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Treatment Options for Atopic Dermatitis in Children
Until recently, atopic dermatitis was considered a childhood disease that was self-limited over a few years. Emerging studies have shown that the burden of atopic dermatitis includes potential cardiac disease in adulthood, comorbidities including allergy and psychological disorders, and possible superinfection complications.
Dr Lawrence F. Eichenfield, chief of the department of pediatric and adolescent dermatology at Rady Children's Hospital, reports on biological, systemic, and topical treatments either currently in use or being studied for children suffering from atopic dermatitis. These studies include both steroid and steroid-sparing topical agents, a novel AhR modulating agent, as well as JAK inhibitors that are under active investigation.
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Lawrence F. Eichenfield, MD, Distinguished Professor; Vice Chair, Department of Dermatology and Pediatrics, University of California, San Diego; Chief, Department of Pediatric and Adolescent Dermatology, Rady Children's Hospital, San Diego, California.
Lawrence F. Eichenfield, MD, has disclosed the following relevant financial relationships:
Serve(d) as a director, officer, partner, employee, advisor, consultant, or trustee for: AbbVie; Dermavant; Dermira; Forte Biosciences; Galderma Laboratories; Incyte; Leo Pharma; Eli Lilly and Company; Otsuka; Novartis; Pfizer. Serve(d) as a speaker or a member of a speakers bureau for: Regeneron; Sanofi-Genzyme; Pfizer. Received research grant from: AbbVie; Regeneron; Sanofi Genzyme; Ortho Dermatology. Serve(d) on the data safety monitoring board for: Asana; Glenmark/Ichnos.
Until recently, atopic dermatitis was considered a childhood disease that was self-limited over a few years. Emerging studies have shown that the burden of atopic dermatitis includes potential cardiac disease in adulthood, comorbidities including allergy and psychological disorders, and possible superinfection complications.
Dr Lawrence F. Eichenfield, chief of the department of pediatric and adolescent dermatology at Rady Children's Hospital, reports on biological, systemic, and topical treatments either currently in use or being studied for children suffering from atopic dermatitis. These studies include both steroid and steroid-sparing topical agents, a novel AhR modulating agent, as well as JAK inhibitors that are under active investigation.
--
Lawrence F. Eichenfield, MD, Distinguished Professor; Vice Chair, Department of Dermatology and Pediatrics, University of California, San Diego; Chief, Department of Pediatric and Adolescent Dermatology, Rady Children's Hospital, San Diego, California.
Lawrence F. Eichenfield, MD, has disclosed the following relevant financial relationships:
Serve(d) as a director, officer, partner, employee, advisor, consultant, or trustee for: AbbVie; Dermavant; Dermira; Forte Biosciences; Galderma Laboratories; Incyte; Leo Pharma; Eli Lilly and Company; Otsuka; Novartis; Pfizer. Serve(d) as a speaker or a member of a speakers bureau for: Regeneron; Sanofi-Genzyme; Pfizer. Received research grant from: AbbVie; Regeneron; Sanofi Genzyme; Ortho Dermatology. Serve(d) on the data safety monitoring board for: Asana; Glenmark/Ichnos.
Until recently, atopic dermatitis was considered a childhood disease that was self-limited over a few years. Emerging studies have shown that the burden of atopic dermatitis includes potential cardiac disease in adulthood, comorbidities including allergy and psychological disorders, and possible superinfection complications.
Dr Lawrence F. Eichenfield, chief of the department of pediatric and adolescent dermatology at Rady Children's Hospital, reports on biological, systemic, and topical treatments either currently in use or being studied for children suffering from atopic dermatitis. These studies include both steroid and steroid-sparing topical agents, a novel AhR modulating agent, as well as JAK inhibitors that are under active investigation.
--
Lawrence F. Eichenfield, MD, Distinguished Professor; Vice Chair, Department of Dermatology and Pediatrics, University of California, San Diego; Chief, Department of Pediatric and Adolescent Dermatology, Rady Children's Hospital, San Diego, California.
Lawrence F. Eichenfield, MD, has disclosed the following relevant financial relationships:
Serve(d) as a director, officer, partner, employee, advisor, consultant, or trustee for: AbbVie; Dermavant; Dermira; Forte Biosciences; Galderma Laboratories; Incyte; Leo Pharma; Eli Lilly and Company; Otsuka; Novartis; Pfizer. Serve(d) as a speaker or a member of a speakers bureau for: Regeneron; Sanofi-Genzyme; Pfizer. Received research grant from: AbbVie; Regeneron; Sanofi Genzyme; Ortho Dermatology. Serve(d) on the data safety monitoring board for: Asana; Glenmark/Ichnos.
Data on atopic dermatitis risk factors are accumulating
, according to Zelma Chiesa Fuxench, MD.
This gene codes for profilaggrin, a protein, which is then cleaved to form filaggrin, which helps to organize the cytoskeleton of the skin and is an important structural component of the skin. The understanding is that patients who have filaggrin mutations tend to have earlier onset and more persistent disease, Dr. Chiesa Fuxench, of the department of dermatology at the University of Pennsylvania, Philadelphia, said during the Revolutionizing Atopic Dermatitis virtual symposium.
“Prior studies have shown that mutations in the FLG gene can confer a risk of developed AD that is two- to sevenfold with variants R501X and the 22804del4 frequently described. It is important to note that most of these findings have been described primarily in populations of European descent, with other variants being found in populations of African nation descent, and seem to be more prevalent in populations with early onset disease.”
Environmental factors
Other AD-related risk factors that have been previously described in the literature include environmental factors such as climate, diet, breastfeeding, obesity, pollution, tobacco smoke, pet ownership, and microbiome or gut microflora. “The list of culprits is ever increasing,” she said. “However, it’s important to recognize that data to support some of these associations are lacking, and oftentimes, a lot of the results are contradictory.”
As part of the International Study of Asthma and Allergies in Childhood, researchers evaluated the association between climate factors with the 12-month period prevalence rates of symptoms of atopic eczema in children. They found that patients who lived at higher latitudes and those who lived in areas where there were lower mean outdoor temperatures tended to have a higher prevalence of eczema symptoms. Worldwide, they found that symptoms of eczema were also prevalent in areas where there was lower indoor humidity.
“The authors concluded that they can’t really demonstrate a cause and effect, and that while latitude and temperature changes appear to affect the prevalence of eczema, they may do so indirectly, perhaps to changes in behavior and differences in sun exposure,” said Dr. Chiesa Fuxench, who was not involved with the study. “For example, we know that vitamin D is a protective risk factor for AD. Low vitamin D has been associated with more severe disease in some studies. We also know that UV exposure leads to the conversion of filaggrin degradation products such as trans-urocanic acid into cis-urocanic acid, which has been demonstrated to have immunosuppressive effects.”
A systematic review and meta-analysis of nine articles found small associations, which were significant, between being born in the winter (odds ratio, 1.15) and fall (OR, 1.16) and the risk of developing AD, compared with being born in the spring and summer. However, an analysis of satellite-derived data on air temperature across the United States from 1993 to 2011 found that as ambient air temperature increases, so did the risk for an ambulatory visit for AD to physicians from the National Ambulatory Medical Care Survey.
In all areas but the south, the largest number of AD visits occur in the spring. In the south, more AD visits occur in the summer. “This raises the point that we don’t really know everything when it comes to the influence of temperature and climate change on AD,” Dr. Chiesa Fuxench said.
Several maternal and neonatal risk factors for AD have been described in the literature, including the effect of prenatal exposure to antibiotics. In one large analysis, investigators assessed the association among 18-month-old children in the Danish National Birth Cohort, which included 62,560 mother-child pairs. They found that prenatal antibiotic use was associated with an increased odds of AD among children born to atopic mothers but only when used during all three trimesters (adjusted OR, 1.45). When they further stratified these analyses by type of birth (vaginal versus C-section), the association persisted in both groups, but was stronger among those delivered by C-section.
Probiotics
The role of probiotics to reduce the risk for AD has also been investigated. “We do know that probiotics could potentially be helpful, and it is often a readily available intervention,” Dr. Chiesa Fuxench said. “But the question still is how and when to supplement.”
In a systematic review and meta-analysis, researchers examined supplementation with probiotics given to breastfeeding mothers, pregnant mothers, or directly given to infants, and the risk of developing AD up to 18 months of age. They found that overall, probiotic exposure resulted in decreased risk of developing AD. In stratified analyses, the strongest association was observed for those who received probiotics during their pregnancy, during breastfeeding, and as an infant, which conferred about a 25% reduced risk.
Antibiotic exposure
What about early-life exposure to antibiotics on one’s risk for developing AD? A meta-analysis of 22 studies found that children who had been exposed to antibiotics during the first 2 years of life had an increased risk of eczema (OR, 1.26), compared with children who had not been exposed during the same period of time. “Interesting hypotheses can be generated from this study,” she said. “Perhaps future steps should focus on the impact of antibiotic exposure, the gut microbiome, and maternal risk factors for AD.”
In a separate study that supported these findings, researchers evaluated the association between the use of acid-suppressive medications and antibiotics during infancy and the development of allergic disease in early childhood. They found that exposure to either of these medications during the first six months of infancy resulted in a mild increased risk of developing AD, and concluded that they should be used during infancy only in situations of clear clinical benefit. “We should be good stewards of antibiotic use, in particular due to concern for antibiotic resistance in the population overall,” Dr. Chiesa Fuxench said.
Prevention strategies
Several AD prevention strategies have also been described in the medical literature, including the use of daily emollients during infancy. In a multicenter trial carried out in the United Kingdom, researchers tested whether daily use of emollient in the first year of life could prevent eczema in high-risk children, which was defined as having at least one first-degree relative with parent-reported eczema, allergic rhinitis, or asthma. The primary outcome was eczema at age 2 years. The researchers found no evidence to suggest that daily emollient use during the first year of life prevents eczema.
Another study, the PreventADALL trial of 2,397 infants, consisted of four treatment arms: a control group advised to follow national guidelines on infant nutrition; a skin intervention group that was asked to use skin emollients, a food intervention group with early introduction of peanut, cow’s milk, wheat, and egg, and a combined skin and food intervention. The investigators found no difference in the risk reduction of developing AD among patients who were treated with skin emollients or early complementary feeding, and concluded that these types of interventions should not be considered as interventions to prevent AD in this cohort of patients.
However, Dr. Chiesa Fuxench emphasized that emollients and moisturizers are an important part of the treatment regimen for AD patients. A Cochrane systematic review of nearly 80 randomized, controlled trials evaluating the use of emollients in eczema found that most moisturizers showed some beneficial effects in addition to active treatment, including prolonging the time to flare, reducing the number of flares, and reducing the amount of topical corticosteroids used.
For treatment, Dr. Chiesa Fuxench recommends a proactive approach focused on short-term induction therapy with intensive topical anti-inflammatories until the affected area is almost healed, followed by maintenance therapy that involves use of a long-term, low- to mid-potency steroid or a topical calcineurin inhibitor to previously affected areas. “These interventions have been shown to decrease the risk of recurrence and can shorten the treatment duration in the event of a flare,” she said.
She also favors a time-contingent approach to treating patients with AD. “As physicians, we tend to do our visits more as symptom contingent, which means when a patient is flaring. This reinforces the view that this is a difficult disease to treat, and that there is no hope,” she pointed out. But for chronic diseases, she added, “a time-contingent approach with appointments at set intervals leads to a different perception. It can result in better compliance, because skin care might be performed more regularly. It’s analogous to when you know you’re going to see the dentist so you floss more regularly the week before your appointment. There also seems to be less pressure on physicians and patients because you are seeing each other more frequently; you can talk more openly about what’s working and what’s not.”
Dr. Chiesa Fuxench reported having no disclosures relevant to her presentation.
, according to Zelma Chiesa Fuxench, MD.
This gene codes for profilaggrin, a protein, which is then cleaved to form filaggrin, which helps to organize the cytoskeleton of the skin and is an important structural component of the skin. The understanding is that patients who have filaggrin mutations tend to have earlier onset and more persistent disease, Dr. Chiesa Fuxench, of the department of dermatology at the University of Pennsylvania, Philadelphia, said during the Revolutionizing Atopic Dermatitis virtual symposium.
“Prior studies have shown that mutations in the FLG gene can confer a risk of developed AD that is two- to sevenfold with variants R501X and the 22804del4 frequently described. It is important to note that most of these findings have been described primarily in populations of European descent, with other variants being found in populations of African nation descent, and seem to be more prevalent in populations with early onset disease.”
Environmental factors
Other AD-related risk factors that have been previously described in the literature include environmental factors such as climate, diet, breastfeeding, obesity, pollution, tobacco smoke, pet ownership, and microbiome or gut microflora. “The list of culprits is ever increasing,” she said. “However, it’s important to recognize that data to support some of these associations are lacking, and oftentimes, a lot of the results are contradictory.”
As part of the International Study of Asthma and Allergies in Childhood, researchers evaluated the association between climate factors with the 12-month period prevalence rates of symptoms of atopic eczema in children. They found that patients who lived at higher latitudes and those who lived in areas where there were lower mean outdoor temperatures tended to have a higher prevalence of eczema symptoms. Worldwide, they found that symptoms of eczema were also prevalent in areas where there was lower indoor humidity.
“The authors concluded that they can’t really demonstrate a cause and effect, and that while latitude and temperature changes appear to affect the prevalence of eczema, they may do so indirectly, perhaps to changes in behavior and differences in sun exposure,” said Dr. Chiesa Fuxench, who was not involved with the study. “For example, we know that vitamin D is a protective risk factor for AD. Low vitamin D has been associated with more severe disease in some studies. We also know that UV exposure leads to the conversion of filaggrin degradation products such as trans-urocanic acid into cis-urocanic acid, which has been demonstrated to have immunosuppressive effects.”
A systematic review and meta-analysis of nine articles found small associations, which were significant, between being born in the winter (odds ratio, 1.15) and fall (OR, 1.16) and the risk of developing AD, compared with being born in the spring and summer. However, an analysis of satellite-derived data on air temperature across the United States from 1993 to 2011 found that as ambient air temperature increases, so did the risk for an ambulatory visit for AD to physicians from the National Ambulatory Medical Care Survey.
In all areas but the south, the largest number of AD visits occur in the spring. In the south, more AD visits occur in the summer. “This raises the point that we don’t really know everything when it comes to the influence of temperature and climate change on AD,” Dr. Chiesa Fuxench said.
Several maternal and neonatal risk factors for AD have been described in the literature, including the effect of prenatal exposure to antibiotics. In one large analysis, investigators assessed the association among 18-month-old children in the Danish National Birth Cohort, which included 62,560 mother-child pairs. They found that prenatal antibiotic use was associated with an increased odds of AD among children born to atopic mothers but only when used during all three trimesters (adjusted OR, 1.45). When they further stratified these analyses by type of birth (vaginal versus C-section), the association persisted in both groups, but was stronger among those delivered by C-section.
Probiotics
The role of probiotics to reduce the risk for AD has also been investigated. “We do know that probiotics could potentially be helpful, and it is often a readily available intervention,” Dr. Chiesa Fuxench said. “But the question still is how and when to supplement.”
In a systematic review and meta-analysis, researchers examined supplementation with probiotics given to breastfeeding mothers, pregnant mothers, or directly given to infants, and the risk of developing AD up to 18 months of age. They found that overall, probiotic exposure resulted in decreased risk of developing AD. In stratified analyses, the strongest association was observed for those who received probiotics during their pregnancy, during breastfeeding, and as an infant, which conferred about a 25% reduced risk.
Antibiotic exposure
What about early-life exposure to antibiotics on one’s risk for developing AD? A meta-analysis of 22 studies found that children who had been exposed to antibiotics during the first 2 years of life had an increased risk of eczema (OR, 1.26), compared with children who had not been exposed during the same period of time. “Interesting hypotheses can be generated from this study,” she said. “Perhaps future steps should focus on the impact of antibiotic exposure, the gut microbiome, and maternal risk factors for AD.”
In a separate study that supported these findings, researchers evaluated the association between the use of acid-suppressive medications and antibiotics during infancy and the development of allergic disease in early childhood. They found that exposure to either of these medications during the first six months of infancy resulted in a mild increased risk of developing AD, and concluded that they should be used during infancy only in situations of clear clinical benefit. “We should be good stewards of antibiotic use, in particular due to concern for antibiotic resistance in the population overall,” Dr. Chiesa Fuxench said.
Prevention strategies
Several AD prevention strategies have also been described in the medical literature, including the use of daily emollients during infancy. In a multicenter trial carried out in the United Kingdom, researchers tested whether daily use of emollient in the first year of life could prevent eczema in high-risk children, which was defined as having at least one first-degree relative with parent-reported eczema, allergic rhinitis, or asthma. The primary outcome was eczema at age 2 years. The researchers found no evidence to suggest that daily emollient use during the first year of life prevents eczema.
Another study, the PreventADALL trial of 2,397 infants, consisted of four treatment arms: a control group advised to follow national guidelines on infant nutrition; a skin intervention group that was asked to use skin emollients, a food intervention group with early introduction of peanut, cow’s milk, wheat, and egg, and a combined skin and food intervention. The investigators found no difference in the risk reduction of developing AD among patients who were treated with skin emollients or early complementary feeding, and concluded that these types of interventions should not be considered as interventions to prevent AD in this cohort of patients.
However, Dr. Chiesa Fuxench emphasized that emollients and moisturizers are an important part of the treatment regimen for AD patients. A Cochrane systematic review of nearly 80 randomized, controlled trials evaluating the use of emollients in eczema found that most moisturizers showed some beneficial effects in addition to active treatment, including prolonging the time to flare, reducing the number of flares, and reducing the amount of topical corticosteroids used.
For treatment, Dr. Chiesa Fuxench recommends a proactive approach focused on short-term induction therapy with intensive topical anti-inflammatories until the affected area is almost healed, followed by maintenance therapy that involves use of a long-term, low- to mid-potency steroid or a topical calcineurin inhibitor to previously affected areas. “These interventions have been shown to decrease the risk of recurrence and can shorten the treatment duration in the event of a flare,” she said.
She also favors a time-contingent approach to treating patients with AD. “As physicians, we tend to do our visits more as symptom contingent, which means when a patient is flaring. This reinforces the view that this is a difficult disease to treat, and that there is no hope,” she pointed out. But for chronic diseases, she added, “a time-contingent approach with appointments at set intervals leads to a different perception. It can result in better compliance, because skin care might be performed more regularly. It’s analogous to when you know you’re going to see the dentist so you floss more regularly the week before your appointment. There also seems to be less pressure on physicians and patients because you are seeing each other more frequently; you can talk more openly about what’s working and what’s not.”
Dr. Chiesa Fuxench reported having no disclosures relevant to her presentation.
, according to Zelma Chiesa Fuxench, MD.
This gene codes for profilaggrin, a protein, which is then cleaved to form filaggrin, which helps to organize the cytoskeleton of the skin and is an important structural component of the skin. The understanding is that patients who have filaggrin mutations tend to have earlier onset and more persistent disease, Dr. Chiesa Fuxench, of the department of dermatology at the University of Pennsylvania, Philadelphia, said during the Revolutionizing Atopic Dermatitis virtual symposium.
“Prior studies have shown that mutations in the FLG gene can confer a risk of developed AD that is two- to sevenfold with variants R501X and the 22804del4 frequently described. It is important to note that most of these findings have been described primarily in populations of European descent, with other variants being found in populations of African nation descent, and seem to be more prevalent in populations with early onset disease.”
Environmental factors
Other AD-related risk factors that have been previously described in the literature include environmental factors such as climate, diet, breastfeeding, obesity, pollution, tobacco smoke, pet ownership, and microbiome or gut microflora. “The list of culprits is ever increasing,” she said. “However, it’s important to recognize that data to support some of these associations are lacking, and oftentimes, a lot of the results are contradictory.”
As part of the International Study of Asthma and Allergies in Childhood, researchers evaluated the association between climate factors with the 12-month period prevalence rates of symptoms of atopic eczema in children. They found that patients who lived at higher latitudes and those who lived in areas where there were lower mean outdoor temperatures tended to have a higher prevalence of eczema symptoms. Worldwide, they found that symptoms of eczema were also prevalent in areas where there was lower indoor humidity.
“The authors concluded that they can’t really demonstrate a cause and effect, and that while latitude and temperature changes appear to affect the prevalence of eczema, they may do so indirectly, perhaps to changes in behavior and differences in sun exposure,” said Dr. Chiesa Fuxench, who was not involved with the study. “For example, we know that vitamin D is a protective risk factor for AD. Low vitamin D has been associated with more severe disease in some studies. We also know that UV exposure leads to the conversion of filaggrin degradation products such as trans-urocanic acid into cis-urocanic acid, which has been demonstrated to have immunosuppressive effects.”
A systematic review and meta-analysis of nine articles found small associations, which were significant, between being born in the winter (odds ratio, 1.15) and fall (OR, 1.16) and the risk of developing AD, compared with being born in the spring and summer. However, an analysis of satellite-derived data on air temperature across the United States from 1993 to 2011 found that as ambient air temperature increases, so did the risk for an ambulatory visit for AD to physicians from the National Ambulatory Medical Care Survey.
In all areas but the south, the largest number of AD visits occur in the spring. In the south, more AD visits occur in the summer. “This raises the point that we don’t really know everything when it comes to the influence of temperature and climate change on AD,” Dr. Chiesa Fuxench said.
Several maternal and neonatal risk factors for AD have been described in the literature, including the effect of prenatal exposure to antibiotics. In one large analysis, investigators assessed the association among 18-month-old children in the Danish National Birth Cohort, which included 62,560 mother-child pairs. They found that prenatal antibiotic use was associated with an increased odds of AD among children born to atopic mothers but only when used during all three trimesters (adjusted OR, 1.45). When they further stratified these analyses by type of birth (vaginal versus C-section), the association persisted in both groups, but was stronger among those delivered by C-section.
Probiotics
The role of probiotics to reduce the risk for AD has also been investigated. “We do know that probiotics could potentially be helpful, and it is often a readily available intervention,” Dr. Chiesa Fuxench said. “But the question still is how and when to supplement.”
In a systematic review and meta-analysis, researchers examined supplementation with probiotics given to breastfeeding mothers, pregnant mothers, or directly given to infants, and the risk of developing AD up to 18 months of age. They found that overall, probiotic exposure resulted in decreased risk of developing AD. In stratified analyses, the strongest association was observed for those who received probiotics during their pregnancy, during breastfeeding, and as an infant, which conferred about a 25% reduced risk.
Antibiotic exposure
What about early-life exposure to antibiotics on one’s risk for developing AD? A meta-analysis of 22 studies found that children who had been exposed to antibiotics during the first 2 years of life had an increased risk of eczema (OR, 1.26), compared with children who had not been exposed during the same period of time. “Interesting hypotheses can be generated from this study,” she said. “Perhaps future steps should focus on the impact of antibiotic exposure, the gut microbiome, and maternal risk factors for AD.”
In a separate study that supported these findings, researchers evaluated the association between the use of acid-suppressive medications and antibiotics during infancy and the development of allergic disease in early childhood. They found that exposure to either of these medications during the first six months of infancy resulted in a mild increased risk of developing AD, and concluded that they should be used during infancy only in situations of clear clinical benefit. “We should be good stewards of antibiotic use, in particular due to concern for antibiotic resistance in the population overall,” Dr. Chiesa Fuxench said.
Prevention strategies
Several AD prevention strategies have also been described in the medical literature, including the use of daily emollients during infancy. In a multicenter trial carried out in the United Kingdom, researchers tested whether daily use of emollient in the first year of life could prevent eczema in high-risk children, which was defined as having at least one first-degree relative with parent-reported eczema, allergic rhinitis, or asthma. The primary outcome was eczema at age 2 years. The researchers found no evidence to suggest that daily emollient use during the first year of life prevents eczema.
Another study, the PreventADALL trial of 2,397 infants, consisted of four treatment arms: a control group advised to follow national guidelines on infant nutrition; a skin intervention group that was asked to use skin emollients, a food intervention group with early introduction of peanut, cow’s milk, wheat, and egg, and a combined skin and food intervention. The investigators found no difference in the risk reduction of developing AD among patients who were treated with skin emollients or early complementary feeding, and concluded that these types of interventions should not be considered as interventions to prevent AD in this cohort of patients.
However, Dr. Chiesa Fuxench emphasized that emollients and moisturizers are an important part of the treatment regimen for AD patients. A Cochrane systematic review of nearly 80 randomized, controlled trials evaluating the use of emollients in eczema found that most moisturizers showed some beneficial effects in addition to active treatment, including prolonging the time to flare, reducing the number of flares, and reducing the amount of topical corticosteroids used.
For treatment, Dr. Chiesa Fuxench recommends a proactive approach focused on short-term induction therapy with intensive topical anti-inflammatories until the affected area is almost healed, followed by maintenance therapy that involves use of a long-term, low- to mid-potency steroid or a topical calcineurin inhibitor to previously affected areas. “These interventions have been shown to decrease the risk of recurrence and can shorten the treatment duration in the event of a flare,” she said.
She also favors a time-contingent approach to treating patients with AD. “As physicians, we tend to do our visits more as symptom contingent, which means when a patient is flaring. This reinforces the view that this is a difficult disease to treat, and that there is no hope,” she pointed out. But for chronic diseases, she added, “a time-contingent approach with appointments at set intervals leads to a different perception. It can result in better compliance, because skin care might be performed more regularly. It’s analogous to when you know you’re going to see the dentist so you floss more regularly the week before your appointment. There also seems to be less pressure on physicians and patients because you are seeing each other more frequently; you can talk more openly about what’s working and what’s not.”
Dr. Chiesa Fuxench reported having no disclosures relevant to her presentation.
FROM REVOLUTIONIZING AD 2020
Cumulative exposure to high-potency topical steroid doses drives osteoporosis fractures
In support of previously published case reports, in a dose-response relationship.
In a stepwise manner, the hazard ratios for major osteoporotic fracture (MOF) were found to start climbing incrementally for those with a cumulative topical steroid dose equivalent of more than 500 g of mometasone furoate when compared with exposure of 200-499 g, according to the team of investigators from the University of Copenhagen.
“Use of these drugs is very common, and we found an estimated population-attributable risk of as much as 4.3%,” the investigators reported in the study, published in JAMA Dermatology.
The retrospective cohort study drew data from the Danish National Patient Registry, which covers 99% of the country’s population. It was linked to the Danish National Prescription Registry, which captures data on pharmacy-dispensed medications. Data collected from the beginning of 2003 to the end of 2017 were evaluated.
Exposures to potent or very potent topical corticosteroids were converted into a single standard with potency equivalent to 1 mg/g of mometasone furoate. Four strata of exposure were compared to a reference exposure of 200-499 g. These were 500-999 g, 1,000-1,999 g, 2,000-9,999 g, and 10,000 g or greater.
For the first strata, the small increased risk for MOF did not reach significance (HR, 1.01; 95% confidence interval, 0.99-1.03), but each of the others did. These climbed from a 5% greater risk (HR 1.05 95% CI 1.02-1.08) for a cumulative exposure of 1,000 to 1,999 g, to a 10% greater risk (HR, 1.10; 95% CI, 1.07-1.13) for a cumulative exposure of 2,000-9,999 g, and finally to a 27% greater risk (HR, 1.27; 95% CI, 1.19-1.35) for a cumulative exposure of 10,000 g or higher.
The study included more than 700,000 individuals exposed to topical mometasone at a potency equivalent of 200 g or more over the study period. The reference group (200-499 g) was the largest (317,907 individuals). The first strata (500-999 g) included 186,359 patients; the second (1,000-1,999 g), 111,203 patients; the third (2,000-9,999 g), 94,334 patients; and the fifth (10,000 g or more), 13,448 patients.
“A 3% increase in the relative risk of osteoporosis and MOF was observed per doubling of the TCS dose,” according to the investigators.
Patients exposed to doses of high-potency topical steroids that put them at risk of MOF is limited but substantial, according to the senior author, Alexander Egeberg, MD, PhD, of the department of dermatology and allergy at Herlev and Gentofte Hospital, Copenhagen.
“It is true that the risk is modest for the average user of topical steroids,” Dr. Egeberg said in an interview. However, despite the fact that topical steroids are intended for short-term use, “2% of all our users had been exposed to the equivalent of 10,000 g of mometasone, which mean 100 tubes of 100 g.”
If the other two strata at significantly increased risk of MOF (greater than 1,000 g) are included, an additional 28% of all users are facing the potential for clinically significant osteoporosis, according to the Danish data.
The adverse effect of steroids on bone metabolism has been established previously, and several studies have linked systemic corticosteroid exposure, including inhaled corticosteroids, with increased risk of osteoporotic fracture. For example, one study showed that patients with chronic obstructive pulmonary disease on daily inhaled doses of the equivalent of fluticasone at or above 1,000 mcg for more than 4 years had about a 10% increased risk of MOF relative to those not exposed.
The data associate topical steroids with increased risk of osteoporotic fracture, but Dr. Egeberg said osteoporosis is not the only reason to use topical steroids prudently.
“It is important to keep in mind that osteoporosis and fractures are at the extreme end of the side-effect profile and that other side effects, such as striae formation, skin thinning, and dysregulated diabetes, can occur with much lower quantities of topical steroids,” Dr. Egeberg said
For avoiding this risk, “there are no specific cutoffs” recommended for topical steroids in current guidelines, but dermatologists should be aware that many of the indications for topical steroids, such as psoriasis and atopic dermatitis, involve skin with an impaired barrier function, exposing patients to an increased likelihood of absorption, according to Dr. Egeberg.
“A general rule of thumb that we use is that, if a patient with persistent disease activity requires a new prescription of the equivalent of 100 g mometasone every 1-2 months, it might be worth considering if there is a suitable alternative,” Dr. Egeberg said.
In an accompanying editorial, Rebecca D. Jackson, MD, of the division of endocrinology, diabetes, and metabolism in the department of internal medicine at Ohio State University, Columbus, agreed that no guidelines specific to avoiding the risks of topical corticosteroids are currently available, but she advised clinicians to be considering these risks nonetheless. In general, she suggested that topical steroids, like oral steroids, should be used at “the lowest dose for the shortest duration necessary to manage the underlying medical condition.”
The correlation between topical corticosteroids and increased risk of osteoporotic fracture, although not established previously in a large study, is not surprising, according to Victoria Werth, MD, chief of dermatology at the Philadelphia Veterans Affairs Hospital and professor of dermatology at the University of Pennsylvania, also in Philadelphia.
“Systemic absorption of potent topical steroids has previously been demonstrated with a rapid decrease in serum cortisol levels,” Dr. Werth said in an interview. She indicated that concern about the risk of osteoporosis imposed by use of potent steroids over large body surface areas is appropriate.
To minimize this risk, “it is reasonable to use the lowest dose of steroid possible and to try to substitute other medications when possible,” she said.
Dr. Egeberg reported financial relationships with Abbvie, Almirall, Bristol-Myers Squibb, Dermavant Sciences, Galderma, Janssen Pharmaceuticals, Eli Lilly, Novartis, Pfizer, Samsung, Bioepis, and UCB. Five authors had disclosures related to some of those pharmaceutical companies and/or others. Dr. Jackson had no disclosures.
In support of previously published case reports, in a dose-response relationship.
In a stepwise manner, the hazard ratios for major osteoporotic fracture (MOF) were found to start climbing incrementally for those with a cumulative topical steroid dose equivalent of more than 500 g of mometasone furoate when compared with exposure of 200-499 g, according to the team of investigators from the University of Copenhagen.
“Use of these drugs is very common, and we found an estimated population-attributable risk of as much as 4.3%,” the investigators reported in the study, published in JAMA Dermatology.
The retrospective cohort study drew data from the Danish National Patient Registry, which covers 99% of the country’s population. It was linked to the Danish National Prescription Registry, which captures data on pharmacy-dispensed medications. Data collected from the beginning of 2003 to the end of 2017 were evaluated.
Exposures to potent or very potent topical corticosteroids were converted into a single standard with potency equivalent to 1 mg/g of mometasone furoate. Four strata of exposure were compared to a reference exposure of 200-499 g. These were 500-999 g, 1,000-1,999 g, 2,000-9,999 g, and 10,000 g or greater.
For the first strata, the small increased risk for MOF did not reach significance (HR, 1.01; 95% confidence interval, 0.99-1.03), but each of the others did. These climbed from a 5% greater risk (HR 1.05 95% CI 1.02-1.08) for a cumulative exposure of 1,000 to 1,999 g, to a 10% greater risk (HR, 1.10; 95% CI, 1.07-1.13) for a cumulative exposure of 2,000-9,999 g, and finally to a 27% greater risk (HR, 1.27; 95% CI, 1.19-1.35) for a cumulative exposure of 10,000 g or higher.
The study included more than 700,000 individuals exposed to topical mometasone at a potency equivalent of 200 g or more over the study period. The reference group (200-499 g) was the largest (317,907 individuals). The first strata (500-999 g) included 186,359 patients; the second (1,000-1,999 g), 111,203 patients; the third (2,000-9,999 g), 94,334 patients; and the fifth (10,000 g or more), 13,448 patients.
“A 3% increase in the relative risk of osteoporosis and MOF was observed per doubling of the TCS dose,” according to the investigators.
Patients exposed to doses of high-potency topical steroids that put them at risk of MOF is limited but substantial, according to the senior author, Alexander Egeberg, MD, PhD, of the department of dermatology and allergy at Herlev and Gentofte Hospital, Copenhagen.
“It is true that the risk is modest for the average user of topical steroids,” Dr. Egeberg said in an interview. However, despite the fact that topical steroids are intended for short-term use, “2% of all our users had been exposed to the equivalent of 10,000 g of mometasone, which mean 100 tubes of 100 g.”
If the other two strata at significantly increased risk of MOF (greater than 1,000 g) are included, an additional 28% of all users are facing the potential for clinically significant osteoporosis, according to the Danish data.
The adverse effect of steroids on bone metabolism has been established previously, and several studies have linked systemic corticosteroid exposure, including inhaled corticosteroids, with increased risk of osteoporotic fracture. For example, one study showed that patients with chronic obstructive pulmonary disease on daily inhaled doses of the equivalent of fluticasone at or above 1,000 mcg for more than 4 years had about a 10% increased risk of MOF relative to those not exposed.
The data associate topical steroids with increased risk of osteoporotic fracture, but Dr. Egeberg said osteoporosis is not the only reason to use topical steroids prudently.
“It is important to keep in mind that osteoporosis and fractures are at the extreme end of the side-effect profile and that other side effects, such as striae formation, skin thinning, and dysregulated diabetes, can occur with much lower quantities of topical steroids,” Dr. Egeberg said
For avoiding this risk, “there are no specific cutoffs” recommended for topical steroids in current guidelines, but dermatologists should be aware that many of the indications for topical steroids, such as psoriasis and atopic dermatitis, involve skin with an impaired barrier function, exposing patients to an increased likelihood of absorption, according to Dr. Egeberg.
“A general rule of thumb that we use is that, if a patient with persistent disease activity requires a new prescription of the equivalent of 100 g mometasone every 1-2 months, it might be worth considering if there is a suitable alternative,” Dr. Egeberg said.
In an accompanying editorial, Rebecca D. Jackson, MD, of the division of endocrinology, diabetes, and metabolism in the department of internal medicine at Ohio State University, Columbus, agreed that no guidelines specific to avoiding the risks of topical corticosteroids are currently available, but she advised clinicians to be considering these risks nonetheless. In general, she suggested that topical steroids, like oral steroids, should be used at “the lowest dose for the shortest duration necessary to manage the underlying medical condition.”
The correlation between topical corticosteroids and increased risk of osteoporotic fracture, although not established previously in a large study, is not surprising, according to Victoria Werth, MD, chief of dermatology at the Philadelphia Veterans Affairs Hospital and professor of dermatology at the University of Pennsylvania, also in Philadelphia.
“Systemic absorption of potent topical steroids has previously been demonstrated with a rapid decrease in serum cortisol levels,” Dr. Werth said in an interview. She indicated that concern about the risk of osteoporosis imposed by use of potent steroids over large body surface areas is appropriate.
To minimize this risk, “it is reasonable to use the lowest dose of steroid possible and to try to substitute other medications when possible,” she said.
Dr. Egeberg reported financial relationships with Abbvie, Almirall, Bristol-Myers Squibb, Dermavant Sciences, Galderma, Janssen Pharmaceuticals, Eli Lilly, Novartis, Pfizer, Samsung, Bioepis, and UCB. Five authors had disclosures related to some of those pharmaceutical companies and/or others. Dr. Jackson had no disclosures.
In support of previously published case reports, in a dose-response relationship.
In a stepwise manner, the hazard ratios for major osteoporotic fracture (MOF) were found to start climbing incrementally for those with a cumulative topical steroid dose equivalent of more than 500 g of mometasone furoate when compared with exposure of 200-499 g, according to the team of investigators from the University of Copenhagen.
“Use of these drugs is very common, and we found an estimated population-attributable risk of as much as 4.3%,” the investigators reported in the study, published in JAMA Dermatology.
The retrospective cohort study drew data from the Danish National Patient Registry, which covers 99% of the country’s population. It was linked to the Danish National Prescription Registry, which captures data on pharmacy-dispensed medications. Data collected from the beginning of 2003 to the end of 2017 were evaluated.
Exposures to potent or very potent topical corticosteroids were converted into a single standard with potency equivalent to 1 mg/g of mometasone furoate. Four strata of exposure were compared to a reference exposure of 200-499 g. These were 500-999 g, 1,000-1,999 g, 2,000-9,999 g, and 10,000 g or greater.
For the first strata, the small increased risk for MOF did not reach significance (HR, 1.01; 95% confidence interval, 0.99-1.03), but each of the others did. These climbed from a 5% greater risk (HR 1.05 95% CI 1.02-1.08) for a cumulative exposure of 1,000 to 1,999 g, to a 10% greater risk (HR, 1.10; 95% CI, 1.07-1.13) for a cumulative exposure of 2,000-9,999 g, and finally to a 27% greater risk (HR, 1.27; 95% CI, 1.19-1.35) for a cumulative exposure of 10,000 g or higher.
The study included more than 700,000 individuals exposed to topical mometasone at a potency equivalent of 200 g or more over the study period. The reference group (200-499 g) was the largest (317,907 individuals). The first strata (500-999 g) included 186,359 patients; the second (1,000-1,999 g), 111,203 patients; the third (2,000-9,999 g), 94,334 patients; and the fifth (10,000 g or more), 13,448 patients.
“A 3% increase in the relative risk of osteoporosis and MOF was observed per doubling of the TCS dose,” according to the investigators.
Patients exposed to doses of high-potency topical steroids that put them at risk of MOF is limited but substantial, according to the senior author, Alexander Egeberg, MD, PhD, of the department of dermatology and allergy at Herlev and Gentofte Hospital, Copenhagen.
“It is true that the risk is modest for the average user of topical steroids,” Dr. Egeberg said in an interview. However, despite the fact that topical steroids are intended for short-term use, “2% of all our users had been exposed to the equivalent of 10,000 g of mometasone, which mean 100 tubes of 100 g.”
If the other two strata at significantly increased risk of MOF (greater than 1,000 g) are included, an additional 28% of all users are facing the potential for clinically significant osteoporosis, according to the Danish data.
The adverse effect of steroids on bone metabolism has been established previously, and several studies have linked systemic corticosteroid exposure, including inhaled corticosteroids, with increased risk of osteoporotic fracture. For example, one study showed that patients with chronic obstructive pulmonary disease on daily inhaled doses of the equivalent of fluticasone at or above 1,000 mcg for more than 4 years had about a 10% increased risk of MOF relative to those not exposed.
The data associate topical steroids with increased risk of osteoporotic fracture, but Dr. Egeberg said osteoporosis is not the only reason to use topical steroids prudently.
“It is important to keep in mind that osteoporosis and fractures are at the extreme end of the side-effect profile and that other side effects, such as striae formation, skin thinning, and dysregulated diabetes, can occur with much lower quantities of topical steroids,” Dr. Egeberg said
For avoiding this risk, “there are no specific cutoffs” recommended for topical steroids in current guidelines, but dermatologists should be aware that many of the indications for topical steroids, such as psoriasis and atopic dermatitis, involve skin with an impaired barrier function, exposing patients to an increased likelihood of absorption, according to Dr. Egeberg.
“A general rule of thumb that we use is that, if a patient with persistent disease activity requires a new prescription of the equivalent of 100 g mometasone every 1-2 months, it might be worth considering if there is a suitable alternative,” Dr. Egeberg said.
In an accompanying editorial, Rebecca D. Jackson, MD, of the division of endocrinology, diabetes, and metabolism in the department of internal medicine at Ohio State University, Columbus, agreed that no guidelines specific to avoiding the risks of topical corticosteroids are currently available, but she advised clinicians to be considering these risks nonetheless. In general, she suggested that topical steroids, like oral steroids, should be used at “the lowest dose for the shortest duration necessary to manage the underlying medical condition.”
The correlation between topical corticosteroids and increased risk of osteoporotic fracture, although not established previously in a large study, is not surprising, according to Victoria Werth, MD, chief of dermatology at the Philadelphia Veterans Affairs Hospital and professor of dermatology at the University of Pennsylvania, also in Philadelphia.
“Systemic absorption of potent topical steroids has previously been demonstrated with a rapid decrease in serum cortisol levels,” Dr. Werth said in an interview. She indicated that concern about the risk of osteoporosis imposed by use of potent steroids over large body surface areas is appropriate.
To minimize this risk, “it is reasonable to use the lowest dose of steroid possible and to try to substitute other medications when possible,” she said.
Dr. Egeberg reported financial relationships with Abbvie, Almirall, Bristol-Myers Squibb, Dermavant Sciences, Galderma, Janssen Pharmaceuticals, Eli Lilly, Novartis, Pfizer, Samsung, Bioepis, and UCB. Five authors had disclosures related to some of those pharmaceutical companies and/or others. Dr. Jackson had no disclosures.
FROM JAMA DERMATOLOGY
The cutaneous benefits of bee venom, Part I: Atopic dermatitis and acne
Honeybees, Apis mellifera, play an important role in the web of life. We rely on bees for pollinating approximately one-third of our crops, including multiple fruits, vegetables, nuts, and seeds.1,2 Bees are also instrumental in the propagation of other plants, flower nectar, and flower pollen. A. mellifera, the European honeybee, is the main pollinator in Europe and North America, but other species, including A. cerana, A. dorsata, A. floria, A. andreniformis, A. koschevnikov, and A. laboriosa, yield honey.3 Honey, propolis, and royal jelly, along with beeswax and bee pollen, are among some of the celebrated bee products that have been found to confer health benefits to human beings.4,5 Bee venom, a toxin bees use for protection, is a convoluted combination of peptides and toxic proteins such as phospholipase A2 (PLA2) and melittin that has garnered significant scientific attention of late and is used to treat various inflammatory conditions.6-8 This column will focus on the investigation of the use of bee venom to treat atopic dermatitis (AD) and acne.
Atopic dermatitis
In 2013, Kim et al. assessed the impact of bee venom on AD-related symptoms in mice, finding that it attenuated the effects of AD-simulating compounds in 48 of 80 patients injected subcutaneously. They concluded that bee venom acted by suppressing mast cell degranulation and proinflammatory cytokine expression.9 Three years later, You et al. conducted a double-blind, randomized, base-controlled multicenter study of 136 patients with AD to ascertain the effects of a bee venom emollient. For 4 weeks, patients applied an emollient with bee venom and silk protein or a vehicle lacking bee venom twice daily. Eczema area and severity index (EASI) scores were significantly lower in the bee venom group, as were the visual analogue scale (VAS) scores. The investigators concluded that bee venom is an effective and safe therapeutic choice for treating patients with AD.10 Further, in 2018, Shin et al. demonstrated that PLA2 derived from bee venom mitigates atopic skin inflammation via the CD206 mannose receptor. They had previously shown in a mouse model that PLA2 from bee venom exerts such activity against AD-like lesions induced by 2,4-dinitrochlorobenzene (DNCB) and house dust mite (Dermatophagoides farinae) extract.11 Gu et al. observed later that year that intraperitoneal administration of bee venom eased the symptoms of ovalbumin-induced AD-like skin lesions in an experimental mouse model. Bee venom also lowered serum immunoglobulin E levels and suppressed infiltration of eosinophils and mast cells. They concluded that bee venom is a viable alternative for attenuating the allergic skin inflammation characteristic of AD.12 At the end of 2018, An et al. reported on the use of an in vivo female Balb/c mouse AD model in which 1-chloro-DNCB acted as inducer in cultures of human keratinocytes, stimulated by TNF-alpha/IFN-gamma. The investigators found that bee venom and melittin displayed robust antiatopic effects as evidenced by reduced lesions. The bee products were also found to have hindered elevated expression of various chemokines and proinflammatory cytokines. The authors suggested that bee venom and melittin appear to warrant consideration as a topical treatment for AD.13 In 2019, Kim et al. demonstrated in mice that bee venom eases the symptoms of AD by inactivating the complement system, particularly through CD55 induction, which might account for its effectiveness in AD treatment in humans, they suggested.6 Early in 2020, Lee et al. demonstrated in a Balb/c mouse model that bee venom appears to be a possible therapeutic macromolecule for treating phthalic anhydride-induced AD.7
Acne
In 2013, in vitro experiments by Han et al. showed that purified bee venom exhibited antimicrobial activity, in a concentration-dependent manner, against Cutibacterium acnes (or Propionibacterium acnes). They followed up with a small randomized, double-blind, controlled trial with 12 subjects who were treated with cosmetics with pure bee venom or cosmetics without it for two weeks. The group receiving bee venom experienced significantly fewer inflammatory and noninflammatory lesions, and a significant decline in adenosine triphosphate levels (a 57.5% reduction) was noted in subjects in the bee venom group, with a nonsignificant decrease of 4.7% observed in the control group. The investigators concluded the purified bee venom may be suitable as an antiacne agent.14 Using a mouse model, An et al. studied the therapeutic effects of bee venom against C. acnes–induced skin inflammation. They found that bee venom significantly diminished the volume of infiltrated inflammatory cells in the treated mice, compared with untreated mice. Bee venom also decreased expression levels of tumor necrosis factor (TNF)-α, and interleukin (IL)-1beta and suppressed Toll-like receptor (TLR)2 and CD14 expression in C. acnes–injected tissue. The investigators concluded that bee venom imparts notable anti-inflammatory activity and has potential for use in treating acne and as an anti-inflammatory agent in skin care.15
In 2015, Kim et al. studied the influence of bee venom against C. acnes–induced inflammation in human keratinocytes (HaCaT) and monocytes (THP-1). They found that bee venom successfully suppressed the secretion of interferon-gamma, IL-1beta, IL-8, and TNF-alpha. It also galvanized the expression of IL-8 and TLR2 in HaCaT cells but hampered their expression in heat-killed C. acnes. The researchers concluded that bee venom displays considerable anti-inflammatory activity against C. acnes and warrants consideration as an alternative to antibiotic acne treatment.16 It is worth noting that early that year, in a comprehensive database review to evaluate the effects and safety of a wide range of complementary treatments for acne, Cao et al. found, among 35 studies including parallel-group randomized controlled trials, that one trial indicated bee venom was superior to control in lowering the number of acne lesions.17
Conclusion
More research, in the form of randomized, controlled trials, is required before bee venom can be incorporated into the dermatologic armamentarium as a first-line therapy for common and vexing cutaneous conditions. Nevertheless, .
Dr. Baumann is a private practice dermatologist, researcher, author, and entrepreneur who practices in Miami. She founded the Cosmetic Dermatology Center at the University of Miami in 1997. Dr. Baumann has written two textbooks and a New York Times Best Sellers book for consumers. Dr. Baumann has received funding for advisory boards and/or clinical research trials from Allergan, Galderma, Revance, Evolus, and Burt’s Bees. She is the CEO of Skin Type Solutions Inc., a company that independently tests skin care products and makes recommendations to physicians on which skin care technologies are best. Write to her at dermnews@mdedge.com.
References
1. Walsh B. The plight of the honeybee: Mass deaths in bee colonies may mean disaster for farmers – and your favorite Foods. Time Magazine, 2013 Aug 19.
2. Klein AM et al. Proc Biol Sci. 2007 Feb 7;274(1608):303-13. doi: 10.1098/rspb.2006.3721.
3. Ediriweera ER and Premarathna NY. AYU. 2012 Apr;33(2):178-82. doi: 10.4103/0974-8520.105233.
4. Baumann, L. Honey/Propolis/Royal Jelly. In Cosmeceuticals and Cosmetic Ingredients. New York:McGraw-Hill; 2014:203-212.
5. Cornara L et al. Front Pharmacol. 2017 Jun 28;8:412. doi: 10.3389/fphar.2017.00412.
6. Kim Y et al. Toxins (Basel). 2019 Apr 26;11(5):239. doi: 10.3390/toxins11050239.
7. Lee YJ et al. Inflammopharmacology. 2020 Feb;28(1):253-63. doi: 10.1007/s10787-019-00646-w.
8. Lee G and Bae H. Molecules. 2016 May 11;21(5):616. doi: 10.3390/molecules21050616.
9. Kim KH et al. Int J Clin Exp Pathol. 2013 Nov 15;6(12):2896-903.
10. You CE et al. Ann Dermatol. 2016 Oct;28(5):593-9. doi: 10.5021/ad.2016.28.5.593.
11. Shin D et al. Toxins (Basel). 2018 Apr 2;10(4):146. doi: 10.3390/toxins10040146.
12. Gu H et al. Mol Med Rep. 2018 Oct;18(4):3711-8. doi: 10.3892/mmr.2018.9398.
13. An HJ et al. Br J Pharmacol. 2018 Dec;175(23):4310-24. doi: 10.1111/bph.14487.
14. Han SM et al. J Integr Med. 2013 Sep;11(5):320-6. doi: 10.3736/jintegrmed2013043.
15. An HJ et al. Int J Mol Med. 2014 Nov;34(5):1341-8. doi: 10.3892/ijmm.2014.1933.
16. Kim JY et al. Int J Mol Med. 2015 Jun;35(6):1651-6. doi: 10.3892/ijmm.2015.2180.
17. Cao H et al. Cochrane Database Syst Rev. 2015 Jan 19;1:CD009436. doi: 10.1002/14651858.CD009436.pub2.
Honeybees, Apis mellifera, play an important role in the web of life. We rely on bees for pollinating approximately one-third of our crops, including multiple fruits, vegetables, nuts, and seeds.1,2 Bees are also instrumental in the propagation of other plants, flower nectar, and flower pollen. A. mellifera, the European honeybee, is the main pollinator in Europe and North America, but other species, including A. cerana, A. dorsata, A. floria, A. andreniformis, A. koschevnikov, and A. laboriosa, yield honey.3 Honey, propolis, and royal jelly, along with beeswax and bee pollen, are among some of the celebrated bee products that have been found to confer health benefits to human beings.4,5 Bee venom, a toxin bees use for protection, is a convoluted combination of peptides and toxic proteins such as phospholipase A2 (PLA2) and melittin that has garnered significant scientific attention of late and is used to treat various inflammatory conditions.6-8 This column will focus on the investigation of the use of bee venom to treat atopic dermatitis (AD) and acne.
Atopic dermatitis
In 2013, Kim et al. assessed the impact of bee venom on AD-related symptoms in mice, finding that it attenuated the effects of AD-simulating compounds in 48 of 80 patients injected subcutaneously. They concluded that bee venom acted by suppressing mast cell degranulation and proinflammatory cytokine expression.9 Three years later, You et al. conducted a double-blind, randomized, base-controlled multicenter study of 136 patients with AD to ascertain the effects of a bee venom emollient. For 4 weeks, patients applied an emollient with bee venom and silk protein or a vehicle lacking bee venom twice daily. Eczema area and severity index (EASI) scores were significantly lower in the bee venom group, as were the visual analogue scale (VAS) scores. The investigators concluded that bee venom is an effective and safe therapeutic choice for treating patients with AD.10 Further, in 2018, Shin et al. demonstrated that PLA2 derived from bee venom mitigates atopic skin inflammation via the CD206 mannose receptor. They had previously shown in a mouse model that PLA2 from bee venom exerts such activity against AD-like lesions induced by 2,4-dinitrochlorobenzene (DNCB) and house dust mite (Dermatophagoides farinae) extract.11 Gu et al. observed later that year that intraperitoneal administration of bee venom eased the symptoms of ovalbumin-induced AD-like skin lesions in an experimental mouse model. Bee venom also lowered serum immunoglobulin E levels and suppressed infiltration of eosinophils and mast cells. They concluded that bee venom is a viable alternative for attenuating the allergic skin inflammation characteristic of AD.12 At the end of 2018, An et al. reported on the use of an in vivo female Balb/c mouse AD model in which 1-chloro-DNCB acted as inducer in cultures of human keratinocytes, stimulated by TNF-alpha/IFN-gamma. The investigators found that bee venom and melittin displayed robust antiatopic effects as evidenced by reduced lesions. The bee products were also found to have hindered elevated expression of various chemokines and proinflammatory cytokines. The authors suggested that bee venom and melittin appear to warrant consideration as a topical treatment for AD.13 In 2019, Kim et al. demonstrated in mice that bee venom eases the symptoms of AD by inactivating the complement system, particularly through CD55 induction, which might account for its effectiveness in AD treatment in humans, they suggested.6 Early in 2020, Lee et al. demonstrated in a Balb/c mouse model that bee venom appears to be a possible therapeutic macromolecule for treating phthalic anhydride-induced AD.7
Acne
In 2013, in vitro experiments by Han et al. showed that purified bee venom exhibited antimicrobial activity, in a concentration-dependent manner, against Cutibacterium acnes (or Propionibacterium acnes). They followed up with a small randomized, double-blind, controlled trial with 12 subjects who were treated with cosmetics with pure bee venom or cosmetics without it for two weeks. The group receiving bee venom experienced significantly fewer inflammatory and noninflammatory lesions, and a significant decline in adenosine triphosphate levels (a 57.5% reduction) was noted in subjects in the bee venom group, with a nonsignificant decrease of 4.7% observed in the control group. The investigators concluded the purified bee venom may be suitable as an antiacne agent.14 Using a mouse model, An et al. studied the therapeutic effects of bee venom against C. acnes–induced skin inflammation. They found that bee venom significantly diminished the volume of infiltrated inflammatory cells in the treated mice, compared with untreated mice. Bee venom also decreased expression levels of tumor necrosis factor (TNF)-α, and interleukin (IL)-1beta and suppressed Toll-like receptor (TLR)2 and CD14 expression in C. acnes–injected tissue. The investigators concluded that bee venom imparts notable anti-inflammatory activity and has potential for use in treating acne and as an anti-inflammatory agent in skin care.15
In 2015, Kim et al. studied the influence of bee venom against C. acnes–induced inflammation in human keratinocytes (HaCaT) and monocytes (THP-1). They found that bee venom successfully suppressed the secretion of interferon-gamma, IL-1beta, IL-8, and TNF-alpha. It also galvanized the expression of IL-8 and TLR2 in HaCaT cells but hampered their expression in heat-killed C. acnes. The researchers concluded that bee venom displays considerable anti-inflammatory activity against C. acnes and warrants consideration as an alternative to antibiotic acne treatment.16 It is worth noting that early that year, in a comprehensive database review to evaluate the effects and safety of a wide range of complementary treatments for acne, Cao et al. found, among 35 studies including parallel-group randomized controlled trials, that one trial indicated bee venom was superior to control in lowering the number of acne lesions.17
Conclusion
More research, in the form of randomized, controlled trials, is required before bee venom can be incorporated into the dermatologic armamentarium as a first-line therapy for common and vexing cutaneous conditions. Nevertheless, .
Dr. Baumann is a private practice dermatologist, researcher, author, and entrepreneur who practices in Miami. She founded the Cosmetic Dermatology Center at the University of Miami in 1997. Dr. Baumann has written two textbooks and a New York Times Best Sellers book for consumers. Dr. Baumann has received funding for advisory boards and/or clinical research trials from Allergan, Galderma, Revance, Evolus, and Burt’s Bees. She is the CEO of Skin Type Solutions Inc., a company that independently tests skin care products and makes recommendations to physicians on which skin care technologies are best. Write to her at dermnews@mdedge.com.
References
1. Walsh B. The plight of the honeybee: Mass deaths in bee colonies may mean disaster for farmers – and your favorite Foods. Time Magazine, 2013 Aug 19.
2. Klein AM et al. Proc Biol Sci. 2007 Feb 7;274(1608):303-13. doi: 10.1098/rspb.2006.3721.
3. Ediriweera ER and Premarathna NY. AYU. 2012 Apr;33(2):178-82. doi: 10.4103/0974-8520.105233.
4. Baumann, L. Honey/Propolis/Royal Jelly. In Cosmeceuticals and Cosmetic Ingredients. New York:McGraw-Hill; 2014:203-212.
5. Cornara L et al. Front Pharmacol. 2017 Jun 28;8:412. doi: 10.3389/fphar.2017.00412.
6. Kim Y et al. Toxins (Basel). 2019 Apr 26;11(5):239. doi: 10.3390/toxins11050239.
7. Lee YJ et al. Inflammopharmacology. 2020 Feb;28(1):253-63. doi: 10.1007/s10787-019-00646-w.
8. Lee G and Bae H. Molecules. 2016 May 11;21(5):616. doi: 10.3390/molecules21050616.
9. Kim KH et al. Int J Clin Exp Pathol. 2013 Nov 15;6(12):2896-903.
10. You CE et al. Ann Dermatol. 2016 Oct;28(5):593-9. doi: 10.5021/ad.2016.28.5.593.
11. Shin D et al. Toxins (Basel). 2018 Apr 2;10(4):146. doi: 10.3390/toxins10040146.
12. Gu H et al. Mol Med Rep. 2018 Oct;18(4):3711-8. doi: 10.3892/mmr.2018.9398.
13. An HJ et al. Br J Pharmacol. 2018 Dec;175(23):4310-24. doi: 10.1111/bph.14487.
14. Han SM et al. J Integr Med. 2013 Sep;11(5):320-6. doi: 10.3736/jintegrmed2013043.
15. An HJ et al. Int J Mol Med. 2014 Nov;34(5):1341-8. doi: 10.3892/ijmm.2014.1933.
16. Kim JY et al. Int J Mol Med. 2015 Jun;35(6):1651-6. doi: 10.3892/ijmm.2015.2180.
17. Cao H et al. Cochrane Database Syst Rev. 2015 Jan 19;1:CD009436. doi: 10.1002/14651858.CD009436.pub2.
Honeybees, Apis mellifera, play an important role in the web of life. We rely on bees for pollinating approximately one-third of our crops, including multiple fruits, vegetables, nuts, and seeds.1,2 Bees are also instrumental in the propagation of other plants, flower nectar, and flower pollen. A. mellifera, the European honeybee, is the main pollinator in Europe and North America, but other species, including A. cerana, A. dorsata, A. floria, A. andreniformis, A. koschevnikov, and A. laboriosa, yield honey.3 Honey, propolis, and royal jelly, along with beeswax and bee pollen, are among some of the celebrated bee products that have been found to confer health benefits to human beings.4,5 Bee venom, a toxin bees use for protection, is a convoluted combination of peptides and toxic proteins such as phospholipase A2 (PLA2) and melittin that has garnered significant scientific attention of late and is used to treat various inflammatory conditions.6-8 This column will focus on the investigation of the use of bee venom to treat atopic dermatitis (AD) and acne.
Atopic dermatitis
In 2013, Kim et al. assessed the impact of bee venom on AD-related symptoms in mice, finding that it attenuated the effects of AD-simulating compounds in 48 of 80 patients injected subcutaneously. They concluded that bee venom acted by suppressing mast cell degranulation and proinflammatory cytokine expression.9 Three years later, You et al. conducted a double-blind, randomized, base-controlled multicenter study of 136 patients with AD to ascertain the effects of a bee venom emollient. For 4 weeks, patients applied an emollient with bee venom and silk protein or a vehicle lacking bee venom twice daily. Eczema area and severity index (EASI) scores were significantly lower in the bee venom group, as were the visual analogue scale (VAS) scores. The investigators concluded that bee venom is an effective and safe therapeutic choice for treating patients with AD.10 Further, in 2018, Shin et al. demonstrated that PLA2 derived from bee venom mitigates atopic skin inflammation via the CD206 mannose receptor. They had previously shown in a mouse model that PLA2 from bee venom exerts such activity against AD-like lesions induced by 2,4-dinitrochlorobenzene (DNCB) and house dust mite (Dermatophagoides farinae) extract.11 Gu et al. observed later that year that intraperitoneal administration of bee venom eased the symptoms of ovalbumin-induced AD-like skin lesions in an experimental mouse model. Bee venom also lowered serum immunoglobulin E levels and suppressed infiltration of eosinophils and mast cells. They concluded that bee venom is a viable alternative for attenuating the allergic skin inflammation characteristic of AD.12 At the end of 2018, An et al. reported on the use of an in vivo female Balb/c mouse AD model in which 1-chloro-DNCB acted as inducer in cultures of human keratinocytes, stimulated by TNF-alpha/IFN-gamma. The investigators found that bee venom and melittin displayed robust antiatopic effects as evidenced by reduced lesions. The bee products were also found to have hindered elevated expression of various chemokines and proinflammatory cytokines. The authors suggested that bee venom and melittin appear to warrant consideration as a topical treatment for AD.13 In 2019, Kim et al. demonstrated in mice that bee venom eases the symptoms of AD by inactivating the complement system, particularly through CD55 induction, which might account for its effectiveness in AD treatment in humans, they suggested.6 Early in 2020, Lee et al. demonstrated in a Balb/c mouse model that bee venom appears to be a possible therapeutic macromolecule for treating phthalic anhydride-induced AD.7
Acne
In 2013, in vitro experiments by Han et al. showed that purified bee venom exhibited antimicrobial activity, in a concentration-dependent manner, against Cutibacterium acnes (or Propionibacterium acnes). They followed up with a small randomized, double-blind, controlled trial with 12 subjects who were treated with cosmetics with pure bee venom or cosmetics without it for two weeks. The group receiving bee venom experienced significantly fewer inflammatory and noninflammatory lesions, and a significant decline in adenosine triphosphate levels (a 57.5% reduction) was noted in subjects in the bee venom group, with a nonsignificant decrease of 4.7% observed in the control group. The investigators concluded the purified bee venom may be suitable as an antiacne agent.14 Using a mouse model, An et al. studied the therapeutic effects of bee venom against C. acnes–induced skin inflammation. They found that bee venom significantly diminished the volume of infiltrated inflammatory cells in the treated mice, compared with untreated mice. Bee venom also decreased expression levels of tumor necrosis factor (TNF)-α, and interleukin (IL)-1beta and suppressed Toll-like receptor (TLR)2 and CD14 expression in C. acnes–injected tissue. The investigators concluded that bee venom imparts notable anti-inflammatory activity and has potential for use in treating acne and as an anti-inflammatory agent in skin care.15
In 2015, Kim et al. studied the influence of bee venom against C. acnes–induced inflammation in human keratinocytes (HaCaT) and monocytes (THP-1). They found that bee venom successfully suppressed the secretion of interferon-gamma, IL-1beta, IL-8, and TNF-alpha. It also galvanized the expression of IL-8 and TLR2 in HaCaT cells but hampered their expression in heat-killed C. acnes. The researchers concluded that bee venom displays considerable anti-inflammatory activity against C. acnes and warrants consideration as an alternative to antibiotic acne treatment.16 It is worth noting that early that year, in a comprehensive database review to evaluate the effects and safety of a wide range of complementary treatments for acne, Cao et al. found, among 35 studies including parallel-group randomized controlled trials, that one trial indicated bee venom was superior to control in lowering the number of acne lesions.17
Conclusion
More research, in the form of randomized, controlled trials, is required before bee venom can be incorporated into the dermatologic armamentarium as a first-line therapy for common and vexing cutaneous conditions. Nevertheless, .
Dr. Baumann is a private practice dermatologist, researcher, author, and entrepreneur who practices in Miami. She founded the Cosmetic Dermatology Center at the University of Miami in 1997. Dr. Baumann has written two textbooks and a New York Times Best Sellers book for consumers. Dr. Baumann has received funding for advisory boards and/or clinical research trials from Allergan, Galderma, Revance, Evolus, and Burt’s Bees. She is the CEO of Skin Type Solutions Inc., a company that independently tests skin care products and makes recommendations to physicians on which skin care technologies are best. Write to her at dermnews@mdedge.com.
References
1. Walsh B. The plight of the honeybee: Mass deaths in bee colonies may mean disaster for farmers – and your favorite Foods. Time Magazine, 2013 Aug 19.
2. Klein AM et al. Proc Biol Sci. 2007 Feb 7;274(1608):303-13. doi: 10.1098/rspb.2006.3721.
3. Ediriweera ER and Premarathna NY. AYU. 2012 Apr;33(2):178-82. doi: 10.4103/0974-8520.105233.
4. Baumann, L. Honey/Propolis/Royal Jelly. In Cosmeceuticals and Cosmetic Ingredients. New York:McGraw-Hill; 2014:203-212.
5. Cornara L et al. Front Pharmacol. 2017 Jun 28;8:412. doi: 10.3389/fphar.2017.00412.
6. Kim Y et al. Toxins (Basel). 2019 Apr 26;11(5):239. doi: 10.3390/toxins11050239.
7. Lee YJ et al. Inflammopharmacology. 2020 Feb;28(1):253-63. doi: 10.1007/s10787-019-00646-w.
8. Lee G and Bae H. Molecules. 2016 May 11;21(5):616. doi: 10.3390/molecules21050616.
9. Kim KH et al. Int J Clin Exp Pathol. 2013 Nov 15;6(12):2896-903.
10. You CE et al. Ann Dermatol. 2016 Oct;28(5):593-9. doi: 10.5021/ad.2016.28.5.593.
11. Shin D et al. Toxins (Basel). 2018 Apr 2;10(4):146. doi: 10.3390/toxins10040146.
12. Gu H et al. Mol Med Rep. 2018 Oct;18(4):3711-8. doi: 10.3892/mmr.2018.9398.
13. An HJ et al. Br J Pharmacol. 2018 Dec;175(23):4310-24. doi: 10.1111/bph.14487.
14. Han SM et al. J Integr Med. 2013 Sep;11(5):320-6. doi: 10.3736/jintegrmed2013043.
15. An HJ et al. Int J Mol Med. 2014 Nov;34(5):1341-8. doi: 10.3892/ijmm.2014.1933.
16. Kim JY et al. Int J Mol Med. 2015 Jun;35(6):1651-6. doi: 10.3892/ijmm.2015.2180.
17. Cao H et al. Cochrane Database Syst Rev. 2015 Jan 19;1:CD009436. doi: 10.1002/14651858.CD009436.pub2.
Hypochlorous acid is a valuable adjunctive treatment in AD
, Joseph F. Fowler, MD, said at MedscapeLive’s annual Las Vegas Dermatology Seminar, held virtually this year.
“I definitely like hypochlorous acid products to reduce microbial load and improve itching,” said Dr. Fowler, a dermatologist at the University of Louisville (Ky.). “It’s certainly a useful adjunct – not your primary treatment – in managing atopic dermatitis, especially when infected.”
Topical stabilized hypochlorous acid for use on the skin is commercially available over the counter in gel and liquid spray forms. It’s not bleach, which is sodium hypochlorite. In fact, for use on the skin, hypochlorous acid is better than bleach, since it doesn’t stain dark clothes, it’s nonirritating, and it doesn’t smell like bleach.
“We’re not entirely sure why it has an anti-itch effect, but that might partly be due to its inhibition of mast cell degranulation. It stops the mast cell from releasing its itch-o-genic properties into the skin. It also inhibits phospholipase A2, resulting in reduction of leukotrienes and prostaglandins, which may also account for the anti-itch effect,” Dr. Fowler said.
Hypochlorous acid has a powerful antimicrobial effect. It is highly effective at rapidly killing a broad range of bacteria, viruses, and fungi, including Staphylococcus aureus, a pathogen of particular relevance in AD. After the Environmental Protection Agency added hypochlorous acid to its list of disinfectants known to be effective against coronavirus, commercial interest in the use of hypochlorous acid in higher concentrations as a disinfectant in office buildings, hospitals, and for other large-scale applications has ballooned. The product, made via a process involving electrolyzation of water, is inexpensive. It’s also nontoxic: It’s not perceived by the immune system as foreign, since hypochlorous acid is produced during the human innate immune response.
Dr. Fowler reported serving as a consultant to and on the speakers bureau for SmartPractice, and receiving research funding from Asana, Edesa Biotech, J&J, and Novartis.
MedscapeLive and this news organization are owned by the same parent company.
, Joseph F. Fowler, MD, said at MedscapeLive’s annual Las Vegas Dermatology Seminar, held virtually this year.
“I definitely like hypochlorous acid products to reduce microbial load and improve itching,” said Dr. Fowler, a dermatologist at the University of Louisville (Ky.). “It’s certainly a useful adjunct – not your primary treatment – in managing atopic dermatitis, especially when infected.”
Topical stabilized hypochlorous acid for use on the skin is commercially available over the counter in gel and liquid spray forms. It’s not bleach, which is sodium hypochlorite. In fact, for use on the skin, hypochlorous acid is better than bleach, since it doesn’t stain dark clothes, it’s nonirritating, and it doesn’t smell like bleach.
“We’re not entirely sure why it has an anti-itch effect, but that might partly be due to its inhibition of mast cell degranulation. It stops the mast cell from releasing its itch-o-genic properties into the skin. It also inhibits phospholipase A2, resulting in reduction of leukotrienes and prostaglandins, which may also account for the anti-itch effect,” Dr. Fowler said.
Hypochlorous acid has a powerful antimicrobial effect. It is highly effective at rapidly killing a broad range of bacteria, viruses, and fungi, including Staphylococcus aureus, a pathogen of particular relevance in AD. After the Environmental Protection Agency added hypochlorous acid to its list of disinfectants known to be effective against coronavirus, commercial interest in the use of hypochlorous acid in higher concentrations as a disinfectant in office buildings, hospitals, and for other large-scale applications has ballooned. The product, made via a process involving electrolyzation of water, is inexpensive. It’s also nontoxic: It’s not perceived by the immune system as foreign, since hypochlorous acid is produced during the human innate immune response.
Dr. Fowler reported serving as a consultant to and on the speakers bureau for SmartPractice, and receiving research funding from Asana, Edesa Biotech, J&J, and Novartis.
MedscapeLive and this news organization are owned by the same parent company.
, Joseph F. Fowler, MD, said at MedscapeLive’s annual Las Vegas Dermatology Seminar, held virtually this year.
“I definitely like hypochlorous acid products to reduce microbial load and improve itching,” said Dr. Fowler, a dermatologist at the University of Louisville (Ky.). “It’s certainly a useful adjunct – not your primary treatment – in managing atopic dermatitis, especially when infected.”
Topical stabilized hypochlorous acid for use on the skin is commercially available over the counter in gel and liquid spray forms. It’s not bleach, which is sodium hypochlorite. In fact, for use on the skin, hypochlorous acid is better than bleach, since it doesn’t stain dark clothes, it’s nonirritating, and it doesn’t smell like bleach.
“We’re not entirely sure why it has an anti-itch effect, but that might partly be due to its inhibition of mast cell degranulation. It stops the mast cell from releasing its itch-o-genic properties into the skin. It also inhibits phospholipase A2, resulting in reduction of leukotrienes and prostaglandins, which may also account for the anti-itch effect,” Dr. Fowler said.
Hypochlorous acid has a powerful antimicrobial effect. It is highly effective at rapidly killing a broad range of bacteria, viruses, and fungi, including Staphylococcus aureus, a pathogen of particular relevance in AD. After the Environmental Protection Agency added hypochlorous acid to its list of disinfectants known to be effective against coronavirus, commercial interest in the use of hypochlorous acid in higher concentrations as a disinfectant in office buildings, hospitals, and for other large-scale applications has ballooned. The product, made via a process involving electrolyzation of water, is inexpensive. It’s also nontoxic: It’s not perceived by the immune system as foreign, since hypochlorous acid is produced during the human innate immune response.
Dr. Fowler reported serving as a consultant to and on the speakers bureau for SmartPractice, and receiving research funding from Asana, Edesa Biotech, J&J, and Novartis.
MedscapeLive and this news organization are owned by the same parent company.
FROM MEDSCAPELIVE LAS VEGAS DERMATOLOGY SEMINAR
Topical brepocitinib for atopic dermatitis meets endpoints in phase 2b study
, and with a safety profile essentially indistinguishable from vehicle cream in a phase 2b randomized trial, Megan N. Landis, MD, reported at the virtual annual congress of the European Academy of Dermatology and Venereology.
The study included 240 adolescents and adults with mild to moderate AD at 70 sites in the United States and nine other countries. Patients’ mean baseline Eczema Area and Severity Index (EASI) score was 7.3, with 9.2% of their body surface area being involved. Participants were equally split between mild and moderate disease. They were randomized to 6 weeks of double-blind treatment in one of eight study arms: once-daily topical brepocitinib at a concentration of 0.1%, 0.3%, 1%, or 3%; twice-daily brepocitinib at 1% or 3%; or once- or twice-daily vehicle cream.
The primary endpoint was change in EASI score from baseline to week 6. Brepocitinib 1% and 3% once daily and 1% twice daily outperformed vehicle, with EASI score reductions of 70.1%, 67.9%, and 75%, respectively, compared with a 44.4% decrease among those in the once-daily vehicle control group and a 47.6% reduction among those in the twice-daily vehicle control group, according to Dr. Landis, a dermatologist at the University of Louisville (Ky).
The key secondary efficacy endpoint was the proportion of patients achieving an Investigator’s Global Assessment (IGA) score of 0 or 1 – clear or almost clear skin – plus at least a 2-point reduction at week 6. This occurred in a dose-dependent fashion in 27.8%-44.4% of patients on once-daily brepocitinib, all significantly better results than the 10.8% rate in once-daily controls. Patients on the TYK2/JAK1 inhibitor at 0.3% twice daily had a 33.3% IGA response rate, versus 13.9% with twice-daily vehicle, also a significant difference.
A 90% reduction in EASI score at week 6, or EASI 90 response, occurred in a dose-dependent fashion in 27.8%-41.7% of patients on 0.3%, 1%, and 3% of patients on once-daily brepocitinib, all significantly better than the 10.8% rate with once-daily vehicle, and in 27% of patients on brepocitinib 1% twice daily, versus 8.3% with twice-daily vehicle.
Improvement in itch was another secondary endpoint. A clinically meaningful week-6 improvement of at least 4 points on the Peak Pruritus Numerical Rating Scale was documented in 45.2% of patients on 1% brepocitinib once daily, 50% on 3% once daily, and 40.7% on 1% brepocitinib twice daily, all significantly better than the roughly 17% itch response rate in controls.
Treatment-emergent adverse events were about one-third more frequent in controls than in brepocitinib-treated patients. These events were overwhelmingly mild and were similar in nature in the two groups. There was no dose-dependent increase in treatment-emergent adverse events in the brepocitinib patients. Moreover, no serious treatment-emergent adverse events occurred during the study, nor were there any cases of herpes zoster or malignancies, and no changes in laboratory parameters or ECG findings.
Pfizer sponsored the phase 2b AD trial of the topical TYK2/JAK1 inhibitor, which is also in phase 2 studies for psoriatic arthritis, psoriasis, lupus, and alopecia areata.
Dr. Landis reported serving as a paid investigator for Pfizer and numerous other pharmaceutical companies.
, and with a safety profile essentially indistinguishable from vehicle cream in a phase 2b randomized trial, Megan N. Landis, MD, reported at the virtual annual congress of the European Academy of Dermatology and Venereology.
The study included 240 adolescents and adults with mild to moderate AD at 70 sites in the United States and nine other countries. Patients’ mean baseline Eczema Area and Severity Index (EASI) score was 7.3, with 9.2% of their body surface area being involved. Participants were equally split between mild and moderate disease. They were randomized to 6 weeks of double-blind treatment in one of eight study arms: once-daily topical brepocitinib at a concentration of 0.1%, 0.3%, 1%, or 3%; twice-daily brepocitinib at 1% or 3%; or once- or twice-daily vehicle cream.
The primary endpoint was change in EASI score from baseline to week 6. Brepocitinib 1% and 3% once daily and 1% twice daily outperformed vehicle, with EASI score reductions of 70.1%, 67.9%, and 75%, respectively, compared with a 44.4% decrease among those in the once-daily vehicle control group and a 47.6% reduction among those in the twice-daily vehicle control group, according to Dr. Landis, a dermatologist at the University of Louisville (Ky).
The key secondary efficacy endpoint was the proportion of patients achieving an Investigator’s Global Assessment (IGA) score of 0 or 1 – clear or almost clear skin – plus at least a 2-point reduction at week 6. This occurred in a dose-dependent fashion in 27.8%-44.4% of patients on once-daily brepocitinib, all significantly better results than the 10.8% rate in once-daily controls. Patients on the TYK2/JAK1 inhibitor at 0.3% twice daily had a 33.3% IGA response rate, versus 13.9% with twice-daily vehicle, also a significant difference.
A 90% reduction in EASI score at week 6, or EASI 90 response, occurred in a dose-dependent fashion in 27.8%-41.7% of patients on 0.3%, 1%, and 3% of patients on once-daily brepocitinib, all significantly better than the 10.8% rate with once-daily vehicle, and in 27% of patients on brepocitinib 1% twice daily, versus 8.3% with twice-daily vehicle.
Improvement in itch was another secondary endpoint. A clinically meaningful week-6 improvement of at least 4 points on the Peak Pruritus Numerical Rating Scale was documented in 45.2% of patients on 1% brepocitinib once daily, 50% on 3% once daily, and 40.7% on 1% brepocitinib twice daily, all significantly better than the roughly 17% itch response rate in controls.
Treatment-emergent adverse events were about one-third more frequent in controls than in brepocitinib-treated patients. These events were overwhelmingly mild and were similar in nature in the two groups. There was no dose-dependent increase in treatment-emergent adverse events in the brepocitinib patients. Moreover, no serious treatment-emergent adverse events occurred during the study, nor were there any cases of herpes zoster or malignancies, and no changes in laboratory parameters or ECG findings.
Pfizer sponsored the phase 2b AD trial of the topical TYK2/JAK1 inhibitor, which is also in phase 2 studies for psoriatic arthritis, psoriasis, lupus, and alopecia areata.
Dr. Landis reported serving as a paid investigator for Pfizer and numerous other pharmaceutical companies.
, and with a safety profile essentially indistinguishable from vehicle cream in a phase 2b randomized trial, Megan N. Landis, MD, reported at the virtual annual congress of the European Academy of Dermatology and Venereology.
The study included 240 adolescents and adults with mild to moderate AD at 70 sites in the United States and nine other countries. Patients’ mean baseline Eczema Area and Severity Index (EASI) score was 7.3, with 9.2% of their body surface area being involved. Participants were equally split between mild and moderate disease. They were randomized to 6 weeks of double-blind treatment in one of eight study arms: once-daily topical brepocitinib at a concentration of 0.1%, 0.3%, 1%, or 3%; twice-daily brepocitinib at 1% or 3%; or once- or twice-daily vehicle cream.
The primary endpoint was change in EASI score from baseline to week 6. Brepocitinib 1% and 3% once daily and 1% twice daily outperformed vehicle, with EASI score reductions of 70.1%, 67.9%, and 75%, respectively, compared with a 44.4% decrease among those in the once-daily vehicle control group and a 47.6% reduction among those in the twice-daily vehicle control group, according to Dr. Landis, a dermatologist at the University of Louisville (Ky).
The key secondary efficacy endpoint was the proportion of patients achieving an Investigator’s Global Assessment (IGA) score of 0 or 1 – clear or almost clear skin – plus at least a 2-point reduction at week 6. This occurred in a dose-dependent fashion in 27.8%-44.4% of patients on once-daily brepocitinib, all significantly better results than the 10.8% rate in once-daily controls. Patients on the TYK2/JAK1 inhibitor at 0.3% twice daily had a 33.3% IGA response rate, versus 13.9% with twice-daily vehicle, also a significant difference.
A 90% reduction in EASI score at week 6, or EASI 90 response, occurred in a dose-dependent fashion in 27.8%-41.7% of patients on 0.3%, 1%, and 3% of patients on once-daily brepocitinib, all significantly better than the 10.8% rate with once-daily vehicle, and in 27% of patients on brepocitinib 1% twice daily, versus 8.3% with twice-daily vehicle.
Improvement in itch was another secondary endpoint. A clinically meaningful week-6 improvement of at least 4 points on the Peak Pruritus Numerical Rating Scale was documented in 45.2% of patients on 1% brepocitinib once daily, 50% on 3% once daily, and 40.7% on 1% brepocitinib twice daily, all significantly better than the roughly 17% itch response rate in controls.
Treatment-emergent adverse events were about one-third more frequent in controls than in brepocitinib-treated patients. These events were overwhelmingly mild and were similar in nature in the two groups. There was no dose-dependent increase in treatment-emergent adverse events in the brepocitinib patients. Moreover, no serious treatment-emergent adverse events occurred during the study, nor were there any cases of herpes zoster or malignancies, and no changes in laboratory parameters or ECG findings.
Pfizer sponsored the phase 2b AD trial of the topical TYK2/JAK1 inhibitor, which is also in phase 2 studies for psoriatic arthritis, psoriasis, lupus, and alopecia areata.
Dr. Landis reported serving as a paid investigator for Pfizer and numerous other pharmaceutical companies.
FROM THE EADV CONGRESS
New Therapies for Atopic Dermatitis Crowd the Pipeline
Atopic dermatitis, commonly known as eczema, affects at least 10% of adults in the industrialized world. In recent years, research has broadened our understanding of the underlying mechanisms that drive the condition, leading to identification of potential targets and development of new therapies.
Dr Mark Lebwohl, chairman of the Department of Dermatology at the Icahn School of Medicine at Mount Sinai in New York City, explains that the March 2017 approval of dupilumab for moderate to severe atopic dermatitis touched off a new era of systemic treatments. Dozens of new drugs are being investigated, many with promising trial results, giving hope to the millions of patients who suffer from the persistent itch that defines the skin condition.
In this ReCAP, Dr Lebwohl summarizes current knowledge of the pathogenesis of atopic dermatitis and highlights the most promising new therapies in the works.
--
Professor and Chairman, Department of Dermatology, Icahn School of Medicine at Mount Sinai, New York, NY.
Mark G. Lebwohl, MD, has disclosed the following relevant financial information:
Serve(d) as a director, officer, partner, employee, advisor, consultant, or trustee for: Allergan; Almirall; Arcutis Biotherapeutics; Avotres Therapeutics; BirchBioMed Inc.; Boehringer Ingelheim; Bristol-Myers Squibb Company; Cara Therapeutics; Castle Biosciences; Corrona; Dermavant Sciences; Evelo Biosciences; Foundation for Research and Education in Dermatology; Inozyme Pharma; Leo Pharma; Meiji Seika Pharma Co.; Menlo Dermatology Medical Group; Mitsubishi Tanabe Pharma America; NeuroDerm; Pfizer Inc.; Promius Pharma LLC; Dr. Reddy's Laboratories; Theravance Biopharma, Inc.; Verrica Pharmaceuticals Inc. ¬
Received research grant from: AbbVie; Amgen Inc.; Arcutis Biotherapeutics; AstraZeneca Pharmaceuticals LP; Boehringer Ingelheim; Celgene Corporation; CLINUVEL; Eli Lilly and Company; Incyte Corporation; Ortho-McNeil-Janssen Pharmaceuticals, Inc.; Kadmon Corporation; Leo Pharma; MedImmune Inc.; Novartis Pharmaceuticals Corporation; Ortho Dermatologics; Pfizer Inc.; SCIderm; UCB, Inc.; Vidac Pharma.
Atopic dermatitis, commonly known as eczema, affects at least 10% of adults in the industrialized world. In recent years, research has broadened our understanding of the underlying mechanisms that drive the condition, leading to identification of potential targets and development of new therapies.
Dr Mark Lebwohl, chairman of the Department of Dermatology at the Icahn School of Medicine at Mount Sinai in New York City, explains that the March 2017 approval of dupilumab for moderate to severe atopic dermatitis touched off a new era of systemic treatments. Dozens of new drugs are being investigated, many with promising trial results, giving hope to the millions of patients who suffer from the persistent itch that defines the skin condition.
In this ReCAP, Dr Lebwohl summarizes current knowledge of the pathogenesis of atopic dermatitis and highlights the most promising new therapies in the works.
--
Professor and Chairman, Department of Dermatology, Icahn School of Medicine at Mount Sinai, New York, NY.
Mark G. Lebwohl, MD, has disclosed the following relevant financial information:
Serve(d) as a director, officer, partner, employee, advisor, consultant, or trustee for: Allergan; Almirall; Arcutis Biotherapeutics; Avotres Therapeutics; BirchBioMed Inc.; Boehringer Ingelheim; Bristol-Myers Squibb Company; Cara Therapeutics; Castle Biosciences; Corrona; Dermavant Sciences; Evelo Biosciences; Foundation for Research and Education in Dermatology; Inozyme Pharma; Leo Pharma; Meiji Seika Pharma Co.; Menlo Dermatology Medical Group; Mitsubishi Tanabe Pharma America; NeuroDerm; Pfizer Inc.; Promius Pharma LLC; Dr. Reddy's Laboratories; Theravance Biopharma, Inc.; Verrica Pharmaceuticals Inc. ¬
Received research grant from: AbbVie; Amgen Inc.; Arcutis Biotherapeutics; AstraZeneca Pharmaceuticals LP; Boehringer Ingelheim; Celgene Corporation; CLINUVEL; Eli Lilly and Company; Incyte Corporation; Ortho-McNeil-Janssen Pharmaceuticals, Inc.; Kadmon Corporation; Leo Pharma; MedImmune Inc.; Novartis Pharmaceuticals Corporation; Ortho Dermatologics; Pfizer Inc.; SCIderm; UCB, Inc.; Vidac Pharma.
Atopic dermatitis, commonly known as eczema, affects at least 10% of adults in the industrialized world. In recent years, research has broadened our understanding of the underlying mechanisms that drive the condition, leading to identification of potential targets and development of new therapies.
Dr Mark Lebwohl, chairman of the Department of Dermatology at the Icahn School of Medicine at Mount Sinai in New York City, explains that the March 2017 approval of dupilumab for moderate to severe atopic dermatitis touched off a new era of systemic treatments. Dozens of new drugs are being investigated, many with promising trial results, giving hope to the millions of patients who suffer from the persistent itch that defines the skin condition.
In this ReCAP, Dr Lebwohl summarizes current knowledge of the pathogenesis of atopic dermatitis and highlights the most promising new therapies in the works.
--
Professor and Chairman, Department of Dermatology, Icahn School of Medicine at Mount Sinai, New York, NY.
Mark G. Lebwohl, MD, has disclosed the following relevant financial information:
Serve(d) as a director, officer, partner, employee, advisor, consultant, or trustee for: Allergan; Almirall; Arcutis Biotherapeutics; Avotres Therapeutics; BirchBioMed Inc.; Boehringer Ingelheim; Bristol-Myers Squibb Company; Cara Therapeutics; Castle Biosciences; Corrona; Dermavant Sciences; Evelo Biosciences; Foundation for Research and Education in Dermatology; Inozyme Pharma; Leo Pharma; Meiji Seika Pharma Co.; Menlo Dermatology Medical Group; Mitsubishi Tanabe Pharma America; NeuroDerm; Pfizer Inc.; Promius Pharma LLC; Dr. Reddy's Laboratories; Theravance Biopharma, Inc.; Verrica Pharmaceuticals Inc. ¬
Received research grant from: AbbVie; Amgen Inc.; Arcutis Biotherapeutics; AstraZeneca Pharmaceuticals LP; Boehringer Ingelheim; Celgene Corporation; CLINUVEL; Eli Lilly and Company; Incyte Corporation; Ortho-McNeil-Janssen Pharmaceuticals, Inc.; Kadmon Corporation; Leo Pharma; MedImmune Inc.; Novartis Pharmaceuticals Corporation; Ortho Dermatologics; Pfizer Inc.; SCIderm; UCB, Inc.; Vidac Pharma.
Are pediatric and adult dermatitis the same disease?
“Maybe not,” Jonathan I. Silverberg, MD, PhD, MPH, said during the Revolutionizing Atopic Dermatitis symposium.
Dr. Silverberg, director of clinical research in the division of dermatology at George Washington University, Washington, based his comments largely on a review that he and his colleagues carried out to understand how features of atopic dermatitis (AD) vary by region globally as well as by age. They identified 101 studies with sufficient data for meta-analysis and stratified the results by pediatric and adult age groups.
Several signs and symptoms occurred with similar frequency among pediatric and adult patients, including pruritus, xerosis, flexural involvement, extensor involvement, early onset of disease, comorbid atopy, head and neck involvement, and ophthalmic comorbidities. However, adults were found to have more signs of chronic disease, more hand eczema, different patterns of hand eczema, and a stronger relationship of disease activity with emotional factors. Meanwhile, children were found to have more exudative or weeping lesions, more perifollicular eczema, and more pityriasis alba.
Dr. Silverberg showed photos of three adults with varied presentations of extensor involvement, including one “who had a lot of lichenification and thickening of the skin, but over knees where you might think about psoriasis,” he said. “All three of these patients were of Southeast Asian descent. That happens to be a region where this feature was reported much more commonly. It may even tie to some underlying immunopathophysiologic differences of the disease across different patient populations.”
AD signs that occur more commonly in adults than children include lichenification (100% vs. 48%), urticaria (32% vs. 20%), popular lichenoid lesions (46% vs. 8%), Hertoghe’s sign (25% vs. 2%), erythroderma (29% vs. 1%), and nodular prurigo (18% vs. 4%).
Hand eczema features also differ between adults and children, including hand or foot dermatitis (44% vs. 25%), dyshidrosis/pompholyx (21% vs. 3%), knuckle dermatitis (25% vs. 8%), nail involvement (15% vs. 8%), and fissured heels. However, ventral wrist dermatitis was found to be more than twice as common in children, compared with adults (34% vs. 15%).
Other signs of AD were more common in children, compared with adults, including exudative eczema (61% vs. 42%), pityriasis alba (28% vs. 18%), Dennie-Morgan infraorbital folds (47% vs. 36%), seborrheic dermatitis–like lesions (40% vs. 18%), and perifollicular accentuation (37% vs. 21%). “This is such an important sign to wrap your head around and get comfortable assessing,” he said. “I have seen patients who are erythrodermic with follicular eczema who were told that they were crazy and had psychogenic itch, and they should go to a shrink.”
AD triggers can differ between adults and children as well, including course influenced by emotions/environmental factors (72% vs. 32%), worsening itch worse (65% vs. 49%), course influenced by environment (62% vs. 37%), and course influenced by emotions (70% vs. 15%).
According to Dr. Silverberg, emerging research suggests that there may be differences in the immune pathways activated in pediatric versus adult AD. Specifically, more Th17 and interferon-gamma in AD lesions have been observed in children, compared with adults, and more Th22 and Th17 in nonlesional AD have been seen in children, compared with adults. “This leads to a question: Will children respond differently than adults to treatment?” Dr. Silverberg said. “We see that omalizumab doesn’t seem to help much in adults, yet a recent study suggested that it might work reasonably well for children. Dupilumab has different dosing requirements and potentially different responses between the pediatric and adult populations.”
Age differences in AD may also be related to differences in the skin microbiome. In 2016, researchers led by Richard L. Gallo, MD, PhD, professor of dermatology, University of California, San Diego, compared the skin microbiome between adults and children with AD by swabbing the volar forearm and performing 16S rRNA gene sequencing. The study included 59 young children, 13 teenagers, and 56 adults with AD as well as 68 age-matched non-atopic healthy controls. The researchers found a greater abundance of Streptococcus, Granulicatella, Gemella, Rothia, and Haemophilus in young children, compared with adults, while Propionibacterium, Corynebacterium, Staphylococcus, Lactobacillus, Finegoldia, and Anaerococcus were more abundant in adults, compared with children.
Dr. Silverberg reported that he is a consultant to and/or an advisory board member for several pharmaceutical companies. He is also a speaker for Regeneron and Sanofi and has received a grant from Galderma.
“Maybe not,” Jonathan I. Silverberg, MD, PhD, MPH, said during the Revolutionizing Atopic Dermatitis symposium.
Dr. Silverberg, director of clinical research in the division of dermatology at George Washington University, Washington, based his comments largely on a review that he and his colleagues carried out to understand how features of atopic dermatitis (AD) vary by region globally as well as by age. They identified 101 studies with sufficient data for meta-analysis and stratified the results by pediatric and adult age groups.
Several signs and symptoms occurred with similar frequency among pediatric and adult patients, including pruritus, xerosis, flexural involvement, extensor involvement, early onset of disease, comorbid atopy, head and neck involvement, and ophthalmic comorbidities. However, adults were found to have more signs of chronic disease, more hand eczema, different patterns of hand eczema, and a stronger relationship of disease activity with emotional factors. Meanwhile, children were found to have more exudative or weeping lesions, more perifollicular eczema, and more pityriasis alba.
Dr. Silverberg showed photos of three adults with varied presentations of extensor involvement, including one “who had a lot of lichenification and thickening of the skin, but over knees where you might think about psoriasis,” he said. “All three of these patients were of Southeast Asian descent. That happens to be a region where this feature was reported much more commonly. It may even tie to some underlying immunopathophysiologic differences of the disease across different patient populations.”
AD signs that occur more commonly in adults than children include lichenification (100% vs. 48%), urticaria (32% vs. 20%), popular lichenoid lesions (46% vs. 8%), Hertoghe’s sign (25% vs. 2%), erythroderma (29% vs. 1%), and nodular prurigo (18% vs. 4%).
Hand eczema features also differ between adults and children, including hand or foot dermatitis (44% vs. 25%), dyshidrosis/pompholyx (21% vs. 3%), knuckle dermatitis (25% vs. 8%), nail involvement (15% vs. 8%), and fissured heels. However, ventral wrist dermatitis was found to be more than twice as common in children, compared with adults (34% vs. 15%).
Other signs of AD were more common in children, compared with adults, including exudative eczema (61% vs. 42%), pityriasis alba (28% vs. 18%), Dennie-Morgan infraorbital folds (47% vs. 36%), seborrheic dermatitis–like lesions (40% vs. 18%), and perifollicular accentuation (37% vs. 21%). “This is such an important sign to wrap your head around and get comfortable assessing,” he said. “I have seen patients who are erythrodermic with follicular eczema who were told that they were crazy and had psychogenic itch, and they should go to a shrink.”
AD triggers can differ between adults and children as well, including course influenced by emotions/environmental factors (72% vs. 32%), worsening itch worse (65% vs. 49%), course influenced by environment (62% vs. 37%), and course influenced by emotions (70% vs. 15%).
According to Dr. Silverberg, emerging research suggests that there may be differences in the immune pathways activated in pediatric versus adult AD. Specifically, more Th17 and interferon-gamma in AD lesions have been observed in children, compared with adults, and more Th22 and Th17 in nonlesional AD have been seen in children, compared with adults. “This leads to a question: Will children respond differently than adults to treatment?” Dr. Silverberg said. “We see that omalizumab doesn’t seem to help much in adults, yet a recent study suggested that it might work reasonably well for children. Dupilumab has different dosing requirements and potentially different responses between the pediatric and adult populations.”
Age differences in AD may also be related to differences in the skin microbiome. In 2016, researchers led by Richard L. Gallo, MD, PhD, professor of dermatology, University of California, San Diego, compared the skin microbiome between adults and children with AD by swabbing the volar forearm and performing 16S rRNA gene sequencing. The study included 59 young children, 13 teenagers, and 56 adults with AD as well as 68 age-matched non-atopic healthy controls. The researchers found a greater abundance of Streptococcus, Granulicatella, Gemella, Rothia, and Haemophilus in young children, compared with adults, while Propionibacterium, Corynebacterium, Staphylococcus, Lactobacillus, Finegoldia, and Anaerococcus were more abundant in adults, compared with children.
Dr. Silverberg reported that he is a consultant to and/or an advisory board member for several pharmaceutical companies. He is also a speaker for Regeneron and Sanofi and has received a grant from Galderma.
“Maybe not,” Jonathan I. Silverberg, MD, PhD, MPH, said during the Revolutionizing Atopic Dermatitis symposium.
Dr. Silverberg, director of clinical research in the division of dermatology at George Washington University, Washington, based his comments largely on a review that he and his colleagues carried out to understand how features of atopic dermatitis (AD) vary by region globally as well as by age. They identified 101 studies with sufficient data for meta-analysis and stratified the results by pediatric and adult age groups.
Several signs and symptoms occurred with similar frequency among pediatric and adult patients, including pruritus, xerosis, flexural involvement, extensor involvement, early onset of disease, comorbid atopy, head and neck involvement, and ophthalmic comorbidities. However, adults were found to have more signs of chronic disease, more hand eczema, different patterns of hand eczema, and a stronger relationship of disease activity with emotional factors. Meanwhile, children were found to have more exudative or weeping lesions, more perifollicular eczema, and more pityriasis alba.
Dr. Silverberg showed photos of three adults with varied presentations of extensor involvement, including one “who had a lot of lichenification and thickening of the skin, but over knees where you might think about psoriasis,” he said. “All three of these patients were of Southeast Asian descent. That happens to be a region where this feature was reported much more commonly. It may even tie to some underlying immunopathophysiologic differences of the disease across different patient populations.”
AD signs that occur more commonly in adults than children include lichenification (100% vs. 48%), urticaria (32% vs. 20%), popular lichenoid lesions (46% vs. 8%), Hertoghe’s sign (25% vs. 2%), erythroderma (29% vs. 1%), and nodular prurigo (18% vs. 4%).
Hand eczema features also differ between adults and children, including hand or foot dermatitis (44% vs. 25%), dyshidrosis/pompholyx (21% vs. 3%), knuckle dermatitis (25% vs. 8%), nail involvement (15% vs. 8%), and fissured heels. However, ventral wrist dermatitis was found to be more than twice as common in children, compared with adults (34% vs. 15%).
Other signs of AD were more common in children, compared with adults, including exudative eczema (61% vs. 42%), pityriasis alba (28% vs. 18%), Dennie-Morgan infraorbital folds (47% vs. 36%), seborrheic dermatitis–like lesions (40% vs. 18%), and perifollicular accentuation (37% vs. 21%). “This is such an important sign to wrap your head around and get comfortable assessing,” he said. “I have seen patients who are erythrodermic with follicular eczema who were told that they were crazy and had psychogenic itch, and they should go to a shrink.”
AD triggers can differ between adults and children as well, including course influenced by emotions/environmental factors (72% vs. 32%), worsening itch worse (65% vs. 49%), course influenced by environment (62% vs. 37%), and course influenced by emotions (70% vs. 15%).
According to Dr. Silverberg, emerging research suggests that there may be differences in the immune pathways activated in pediatric versus adult AD. Specifically, more Th17 and interferon-gamma in AD lesions have been observed in children, compared with adults, and more Th22 and Th17 in nonlesional AD have been seen in children, compared with adults. “This leads to a question: Will children respond differently than adults to treatment?” Dr. Silverberg said. “We see that omalizumab doesn’t seem to help much in adults, yet a recent study suggested that it might work reasonably well for children. Dupilumab has different dosing requirements and potentially different responses between the pediatric and adult populations.”
Age differences in AD may also be related to differences in the skin microbiome. In 2016, researchers led by Richard L. Gallo, MD, PhD, professor of dermatology, University of California, San Diego, compared the skin microbiome between adults and children with AD by swabbing the volar forearm and performing 16S rRNA gene sequencing. The study included 59 young children, 13 teenagers, and 56 adults with AD as well as 68 age-matched non-atopic healthy controls. The researchers found a greater abundance of Streptococcus, Granulicatella, Gemella, Rothia, and Haemophilus in young children, compared with adults, while Propionibacterium, Corynebacterium, Staphylococcus, Lactobacillus, Finegoldia, and Anaerococcus were more abundant in adults, compared with children.
Dr. Silverberg reported that he is a consultant to and/or an advisory board member for several pharmaceutical companies. He is also a speaker for Regeneron and Sanofi and has received a grant from Galderma.
FROM REVOLUTIONIZING AD 2020
Bathing now more widely accepted as an eczema treatment strategy
According to Noreen Heer Nicol, PhD, RN, FNP, frustration still exists for patients, families, and health care providers regarding the lack of consensus that routine bathing is good for patients with atopic dermatitis.
During the Revolutionizing Atopic Dermatitis symposium, she said that conflicting and vague guidelines currently exist on the topic.
“This stems from the fact that we just don’t have good studies,” said Dr. Nicol, associate dean and associate professor of nursing at the University of Colorado at Denver, Aurora. “Particularly, we don’t have randomized, controlled trials on the effects of water and bathing. It’s not just parents that are frustrated, but health care providers are as well.”
In an observational analysis, researchers evaluated results from three online surveys of dermatologists, allergists, and immunologists, and primary care physicians regarding routine bathing frequency recommendations for children with AD. It found that PCPs recommended daily bathing less than 50% of the time, while specialists recommended daily bathing more than 50% of the time.
“It seems like the PCPs have embraced that old dermatology notion when bathing was avoided in patients with AD,” Dr. Nicol said. “This lack of consensus on the basic daily care steps in AD management causes a great deal of confusion amongst patients, families, and young health care providers, in particular,” she added.
She believes that this goes back to a century-long debate about the pros and cons of bathing in AD. “We used to say that bathing will dry the skin out if you take a bath or a shower without immediately applying something like a good moisturizer. That’s where the 3-minute rule came along from the National Eczema Association, meaning that bathing hydrates the stratum corneum if you take a bath or a shower and you immediately apply that good moisturizer within 3 minutes to retain that hydration and keep the barrier intact and flexible.”
Dr. Nicol presented a stepwise management model that she has published many times over the years (see Pediatr Nursing 2020;46[2]:92-8 and J Allergy Clin Immunol Pract 2019;7[1]:1-16).
Step 1 consists of basic care, including skin hydration/bathing, application of a daily moisturizer, avoiding irritants, and identifying and addressing specific triggers. “This is the foundation for every step as you go forward,” she explained. Soak and seal has been a mainstay of treatment at National Jewish Health, she noted. “By that, I mean taking a soaking 10-15 minute bath in warm water daily. Gently pat away excess water. Immediately apply skin medications or moisturizer within 3 minutes. Using a gentle fragrance-free, dye-free cleanser to clean skin is also important. Avoid scrubbing.”
A review article on bathing and associated treatments in AD was published in 2017 and includes 144 references to bathing studies. A separate recommendation known as the “AD Yardstick” published by Dr. Nicol’s colleague at National Jewish Health, Mark Boguniewicz, MD, and coauthors, elaborated on the definition of basic skin care for nonlesional AD. Besides recommending the liberal and frequent application of moisturizers, it suggests management with warm baths or showers using nonsoap cleansers, usually once per day, followed by application of a moisturizer, even on clear areas.
“This is now what people are thinking as the basis of skin care in patients with AD,” Dr. Nicol said. “Warm baths and showers don’t look so controversial anymore. This model nicely lays out what we want people to remember. In the past, many times we just skipped that important step of telling people about bathing.”
In a small 2009 study, researchers conducted a quantitative assessment of combination bathing and moisturizing regimens on skin hydration in AD. They found that bathing followed by application of a moisturizer provides modest hydration benefits, though less than that of simply applying moisturizer alone. “That has not been the case for most of us who are bathing advocates,” Dr. Nicol said. “We believe that there is an additional hydration that’s gained from bathing and moisturizers done properly.”
In an earlier retrospective study of 28 patients referred to a tertiary care center for refractory chronic pruritic eruptions, researchers found that a plain-water 20-minute soak followed by smearing of midstrength corticosteroid ointment led to clearing or dramatic improvement of the lesions (Arch Dermatol 2005;14:1556-9). The authors recommended prospective studies to confirm the findings.
In a separate review of medical literature, researchers explored the role of frequent bathing in the treatment of pediatric AD (Ann Allergy Asthma Immunol 2016;117[1]:9-13). They found that the weight of evidence suggests that the frequent soak and smear bathing is preferred to infrequent bathing in the management of AD. Frequent bathing was defined as bathing at least once a day, while infrequent bathing was defined as bathing less than once a day.
“Bleach baths have received much attention in recent years, and have been endorsed by multiple AD guidelines, though not to the same degree as regular bathing,” Dr. Nicol said. “Right now, you can find almost as much literature for this practice as against it. The populations that seem to value from beach baths the most, however, are those with frequent infections, particularly those who are methicillin resistant. Most people recommend a maximum of two to three times per week but only with an active infection. Care must be taken to avoid additional drying or irritation of the skin from bleach.”
Many bleach bath recipes call for adding one-eighth to one-half of a cup of bleach to a tub full or water.
Dr. Nicol disclosed that she has served as an advisory board member for Eli Lilly.
According to Noreen Heer Nicol, PhD, RN, FNP, frustration still exists for patients, families, and health care providers regarding the lack of consensus that routine bathing is good for patients with atopic dermatitis.
During the Revolutionizing Atopic Dermatitis symposium, she said that conflicting and vague guidelines currently exist on the topic.
“This stems from the fact that we just don’t have good studies,” said Dr. Nicol, associate dean and associate professor of nursing at the University of Colorado at Denver, Aurora. “Particularly, we don’t have randomized, controlled trials on the effects of water and bathing. It’s not just parents that are frustrated, but health care providers are as well.”
In an observational analysis, researchers evaluated results from three online surveys of dermatologists, allergists, and immunologists, and primary care physicians regarding routine bathing frequency recommendations for children with AD. It found that PCPs recommended daily bathing less than 50% of the time, while specialists recommended daily bathing more than 50% of the time.
“It seems like the PCPs have embraced that old dermatology notion when bathing was avoided in patients with AD,” Dr. Nicol said. “This lack of consensus on the basic daily care steps in AD management causes a great deal of confusion amongst patients, families, and young health care providers, in particular,” she added.
She believes that this goes back to a century-long debate about the pros and cons of bathing in AD. “We used to say that bathing will dry the skin out if you take a bath or a shower without immediately applying something like a good moisturizer. That’s where the 3-minute rule came along from the National Eczema Association, meaning that bathing hydrates the stratum corneum if you take a bath or a shower and you immediately apply that good moisturizer within 3 minutes to retain that hydration and keep the barrier intact and flexible.”
Dr. Nicol presented a stepwise management model that she has published many times over the years (see Pediatr Nursing 2020;46[2]:92-8 and J Allergy Clin Immunol Pract 2019;7[1]:1-16).
Step 1 consists of basic care, including skin hydration/bathing, application of a daily moisturizer, avoiding irritants, and identifying and addressing specific triggers. “This is the foundation for every step as you go forward,” she explained. Soak and seal has been a mainstay of treatment at National Jewish Health, she noted. “By that, I mean taking a soaking 10-15 minute bath in warm water daily. Gently pat away excess water. Immediately apply skin medications or moisturizer within 3 minutes. Using a gentle fragrance-free, dye-free cleanser to clean skin is also important. Avoid scrubbing.”
A review article on bathing and associated treatments in AD was published in 2017 and includes 144 references to bathing studies. A separate recommendation known as the “AD Yardstick” published by Dr. Nicol’s colleague at National Jewish Health, Mark Boguniewicz, MD, and coauthors, elaborated on the definition of basic skin care for nonlesional AD. Besides recommending the liberal and frequent application of moisturizers, it suggests management with warm baths or showers using nonsoap cleansers, usually once per day, followed by application of a moisturizer, even on clear areas.
“This is now what people are thinking as the basis of skin care in patients with AD,” Dr. Nicol said. “Warm baths and showers don’t look so controversial anymore. This model nicely lays out what we want people to remember. In the past, many times we just skipped that important step of telling people about bathing.”
In a small 2009 study, researchers conducted a quantitative assessment of combination bathing and moisturizing regimens on skin hydration in AD. They found that bathing followed by application of a moisturizer provides modest hydration benefits, though less than that of simply applying moisturizer alone. “That has not been the case for most of us who are bathing advocates,” Dr. Nicol said. “We believe that there is an additional hydration that’s gained from bathing and moisturizers done properly.”
In an earlier retrospective study of 28 patients referred to a tertiary care center for refractory chronic pruritic eruptions, researchers found that a plain-water 20-minute soak followed by smearing of midstrength corticosteroid ointment led to clearing or dramatic improvement of the lesions (Arch Dermatol 2005;14:1556-9). The authors recommended prospective studies to confirm the findings.
In a separate review of medical literature, researchers explored the role of frequent bathing in the treatment of pediatric AD (Ann Allergy Asthma Immunol 2016;117[1]:9-13). They found that the weight of evidence suggests that the frequent soak and smear bathing is preferred to infrequent bathing in the management of AD. Frequent bathing was defined as bathing at least once a day, while infrequent bathing was defined as bathing less than once a day.
“Bleach baths have received much attention in recent years, and have been endorsed by multiple AD guidelines, though not to the same degree as regular bathing,” Dr. Nicol said. “Right now, you can find almost as much literature for this practice as against it. The populations that seem to value from beach baths the most, however, are those with frequent infections, particularly those who are methicillin resistant. Most people recommend a maximum of two to three times per week but only with an active infection. Care must be taken to avoid additional drying or irritation of the skin from bleach.”
Many bleach bath recipes call for adding one-eighth to one-half of a cup of bleach to a tub full or water.
Dr. Nicol disclosed that she has served as an advisory board member for Eli Lilly.
According to Noreen Heer Nicol, PhD, RN, FNP, frustration still exists for patients, families, and health care providers regarding the lack of consensus that routine bathing is good for patients with atopic dermatitis.
During the Revolutionizing Atopic Dermatitis symposium, she said that conflicting and vague guidelines currently exist on the topic.
“This stems from the fact that we just don’t have good studies,” said Dr. Nicol, associate dean and associate professor of nursing at the University of Colorado at Denver, Aurora. “Particularly, we don’t have randomized, controlled trials on the effects of water and bathing. It’s not just parents that are frustrated, but health care providers are as well.”
In an observational analysis, researchers evaluated results from three online surveys of dermatologists, allergists, and immunologists, and primary care physicians regarding routine bathing frequency recommendations for children with AD. It found that PCPs recommended daily bathing less than 50% of the time, while specialists recommended daily bathing more than 50% of the time.
“It seems like the PCPs have embraced that old dermatology notion when bathing was avoided in patients with AD,” Dr. Nicol said. “This lack of consensus on the basic daily care steps in AD management causes a great deal of confusion amongst patients, families, and young health care providers, in particular,” she added.
She believes that this goes back to a century-long debate about the pros and cons of bathing in AD. “We used to say that bathing will dry the skin out if you take a bath or a shower without immediately applying something like a good moisturizer. That’s where the 3-minute rule came along from the National Eczema Association, meaning that bathing hydrates the stratum corneum if you take a bath or a shower and you immediately apply that good moisturizer within 3 minutes to retain that hydration and keep the barrier intact and flexible.”
Dr. Nicol presented a stepwise management model that she has published many times over the years (see Pediatr Nursing 2020;46[2]:92-8 and J Allergy Clin Immunol Pract 2019;7[1]:1-16).
Step 1 consists of basic care, including skin hydration/bathing, application of a daily moisturizer, avoiding irritants, and identifying and addressing specific triggers. “This is the foundation for every step as you go forward,” she explained. Soak and seal has been a mainstay of treatment at National Jewish Health, she noted. “By that, I mean taking a soaking 10-15 minute bath in warm water daily. Gently pat away excess water. Immediately apply skin medications or moisturizer within 3 minutes. Using a gentle fragrance-free, dye-free cleanser to clean skin is also important. Avoid scrubbing.”
A review article on bathing and associated treatments in AD was published in 2017 and includes 144 references to bathing studies. A separate recommendation known as the “AD Yardstick” published by Dr. Nicol’s colleague at National Jewish Health, Mark Boguniewicz, MD, and coauthors, elaborated on the definition of basic skin care for nonlesional AD. Besides recommending the liberal and frequent application of moisturizers, it suggests management with warm baths or showers using nonsoap cleansers, usually once per day, followed by application of a moisturizer, even on clear areas.
“This is now what people are thinking as the basis of skin care in patients with AD,” Dr. Nicol said. “Warm baths and showers don’t look so controversial anymore. This model nicely lays out what we want people to remember. In the past, many times we just skipped that important step of telling people about bathing.”
In a small 2009 study, researchers conducted a quantitative assessment of combination bathing and moisturizing regimens on skin hydration in AD. They found that bathing followed by application of a moisturizer provides modest hydration benefits, though less than that of simply applying moisturizer alone. “That has not been the case for most of us who are bathing advocates,” Dr. Nicol said. “We believe that there is an additional hydration that’s gained from bathing and moisturizers done properly.”
In an earlier retrospective study of 28 patients referred to a tertiary care center for refractory chronic pruritic eruptions, researchers found that a plain-water 20-minute soak followed by smearing of midstrength corticosteroid ointment led to clearing or dramatic improvement of the lesions (Arch Dermatol 2005;14:1556-9). The authors recommended prospective studies to confirm the findings.
In a separate review of medical literature, researchers explored the role of frequent bathing in the treatment of pediatric AD (Ann Allergy Asthma Immunol 2016;117[1]:9-13). They found that the weight of evidence suggests that the frequent soak and smear bathing is preferred to infrequent bathing in the management of AD. Frequent bathing was defined as bathing at least once a day, while infrequent bathing was defined as bathing less than once a day.
“Bleach baths have received much attention in recent years, and have been endorsed by multiple AD guidelines, though not to the same degree as regular bathing,” Dr. Nicol said. “Right now, you can find almost as much literature for this practice as against it. The populations that seem to value from beach baths the most, however, are those with frequent infections, particularly those who are methicillin resistant. Most people recommend a maximum of two to three times per week but only with an active infection. Care must be taken to avoid additional drying or irritation of the skin from bleach.”
Many bleach bath recipes call for adding one-eighth to one-half of a cup of bleach to a tub full or water.
Dr. Nicol disclosed that she has served as an advisory board member for Eli Lilly.
FROM REVOLUTIONIZING AD 2020
Daily moisturizers a bedrock of atopic dermatitis management
Mounting .
In an updated review of clinical evidence on the topic, Adelaide A. Hebert, MD, Noreen Heer Nicol, PhD, RN, FNP, and colleagues evaluated 13 trials that assessed daily moisturization for the treatment of AD published between 2006 and 2019. “The bottom line is, daily moisturization increased skin hydration and it decreased transepidermal water loss in all children and adults in the 13 studies we looked at,” Dr. Nicol, associate dean and associate professor of nursing at the University of Colorado, Denver, said at the Revolutionizing Atopic Dermatitis symposium.
Based on published evidence in the review, she and her coauthors assembled six points regarding the importance of essential skin repair in AD:
1. It strengthens the barrier that protects against environmental triggers such as skin irritants aeroallergens, dust mites, and pet dander.
2. It decreases moisture loss that perpetuates damage and can provoke inflammatory processes.
3. It promotes a healthy microbiome via induction of antimicrobial peptides.
4. It maintains stratum corneum acidification, which protects against pathogens.
5. It reduces recurrence of flares when used daily.
6. It prevents the onset of AD when applied early in life to at-risk children.
A separate review of optimal AD care authored by Dr. Nicol underscores the importance of foundational management, “meaning that we want you to use hydration and daily moisturizers as part of your everyday management,” she said. “Without good barrier repair, infections and allergens can break through. The intention is to have that barrier repair a key point of moisturizer use.”
In a 2014 published study, researchers investigated the role of proactive emollient therapy in preventing AD in 124 neonates in the United States and the United Kingdom with a first-degree relative with a history of allergic rhinitis, asthma, or AD. The treatment group received daily total body application of Aquaphor Healing Ointment, Cetaphil Cream, or sunflower seed oil, starting at 3 weeks of age, while the control group received no moisturizers. They found that daily emollient therapy significantly reduced the cumulative incidence of AD at 6 months (22% vs. 42% among controls). A follow-up study confirmed a protective but nonsignificant effect of daily moisturizer use at 12 months (AD was diagnosed in 13.2% of those in the treatment group vs. 25% in the control group), most likely due to the study being underpowered.
“The message here is simple,” Dr. Nicol said. “Wouldn’t it be wonderful if we could reduce the burden of AD by doing something as straightforward as moisturizer use in our neonates?”
With so many moisturizers on the market today, considerations include active ingredients, side effects, absorption, and amount required for efficacy. “On the average adult, head to toe, front to back, one time it takes about 30 grams or one ounce of something to cover them completely, so you want to make sure people are using enough,” Dr. Nicol said. “You don’t want to be prescribing people 15- and 30-gram tubes of product and hoping they have enough to cover their bodies multiple times.”
Ten years ago, a randomized, controlled trial found that Aquaphor Healing Ointment was 47 times more cost-effective than prescription barrier creams Atopiclair nonsteroidal cream and EpiCeram controlled release skin barrier emulsion. “The most expensive things do not have to be the best things to be used,” Dr. Nicol said. “Recognize what the properties of these products are and what the benefit is.”
A basic principle of skin care for AD patients recommended by Dr. Nicol and colleagues at National Jewish Health, Denver, includes applying a fragrance-free moisturizer within 3 minutes of finishing a bath or a shower. They recommend products sold in 1-pound jars or large tubes, such as Aquaphor Healing Ointment, Vaniply Ointment, Eucerin Creme (various formulations), Vanicream, CeraVe Cream, or Cetaphil cream. “Vaseline is a good occlusive preparation to seal in but is most effective after bath or shower,” the recommendations continue. “Topical maintenance medications may be used in place of moisturizers or sealer when prescribed.”
She recommends including a list of preferred moisturizers for patients to use into written action plans for skin care. “This adds a lot of benefit to patients,” she said. “Always put the patient at the center of your decision-making. Spend time listening to them, give them options of things that they are willing to use so that they can trust you.”
Dr. Nicol disclosed that she has served as an advisory board member for Eli Lilly & Co.
Mounting .
In an updated review of clinical evidence on the topic, Adelaide A. Hebert, MD, Noreen Heer Nicol, PhD, RN, FNP, and colleagues evaluated 13 trials that assessed daily moisturization for the treatment of AD published between 2006 and 2019. “The bottom line is, daily moisturization increased skin hydration and it decreased transepidermal water loss in all children and adults in the 13 studies we looked at,” Dr. Nicol, associate dean and associate professor of nursing at the University of Colorado, Denver, said at the Revolutionizing Atopic Dermatitis symposium.
Based on published evidence in the review, she and her coauthors assembled six points regarding the importance of essential skin repair in AD:
1. It strengthens the barrier that protects against environmental triggers such as skin irritants aeroallergens, dust mites, and pet dander.
2. It decreases moisture loss that perpetuates damage and can provoke inflammatory processes.
3. It promotes a healthy microbiome via induction of antimicrobial peptides.
4. It maintains stratum corneum acidification, which protects against pathogens.
5. It reduces recurrence of flares when used daily.
6. It prevents the onset of AD when applied early in life to at-risk children.
A separate review of optimal AD care authored by Dr. Nicol underscores the importance of foundational management, “meaning that we want you to use hydration and daily moisturizers as part of your everyday management,” she said. “Without good barrier repair, infections and allergens can break through. The intention is to have that barrier repair a key point of moisturizer use.”
In a 2014 published study, researchers investigated the role of proactive emollient therapy in preventing AD in 124 neonates in the United States and the United Kingdom with a first-degree relative with a history of allergic rhinitis, asthma, or AD. The treatment group received daily total body application of Aquaphor Healing Ointment, Cetaphil Cream, or sunflower seed oil, starting at 3 weeks of age, while the control group received no moisturizers. They found that daily emollient therapy significantly reduced the cumulative incidence of AD at 6 months (22% vs. 42% among controls). A follow-up study confirmed a protective but nonsignificant effect of daily moisturizer use at 12 months (AD was diagnosed in 13.2% of those in the treatment group vs. 25% in the control group), most likely due to the study being underpowered.
“The message here is simple,” Dr. Nicol said. “Wouldn’t it be wonderful if we could reduce the burden of AD by doing something as straightforward as moisturizer use in our neonates?”
With so many moisturizers on the market today, considerations include active ingredients, side effects, absorption, and amount required for efficacy. “On the average adult, head to toe, front to back, one time it takes about 30 grams or one ounce of something to cover them completely, so you want to make sure people are using enough,” Dr. Nicol said. “You don’t want to be prescribing people 15- and 30-gram tubes of product and hoping they have enough to cover their bodies multiple times.”
Ten years ago, a randomized, controlled trial found that Aquaphor Healing Ointment was 47 times more cost-effective than prescription barrier creams Atopiclair nonsteroidal cream and EpiCeram controlled release skin barrier emulsion. “The most expensive things do not have to be the best things to be used,” Dr. Nicol said. “Recognize what the properties of these products are and what the benefit is.”
A basic principle of skin care for AD patients recommended by Dr. Nicol and colleagues at National Jewish Health, Denver, includes applying a fragrance-free moisturizer within 3 minutes of finishing a bath or a shower. They recommend products sold in 1-pound jars or large tubes, such as Aquaphor Healing Ointment, Vaniply Ointment, Eucerin Creme (various formulations), Vanicream, CeraVe Cream, or Cetaphil cream. “Vaseline is a good occlusive preparation to seal in but is most effective after bath or shower,” the recommendations continue. “Topical maintenance medications may be used in place of moisturizers or sealer when prescribed.”
She recommends including a list of preferred moisturizers for patients to use into written action plans for skin care. “This adds a lot of benefit to patients,” she said. “Always put the patient at the center of your decision-making. Spend time listening to them, give them options of things that they are willing to use so that they can trust you.”
Dr. Nicol disclosed that she has served as an advisory board member for Eli Lilly & Co.
Mounting .
In an updated review of clinical evidence on the topic, Adelaide A. Hebert, MD, Noreen Heer Nicol, PhD, RN, FNP, and colleagues evaluated 13 trials that assessed daily moisturization for the treatment of AD published between 2006 and 2019. “The bottom line is, daily moisturization increased skin hydration and it decreased transepidermal water loss in all children and adults in the 13 studies we looked at,” Dr. Nicol, associate dean and associate professor of nursing at the University of Colorado, Denver, said at the Revolutionizing Atopic Dermatitis symposium.
Based on published evidence in the review, she and her coauthors assembled six points regarding the importance of essential skin repair in AD:
1. It strengthens the barrier that protects against environmental triggers such as skin irritants aeroallergens, dust mites, and pet dander.
2. It decreases moisture loss that perpetuates damage and can provoke inflammatory processes.
3. It promotes a healthy microbiome via induction of antimicrobial peptides.
4. It maintains stratum corneum acidification, which protects against pathogens.
5. It reduces recurrence of flares when used daily.
6. It prevents the onset of AD when applied early in life to at-risk children.
A separate review of optimal AD care authored by Dr. Nicol underscores the importance of foundational management, “meaning that we want you to use hydration and daily moisturizers as part of your everyday management,” she said. “Without good barrier repair, infections and allergens can break through. The intention is to have that barrier repair a key point of moisturizer use.”
In a 2014 published study, researchers investigated the role of proactive emollient therapy in preventing AD in 124 neonates in the United States and the United Kingdom with a first-degree relative with a history of allergic rhinitis, asthma, or AD. The treatment group received daily total body application of Aquaphor Healing Ointment, Cetaphil Cream, or sunflower seed oil, starting at 3 weeks of age, while the control group received no moisturizers. They found that daily emollient therapy significantly reduced the cumulative incidence of AD at 6 months (22% vs. 42% among controls). A follow-up study confirmed a protective but nonsignificant effect of daily moisturizer use at 12 months (AD was diagnosed in 13.2% of those in the treatment group vs. 25% in the control group), most likely due to the study being underpowered.
“The message here is simple,” Dr. Nicol said. “Wouldn’t it be wonderful if we could reduce the burden of AD by doing something as straightforward as moisturizer use in our neonates?”
With so many moisturizers on the market today, considerations include active ingredients, side effects, absorption, and amount required for efficacy. “On the average adult, head to toe, front to back, one time it takes about 30 grams or one ounce of something to cover them completely, so you want to make sure people are using enough,” Dr. Nicol said. “You don’t want to be prescribing people 15- and 30-gram tubes of product and hoping they have enough to cover their bodies multiple times.”
Ten years ago, a randomized, controlled trial found that Aquaphor Healing Ointment was 47 times more cost-effective than prescription barrier creams Atopiclair nonsteroidal cream and EpiCeram controlled release skin barrier emulsion. “The most expensive things do not have to be the best things to be used,” Dr. Nicol said. “Recognize what the properties of these products are and what the benefit is.”
A basic principle of skin care for AD patients recommended by Dr. Nicol and colleagues at National Jewish Health, Denver, includes applying a fragrance-free moisturizer within 3 minutes of finishing a bath or a shower. They recommend products sold in 1-pound jars or large tubes, such as Aquaphor Healing Ointment, Vaniply Ointment, Eucerin Creme (various formulations), Vanicream, CeraVe Cream, or Cetaphil cream. “Vaseline is a good occlusive preparation to seal in but is most effective after bath or shower,” the recommendations continue. “Topical maintenance medications may be used in place of moisturizers or sealer when prescribed.”
She recommends including a list of preferred moisturizers for patients to use into written action plans for skin care. “This adds a lot of benefit to patients,” she said. “Always put the patient at the center of your decision-making. Spend time listening to them, give them options of things that they are willing to use so that they can trust you.”
Dr. Nicol disclosed that she has served as an advisory board member for Eli Lilly & Co.
FROM REVOLUTIONIZING AD 2020