Therefore, US veterans would benefit from targeted and regular skin cancer screenings, sun protective preventative resources such as hats and sunscreen, and access to medical and surgical care for diagnosis and treatment of skin cancers.”

Christine Ko, MD, professor of dermatology and pathology at Yale University, New Haven, Connecticut, who was asked to comment on the findings, said that a key strength of the study is that it drew from a nationally representative sample. “A limitation is that skin cancer was self-reported rather than based on documented medical histories,” Ko said. “The study confirms that skin cancer risk is higher in older individuals (> 75 as compared to < 50) and in individuals of self-reported white race and non-Hispanic ethnicity,” she added.

Neither the researchers nor Ko reported having relevant disclosures.
 

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

US veterans were nearly three times more likely to develop skin cancer than the general population, according to a large cross-sectional analysis of recent national data.

“US veterans are known to have increased risk of cancers and cancer morbidity compared to the general US population,” one of the study authors, Sepideh Ashrafzadeh, MD, a third-year dermatology resident at Massachusetts General Hospital, Boston, told this news organization following the annual meeting of the American Society for Dermatologic Surgery, where the results were presented. “There have been several studies that have shown that US veterans have an increased prevalence of melanoma compared to nonveterans,” she said, noting, however, that no study has investigated the prevalence of nonmelanoma skin cancers (NMSCs), which include basal cell carcinomas and squamous cell carcinomas, compared with the general population.

Dr. Ashrafzadeh
Dr. Sepideh Ashrafzadeh

To address this knowledge gap, the researchers performed a national cross-sectional study of adults aged 18 years or older from the 2019-2023 National Health Interview Surveys to examine the prevalence of melanoma and NMSCs among veterans compared with the general US population. They aggregated and tabulated the data by veteran status, defined as having served at any point in the US armed forces, reserves, or national guard, and by demographic and socioeconomic status variables. Next, they performed multivariate logistic regression for skin cancer risk adjusted for age, sex, race, ethnicity, urbanicity, and disability status.

The study population consisted of 14,301 veterans and 209,936 nonveterans. Compared with nonveterans, veterans were more likely to have been diagnosed with skin cancer at some point in their lives (7% vs 2.4%; P < .001); had a higher mean age of skin cancer diagnosis (61.1 vs 55.8 years; P < .001); were more likely to have been diagnosed with melanoma (2.8% vs 0.9%; P < .001), and were more likely to have been diagnosed with NMSC (4.4% vs 1.6%; P < .001).

The researchers found that older age, White race, non-Hispanic ethnicity, and veteran status were all associated with higher odds of developing NMSCs, even after adjusting for relevant covariates. Specifically, veterans had 1.23 higher odds of developing NMSC than the general population, while two factors were protective for developing NMSCs: Living in a rural setting (adjusted odds ratio [aOR], 0.78) and receiving supplemental security income or disability income (aOR, 0.69).

In another part of the study, the researchers evaluated demographic and socioeconomic variables associated with developing melanoma among veterans. These included the following: Male (aOR, 1.16), older age (50-64 years: aOR, 6.82; 65-74 years: aOR, 12.55; and 75 years or older: aOR, 16.16), White race (aOR, 9.24), and non-Hispanic ethnicity (aOR, 7.15).

“Veterans may have occupational risks such as sun and chemical exposure, as well as behavioral habits for sun protection, that may contribute to their elevated risk of melanoma and NMSCs,” Ashrafzadeh said. “Therefore, US veterans would benefit from targeted and regular skin cancer screenings, sun protective preventative resources such as hats and sunscreen, and access to medical and surgical care for diagnosis and treatment of skin cancers.”

Christine Ko, MD, professor of dermatology and pathology at Yale University, New Haven, Connecticut, who was asked to comment on the findings, said that a key strength of the study is that it drew from a nationally representative sample. “A limitation is that skin cancer was self-reported rather than based on documented medical histories,” Ko said. “The study confirms that skin cancer risk is higher in older individuals (> 75 as compared to < 50) and in individuals of self-reported white race and non-Hispanic ethnicity,” she added.

Neither the researchers nor Ko reported having relevant disclosures.
 

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

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