Melasma

TOPLINE:

Nearly half of the US Food and Drug Administration (FDA) approvals for dermatologic drugs between 2012 and 2022 were considered first in class or first in indication.

METHODOLOGY:

• Only five new drugs for diseases treated mostly by dermatologists were approved by the FDA between 1999 and 2009.
• In a cross-sectional analysis to characterize the frequency and degree of innovation of dermatologic drugs approved more recently, researchers identified new and supplemental dermatologic drugs approved between January 1, 2012, and December 31, 2022, from FDA lists, Centers for Medicare & Medicaid Services CenterWatch, and peer-reviewed articles.
• They used five proxy measures to estimate each drug’s degree of innovation: FDA designation (first in class, advance in class, or addition to class), independent clinical usefulness ratings, and benefit ratings by health technology assessment organizations.

TAKEAWAY:

• The study authors identified 52 new drug applications and 26 supplemental new indications approved by the FDA for dermatologic indications between 2012 and 2022.
• Of the 52 new drugs, the researchers categorized 11 (21%) as first in class and 13 (25%) as first in indication.
• An analysis of benefit ratings available for 38 of the drugs showed that 15 (39%) were rated as being clinically useful or having high added therapeutic benefit.
• Of the 10 supplemental new indications with ratings by any organization, 3 (30%) were rated as clinically useful or having high added therapeutic benefit.

IN PRACTICE:

While innovative drug development in dermatology may have increased, “these findings also highlight opportunities to develop more truly innovative dermatologic agents, particularly for diseases with unmet therapeutic need,” the authors wrote.

[embed:render:related:node:219314]

SOURCE:

First author Samir Kamat, MD, of the Medical Education Department at Icahn School of Medicine at Mount Sinai, New York City, and corresponding author Ravi Gupta, MD, MSHP, of the Internal Medicine Division at Johns Hopkins University, Baltimore, Maryland, led the research. The study was published online as a research letter on December 20, 2023, in JAMA Dermatology.

LIMITATIONS:

They include the use of individual indications to assess clinical usefulness and benefit ratings. Many drugs, particularly supplemental indications, lacked such ratings. Reformulations of already marketed drugs or indications were not included.

DISCLOSURES:

Dr. Kamat and Dr. Gupta had no relevant disclosures. Three coauthors reported having received financial support outside of the submitted work.

A version of this article appeared on Medscape.com.

TOPLINE:

Nearly half of the US Food and Drug Administration (FDA) approvals for dermatologic drugs between 2012 and 2022 were considered first in class or first in indication.

METHODOLOGY:

• Only five new drugs for diseases treated mostly by dermatologists were approved by the FDA between 1999 and 2009.
• In a cross-sectional analysis to characterize the frequency and degree of innovation of dermatologic drugs approved more recently, researchers identified new and supplemental dermatologic drugs approved between January 1, 2012, and December 31, 2022, from FDA lists, Centers for Medicare & Medicaid Services CenterWatch, and peer-reviewed articles.
• They used five proxy measures to estimate each drug’s degree of innovation: FDA designation (first in class, advance in class, or addition to class), independent clinical usefulness ratings, and benefit ratings by health technology assessment organizations.

TAKEAWAY:

• The study authors identified 52 new drug applications and 26 supplemental new indications approved by the FDA for dermatologic indications between 2012 and 2022.
• Of the 52 new drugs, the researchers categorized 11 (21%) as first in class and 13 (25%) as first in indication.
• An analysis of benefit ratings available for 38 of the drugs showed that 15 (39%) were rated as being clinically useful or having high added therapeutic benefit.
• Of the 10 supplemental new indications with ratings by any organization, 3 (30%) were rated as clinically useful or having high added therapeutic benefit.

IN PRACTICE:

While innovative drug development in dermatology may have increased, “these findings also highlight opportunities to develop more truly innovative dermatologic agents, particularly for diseases with unmet therapeutic need,” the authors wrote.

[embed:render:related:node:219314]

SOURCE:

First author Samir Kamat, MD, of the Medical Education Department at Icahn School of Medicine at Mount Sinai, New York City, and corresponding author Ravi Gupta, MD, MSHP, of the Internal Medicine Division at Johns Hopkins University, Baltimore, Maryland, led the research. The study was published online as a research letter on December 20, 2023, in JAMA Dermatology.

LIMITATIONS:

They include the use of individual indications to assess clinical usefulness and benefit ratings. Many drugs, particularly supplemental indications, lacked such ratings. Reformulations of already marketed drugs or indications were not included.

DISCLOSURES:

Dr. Kamat and Dr. Gupta had no relevant disclosures. Three coauthors reported having received financial support outside of the submitted work.

A version of this article appeared on Medscape.com.

TOPLINE:

Nearly half of the US Food and Drug Administration (FDA) approvals for dermatologic drugs between 2012 and 2022 were considered first in class or first in indication.

METHODOLOGY:

• Only five new drugs for diseases treated mostly by dermatologists were approved by the FDA between 1999 and 2009.
• In a cross-sectional analysis to characterize the frequency and degree of innovation of dermatologic drugs approved more recently, researchers identified new and supplemental dermatologic drugs approved between January 1, 2012, and December 31, 2022, from FDA lists, Centers for Medicare & Medicaid Services CenterWatch, and peer-reviewed articles.
• They used five proxy measures to estimate each drug’s degree of innovation: FDA designation (first in class, advance in class, or addition to class), independent clinical usefulness ratings, and benefit ratings by health technology assessment organizations.

TAKEAWAY:

• The study authors identified 52 new drug applications and 26 supplemental new indications approved by the FDA for dermatologic indications between 2012 and 2022.
• Of the 52 new drugs, the researchers categorized 11 (21%) as first in class and 13 (25%) as first in indication.
• An analysis of benefit ratings available for 38 of the drugs showed that 15 (39%) were rated as being clinically useful or having high added therapeutic benefit.
• Of the 10 supplemental new indications with ratings by any organization, 3 (30%) were rated as clinically useful or having high added therapeutic benefit.

IN PRACTICE:

While innovative drug development in dermatology may have increased, “these findings also highlight opportunities to develop more truly innovative dermatologic agents, particularly for diseases with unmet therapeutic need,” the authors wrote.

[embed:render:related:node:219314]

SOURCE:

First author Samir Kamat, MD, of the Medical Education Department at Icahn School of Medicine at Mount Sinai, New York City, and corresponding author Ravi Gupta, MD, MSHP, of the Internal Medicine Division at Johns Hopkins University, Baltimore, Maryland, led the research. The study was published online as a research letter on December 20, 2023, in JAMA Dermatology.

LIMITATIONS:

They include the use of individual indications to assess clinical usefulness and benefit ratings. Many drugs, particularly supplemental indications, lacked such ratings. Reformulations of already marketed drugs or indications were not included.

DISCLOSURES:

Dr. Kamat and Dr. Gupta had no relevant disclosures. Three coauthors reported having received financial support outside of the submitted work.

A version of this article appeared on Medscape.com.

CHICAGO – Heather Woolery-Lloyd, MD, says she’s generally “risk averse,” but when it comes to superficial chemical peels, she’s in her comfort zone.

Superficial peeling is “one of the most common cosmetic procedures that I do,” Dr. Woolery-Lloyd, director of the skin of color division in the dermatology department at the University of Miami, said at the Pigmentary Disorders Exchange Symposium.

In her practice, she most commonly uses chemical peels to treat patients with hyperpigmentation and melasma, but she also uses this treatment for patients with textural issues, superficial acne scars, keratosis pilaris, acne on the face and trunk, photoaging, and actinic damage.

WooleryLloyd_Fla_web.jpg

Contraindications are an active bacterial infection, open wounds, and active herpes simplex virus. “If someone looks like they even have a remnant of a cold sore, I tell them to come back,” she said.

Setting expectations for patients is critical, Dr. Woolery-Lloyd said, as a series of superficial peels is needed before the desired results are evident.

The peel she uses most is salicylic acid, a beta-hydroxy acid, at a strength of 20%-30%. “It’s very effective on our acne patients,” she said at the meeting, provided by MedscapeLIVE! “If you’re just starting with peels, I think this is a very safe one. You don’t have to time it, and you don’t have to neutralize it,” and at lower concentrations, is “very safe.”

Dr. Woolery-Lloyd provided these other tips during her presentation:

• Even superficial peels can be uncomfortable, she noted, so she keeps a fan nearby to use when needed to help with discomfort.
• Find the peel you’re comfortable with, master that peel, and don’t jump from peel to peel. Get familiar with the side effects and how to predict results.
• Stop retinoids up to 7 days before a peel. Consider placing the patient on hydroquinone before the chemical peel to decrease the risk of hyperpigmentation.
• Before the procedure, prep the skin with acetone or alcohol. Applying petrolatum helps protect around the eyes, alar crease, and other sensitive areas, “or anywhere you’re concerned about the depth of the peel.”
• Application with rough gauze helps avoid the waste that comes with makeup sponges soaking up the product. It also helps add exfoliation.
• Have everything ready before starting the procedure, including (depending on the peel), a neutralizer or soapless cleanser. Although peels are generally safe, you want to be able to remove one quickly, if needed, without having to leave the room.
• Start with the lowest concentration (salicylic acid or glycolic acid) then titrate up. Ask patients about any reactions they experienced with the previous peel before making the decision on the next concentration.
• For a peel to treat hyperpigmentation, she recommends one peel about every 4 weeks for a series of 5-6 peels.
• After a peel, the patient should use a mineral sunscreen; chemical sunscreens will sting.

Know your comfort zone

Conference chair Pearl Grimes, MD, director of The Vitiligo & Pigmentation Institute of Southern California in Los Angeles, said superficial peels are best for dermatologists new to peeling until they gain comfort with experience.

Superficial and medium-depth peels work well for mild to moderate photoaging, she said at the meeting.

“We know that in darker skin we have more intrinsic aging rather than photoaging. We have more textural changes, hyperpigmentation,” Dr. Grimes said.

For Fitzpatrick skin types I-III, she said, “you can do superficial, medium, and deep peels.” For darker skin types, “I typically stay in the superficial, medium range.”

She said that she uses retinoids to exfoliate before a superficial peel but added, “you’ve got to stop them early because retinoids can make a superficial peel a medium-depth peel.”

[embed:render:related:node:253924]

Taking photos is important before any procedure, she said, as is spending time with patients clarifying their outcome expectations.

“I love peeling,” Dr. Grimes said. “And it’s cost effective. If you don’t want to spend a ton of money, it’s amazing what you can achieve with chemical peeling.”

When asked by a member of the audience whether they avoid superficial peels in women who are pregnant or breastfeeding, both Dr. Woolery-Lloyd and Dr. Grimes said they do avoid them in those patients.

Dr. Grimes said she tells her patients, especially in the first trimester, “I am the most conservative woman on the planet. I do nothing during the first trimester.”

Dr. Woolery-Lloyd has been a speaker for Ortho Dermatologics, Loreal and EPI, and has done research for Pfizer, Galderma, Allergan, Arcutis, Vyne, Merz, and Eirion. She has been on advisory boards for Loreal, Allergan, Ortho Dermatologics, Pfize,r and Merz. Dr. Grimes reports grant/research Support from Clinuvel Pharmaceuticals, Incyte, Johnson & Johnson, LASEROPTEK, L’Oréal USA, Pfizer, Procter & Gamble, skinbetter science, and Versicolor Technologies, and is on the speakers bureau/receives honoraria for non-CME for Incyte and Procter & Gamble; and is a consultant or is on the advisory board for L’Oréal USA and Procter & Gamble. She has stock options in Versicolor Technologies.

CHICAGO – Heather Woolery-Lloyd, MD, says she’s generally “risk averse,” but when it comes to superficial chemical peels, she’s in her comfort zone.

Superficial peeling is “one of the most common cosmetic procedures that I do,” Dr. Woolery-Lloyd, director of the skin of color division in the dermatology department at the University of Miami, said at the Pigmentary Disorders Exchange Symposium.

In her practice, she most commonly uses chemical peels to treat patients with hyperpigmentation and melasma, but she also uses this treatment for patients with textural issues, superficial acne scars, keratosis pilaris, acne on the face and trunk, photoaging, and actinic damage.

WooleryLloyd_Fla_web.jpg

Contraindications are an active bacterial infection, open wounds, and active herpes simplex virus. “If someone looks like they even have a remnant of a cold sore, I tell them to come back,” she said.

Setting expectations for patients is critical, Dr. Woolery-Lloyd said, as a series of superficial peels is needed before the desired results are evident.

The peel she uses most is salicylic acid, a beta-hydroxy acid, at a strength of 20%-30%. “It’s very effective on our acne patients,” she said at the meeting, provided by MedscapeLIVE! “If you’re just starting with peels, I think this is a very safe one. You don’t have to time it, and you don’t have to neutralize it,” and at lower concentrations, is “very safe.”

Dr. Woolery-Lloyd provided these other tips during her presentation:

• Even superficial peels can be uncomfortable, she noted, so she keeps a fan nearby to use when needed to help with discomfort.
• Find the peel you’re comfortable with, master that peel, and don’t jump from peel to peel. Get familiar with the side effects and how to predict results.
• Stop retinoids up to 7 days before a peel. Consider placing the patient on hydroquinone before the chemical peel to decrease the risk of hyperpigmentation.
• Before the procedure, prep the skin with acetone or alcohol. Applying petrolatum helps protect around the eyes, alar crease, and other sensitive areas, “or anywhere you’re concerned about the depth of the peel.”
• Application with rough gauze helps avoid the waste that comes with makeup sponges soaking up the product. It also helps add exfoliation.
• Have everything ready before starting the procedure, including (depending on the peel), a neutralizer or soapless cleanser. Although peels are generally safe, you want to be able to remove one quickly, if needed, without having to leave the room.
• Start with the lowest concentration (salicylic acid or glycolic acid) then titrate up. Ask patients about any reactions they experienced with the previous peel before making the decision on the next concentration.
• For a peel to treat hyperpigmentation, she recommends one peel about every 4 weeks for a series of 5-6 peels.
• After a peel, the patient should use a mineral sunscreen; chemical sunscreens will sting.

Know your comfort zone

Conference chair Pearl Grimes, MD, director of The Vitiligo & Pigmentation Institute of Southern California in Los Angeles, said superficial peels are best for dermatologists new to peeling until they gain comfort with experience.

Superficial and medium-depth peels work well for mild to moderate photoaging, she said at the meeting.

“We know that in darker skin we have more intrinsic aging rather than photoaging. We have more textural changes, hyperpigmentation,” Dr. Grimes said.

For Fitzpatrick skin types I-III, she said, “you can do superficial, medium, and deep peels.” For darker skin types, “I typically stay in the superficial, medium range.”

She said that she uses retinoids to exfoliate before a superficial peel but added, “you’ve got to stop them early because retinoids can make a superficial peel a medium-depth peel.”

[embed:render:related:node:253924]

Taking photos is important before any procedure, she said, as is spending time with patients clarifying their outcome expectations.

“I love peeling,” Dr. Grimes said. “And it’s cost effective. If you don’t want to spend a ton of money, it’s amazing what you can achieve with chemical peeling.”

When asked by a member of the audience whether they avoid superficial peels in women who are pregnant or breastfeeding, both Dr. Woolery-Lloyd and Dr. Grimes said they do avoid them in those patients.

Dr. Grimes said she tells her patients, especially in the first trimester, “I am the most conservative woman on the planet. I do nothing during the first trimester.”

Dr. Woolery-Lloyd has been a speaker for Ortho Dermatologics, Loreal and EPI, and has done research for Pfizer, Galderma, Allergan, Arcutis, Vyne, Merz, and Eirion. She has been on advisory boards for Loreal, Allergan, Ortho Dermatologics, Pfize,r and Merz. Dr. Grimes reports grant/research Support from Clinuvel Pharmaceuticals, Incyte, Johnson & Johnson, LASEROPTEK, L’Oréal USA, Pfizer, Procter & Gamble, skinbetter science, and Versicolor Technologies, and is on the speakers bureau/receives honoraria for non-CME for Incyte and Procter & Gamble; and is a consultant or is on the advisory board for L’Oréal USA and Procter & Gamble. She has stock options in Versicolor Technologies.

CHICAGO – Heather Woolery-Lloyd, MD, says she’s generally “risk averse,” but when it comes to superficial chemical peels, she’s in her comfort zone.

Superficial peeling is “one of the most common cosmetic procedures that I do,” Dr. Woolery-Lloyd, director of the skin of color division in the dermatology department at the University of Miami, said at the Pigmentary Disorders Exchange Symposium.

In her practice, she most commonly uses chemical peels to treat patients with hyperpigmentation and melasma, but she also uses this treatment for patients with textural issues, superficial acne scars, keratosis pilaris, acne on the face and trunk, photoaging, and actinic damage.

WooleryLloyd_Fla_web.jpg

Contraindications are an active bacterial infection, open wounds, and active herpes simplex virus. “If someone looks like they even have a remnant of a cold sore, I tell them to come back,” she said.

Setting expectations for patients is critical, Dr. Woolery-Lloyd said, as a series of superficial peels is needed before the desired results are evident.

The peel she uses most is salicylic acid, a beta-hydroxy acid, at a strength of 20%-30%. “It’s very effective on our acne patients,” she said at the meeting, provided by MedscapeLIVE! “If you’re just starting with peels, I think this is a very safe one. You don’t have to time it, and you don’t have to neutralize it,” and at lower concentrations, is “very safe.”

Dr. Woolery-Lloyd provided these other tips during her presentation:

• Even superficial peels can be uncomfortable, she noted, so she keeps a fan nearby to use when needed to help with discomfort.
• Find the peel you’re comfortable with, master that peel, and don’t jump from peel to peel. Get familiar with the side effects and how to predict results.
• Stop retinoids up to 7 days before a peel. Consider placing the patient on hydroquinone before the chemical peel to decrease the risk of hyperpigmentation.
• Before the procedure, prep the skin with acetone or alcohol. Applying petrolatum helps protect around the eyes, alar crease, and other sensitive areas, “or anywhere you’re concerned about the depth of the peel.”
• Application with rough gauze helps avoid the waste that comes with makeup sponges soaking up the product. It also helps add exfoliation.
• Have everything ready before starting the procedure, including (depending on the peel), a neutralizer or soapless cleanser. Although peels are generally safe, you want to be able to remove one quickly, if needed, without having to leave the room.
• Start with the lowest concentration (salicylic acid or glycolic acid) then titrate up. Ask patients about any reactions they experienced with the previous peel before making the decision on the next concentration.
• For a peel to treat hyperpigmentation, she recommends one peel about every 4 weeks for a series of 5-6 peels.
• After a peel, the patient should use a mineral sunscreen; chemical sunscreens will sting.

Know your comfort zone

Conference chair Pearl Grimes, MD, director of The Vitiligo & Pigmentation Institute of Southern California in Los Angeles, said superficial peels are best for dermatologists new to peeling until they gain comfort with experience.

Superficial and medium-depth peels work well for mild to moderate photoaging, she said at the meeting.

“We know that in darker skin we have more intrinsic aging rather than photoaging. We have more textural changes, hyperpigmentation,” Dr. Grimes said.

For Fitzpatrick skin types I-III, she said, “you can do superficial, medium, and deep peels.” For darker skin types, “I typically stay in the superficial, medium range.”

She said that she uses retinoids to exfoliate before a superficial peel but added, “you’ve got to stop them early because retinoids can make a superficial peel a medium-depth peel.”

[embed:render:related:node:253924]

Taking photos is important before any procedure, she said, as is spending time with patients clarifying their outcome expectations.

“I love peeling,” Dr. Grimes said. “And it’s cost effective. If you don’t want to spend a ton of money, it’s amazing what you can achieve with chemical peeling.”

When asked by a member of the audience whether they avoid superficial peels in women who are pregnant or breastfeeding, both Dr. Woolery-Lloyd and Dr. Grimes said they do avoid them in those patients.

Dr. Grimes said she tells her patients, especially in the first trimester, “I am the most conservative woman on the planet. I do nothing during the first trimester.”

Dr. Woolery-Lloyd has been a speaker for Ortho Dermatologics, Loreal and EPI, and has done research for Pfizer, Galderma, Allergan, Arcutis, Vyne, Merz, and Eirion. She has been on advisory boards for Loreal, Allergan, Ortho Dermatologics, Pfize,r and Merz. Dr. Grimes reports grant/research Support from Clinuvel Pharmaceuticals, Incyte, Johnson & Johnson, LASEROPTEK, L’Oréal USA, Pfizer, Procter & Gamble, skinbetter science, and Versicolor Technologies, and is on the speakers bureau/receives honoraria for non-CME for Incyte and Procter & Gamble; and is a consultant or is on the advisory board for L’Oréal USA and Procter & Gamble. She has stock options in Versicolor Technologies.

CHICAGO – Sunscreen recommendations are most effective when a multitude of factors are considered, Susan C. Taylor, MD, said during a presentation on personal photoprotection at the inaugural Pigmentary Disorders Exchange Symposium.

Among the first factors physicians should consider before recommending sunscreen are a patient’s Fitzpatrick skin type, risks for burning or tanning, underlying skin disorders, and medications the patient is taking, Dr. Taylor, professor of dermatology at the University of Pennsylvania, Philadelphia, said at the meeting, provided by MedscapeLIVE! If patients are on hypertensives, for example, medications can make them more photosensitive.

Taylor_Susan_PA_web.jpg

Consider skin type

Dr. Taylor said she was dismayed by the results of a recent study, which found that 43% of dermatologists who responded to a survey reported that they never, rarely, or only sometimes took a patient’s skin type into account when making sunscreen recommendations. The article is referenced in a 2022 expert panel consensus paper she coauthored on photoprotection “for skin of all color.” But she pointed out that considering skin type alone is inadequate.

Questions for patients in joint decision-making should include lifestyle and work choices such as whether they work inside or outside, and how much sun exposure they get in a typical day. Heat and humidity levels should also be considered as should a patient’s susceptibility to dyspigmentation. “That could be overall darkening of the skin, mottled hyperpigmentation, actinic dyspigmentation, and, of course, propensity for skin cancer,” she said.
 

Use differs by race

Dr. Taylor, who is also vice chair for diversity, equity and inclusion in the department of dermatology at the University of Pennsylvania, pointed out that sunscreen use differs considerably by race.

In study of 8,952 adults in the United States who reported that they were sun sensitive found that a subset of adults with skin of color were significantly less likely to use sunscreen when compared with non-Hispanic White adults: Non-Hispanic Black (adjusted odds ratio, 0.43); non-Hispanic Asian (aOR. 0.54); and Hispanic (aOR, 0.70) adults.

In the study, non-Hispanic Black and Hispanic adults were significantly less likely to use sunscreens with an SPF greater than 15. In addition, non-Hispanic Black, non-Hispanic Asian, and Hispanic adults were significantly more likely than non-Hispanic Whites to wear long sleeves when outside. Such differences are important to keep in mind when advising patients about sunscreens, she said.
 

Protection for lighter-colored skin

Dr. Taylor said that, for patients with lighter skin tones, “we really want to protect against ultraviolet B as well as ultraviolet A, particularly ultraviolet A2. Ultraviolet radiation is going to cause DNA damage.” Patients with Fitzpatrick skin types I, II, or III are most susceptible to the effects of UVB with sunburn inflammation, which will cause erythema and tanning, and immunosuppression.

“For those who are I, II, and III, we do want to recommend a broad-spectrum, photostable sunscreen with a critical wavelength of 370 nanometers, which is going to protect from both UVB and UVA2,” she said.

Sunscreen recommendations are meant to be paired with advice to avoid midday sun from 10 a.m. to 2 p.m., wearing protective clothing and accessories, and seeking shade, she noted.

Dr. Taylor said, for those patients with lighter skin who are more susceptible to photodamage and premature aging, physicians should recommend sunscreens that contain DNA repair enzymes such as photolyases and sunscreens that contain antioxidants that can prevent or reverse DNA damage. “The exogenous form of these lyases have been manufactured and added to sunscreens,” Dr. Taylor said. “They’re readily available in the United States. That is something to consider for patients with significant photodamage.”

Retinoids can also help alleviate or reverse photodamage, she added.
 

Protection for darker-colored skin

“Many people of color do not believe they need sunscreen,” Dr. Taylor said. But studies show that, although there may be more intrinsic protection, sunscreen is still needed.

Over 30 years ago, Halder and colleagues reported that melanin in skin of color can filter two to five times more UV radiation, and in a paper on the photoprotective role of melanin, Kaidbey and colleagues found that skin types V and VI had an intrinsic SPF of 13 when compared with those who have lighter complexions, which had an SPF of 3.

Sunburns seem to occur less frequently in people with skin of color, but that may be because erythema is less apparent in people with darker skin tones or because of differences in personal definitions of sunburn, Dr. Taylor said.

“Skin of color can and does sustain sunburns and sunscreen will help prevent that,” she said, adding that a recommendation of an SPF 30 is likely sufficient for these patients. Dr. Taylor noted that sunscreens for patients with darker skin often cost substantially more than those for lighter skin, and that should be considered in recommendations.

[embed:render:related:node:260005]

Tinted sunscreens

Dr. Taylor said that, while broad-spectrum photostable sunscreens protect against UVB and UVA 2, they don’t protect from visible light and UVA1. Two methods to add that protection are using inorganic tinted sunscreens that contain iron oxide or pigmentary titanium dioxide. Dr. Taylor was a coauthor of a practical guide to tinted sunscreens published in 2022.

“For iron oxide, we want a concentration of 3% or greater,” she said, adding that the percentage often is not known because if it is contained in a sunscreen, it is listed as an inactive ingredient.

Another method to address visible light and UVA1 is the use of antioxidant-containing sunscreens with vitamin E, vitamin C, or licochalcone A, Dr. Taylor said.

During the question-and-answer period following her presentation, Amit Pandya, MD, adjunct professor of dermatology at University of Texas Southwestern Medical Center, Dallas, asked why “every makeup, every sunscreen, just says iron oxide,” since it is known that visible light will cause pigmentation, especially in those with darker skin tones.

He urged pushing for a law that would require listing the percentage of iron oxide on products to assure it is sufficient, according to what the literature recommends.

Conference Chair Pearl Grimes, MD, director of the Vitiligo and Pigmentation Institute of Southern California, Los Angeles, said that she recommends tinted sunscreens almost exclusively for her patients, but those with darker skin colors struggle to match color.

Dr. Taylor referred to an analysis published in 2022 of 58 over-the counter sunscreens, which found that only 38% of tinted sunscreens was available in more than one shade, “which is a problem for many of our patients.” She said that providing samples with different hues and tactile sensations may help patients find the right product.

Dr. Taylor disclosed being on the advisory boards for AbbVie, Avita Medical, Beiersdorf, Biorez, Eli Lily, EPI Health, Evolus, Galderma, Hugel America, Johnson and Johnson, L’Oreal USA, MedScape, Pfizer, Scientis US, UCB, Vichy Laboratories. She is a consultant for Arcutis Biothermapeutics, Beiersdorf, Bristol-Myers Squibb, Cara Therapeutics, Dior, and Sanofi. She has done contracted research for Allergan Aesthetics, Concert Pharmaceuticals, Croma-Pharma, Eli Lilly, and Pfizer, and has an ownership interest in Armis Scientific, GloGetter, and Piction Health.

Medscape and this news organization are owned by the same parent company.

CHICAGO – Sunscreen recommendations are most effective when a multitude of factors are considered, Susan C. Taylor, MD, said during a presentation on personal photoprotection at the inaugural Pigmentary Disorders Exchange Symposium.

Among the first factors physicians should consider before recommending sunscreen are a patient’s Fitzpatrick skin type, risks for burning or tanning, underlying skin disorders, and medications the patient is taking, Dr. Taylor, professor of dermatology at the University of Pennsylvania, Philadelphia, said at the meeting, provided by MedscapeLIVE! If patients are on hypertensives, for example, medications can make them more photosensitive.

Taylor_Susan_PA_web.jpg

Consider skin type

Dr. Taylor said she was dismayed by the results of a recent study, which found that 43% of dermatologists who responded to a survey reported that they never, rarely, or only sometimes took a patient’s skin type into account when making sunscreen recommendations. The article is referenced in a 2022 expert panel consensus paper she coauthored on photoprotection “for skin of all color.” But she pointed out that considering skin type alone is inadequate.

Questions for patients in joint decision-making should include lifestyle and work choices such as whether they work inside or outside, and how much sun exposure they get in a typical day. Heat and humidity levels should also be considered as should a patient’s susceptibility to dyspigmentation. “That could be overall darkening of the skin, mottled hyperpigmentation, actinic dyspigmentation, and, of course, propensity for skin cancer,” she said.
 

Use differs by race

Dr. Taylor, who is also vice chair for diversity, equity and inclusion in the department of dermatology at the University of Pennsylvania, pointed out that sunscreen use differs considerably by race.

In study of 8,952 adults in the United States who reported that they were sun sensitive found that a subset of adults with skin of color were significantly less likely to use sunscreen when compared with non-Hispanic White adults: Non-Hispanic Black (adjusted odds ratio, 0.43); non-Hispanic Asian (aOR. 0.54); and Hispanic (aOR, 0.70) adults.

In the study, non-Hispanic Black and Hispanic adults were significantly less likely to use sunscreens with an SPF greater than 15. In addition, non-Hispanic Black, non-Hispanic Asian, and Hispanic adults were significantly more likely than non-Hispanic Whites to wear long sleeves when outside. Such differences are important to keep in mind when advising patients about sunscreens, she said.
 

Protection for lighter-colored skin

Dr. Taylor said that, for patients with lighter skin tones, “we really want to protect against ultraviolet B as well as ultraviolet A, particularly ultraviolet A2. Ultraviolet radiation is going to cause DNA damage.” Patients with Fitzpatrick skin types I, II, or III are most susceptible to the effects of UVB with sunburn inflammation, which will cause erythema and tanning, and immunosuppression.

“For those who are I, II, and III, we do want to recommend a broad-spectrum, photostable sunscreen with a critical wavelength of 370 nanometers, which is going to protect from both UVB and UVA2,” she said.

Sunscreen recommendations are meant to be paired with advice to avoid midday sun from 10 a.m. to 2 p.m., wearing protective clothing and accessories, and seeking shade, she noted.

Dr. Taylor said, for those patients with lighter skin who are more susceptible to photodamage and premature aging, physicians should recommend sunscreens that contain DNA repair enzymes such as photolyases and sunscreens that contain antioxidants that can prevent or reverse DNA damage. “The exogenous form of these lyases have been manufactured and added to sunscreens,” Dr. Taylor said. “They’re readily available in the United States. That is something to consider for patients with significant photodamage.”

Retinoids can also help alleviate or reverse photodamage, she added.
 

Protection for darker-colored skin

“Many people of color do not believe they need sunscreen,” Dr. Taylor said. But studies show that, although there may be more intrinsic protection, sunscreen is still needed.

Over 30 years ago, Halder and colleagues reported that melanin in skin of color can filter two to five times more UV radiation, and in a paper on the photoprotective role of melanin, Kaidbey and colleagues found that skin types V and VI had an intrinsic SPF of 13 when compared with those who have lighter complexions, which had an SPF of 3.

Sunburns seem to occur less frequently in people with skin of color, but that may be because erythema is less apparent in people with darker skin tones or because of differences in personal definitions of sunburn, Dr. Taylor said.

“Skin of color can and does sustain sunburns and sunscreen will help prevent that,” she said, adding that a recommendation of an SPF 30 is likely sufficient for these patients. Dr. Taylor noted that sunscreens for patients with darker skin often cost substantially more than those for lighter skin, and that should be considered in recommendations.

[embed:render:related:node:260005]

Tinted sunscreens

Dr. Taylor said that, while broad-spectrum photostable sunscreens protect against UVB and UVA 2, they don’t protect from visible light and UVA1. Two methods to add that protection are using inorganic tinted sunscreens that contain iron oxide or pigmentary titanium dioxide. Dr. Taylor was a coauthor of a practical guide to tinted sunscreens published in 2022.

“For iron oxide, we want a concentration of 3% or greater,” she said, adding that the percentage often is not known because if it is contained in a sunscreen, it is listed as an inactive ingredient.

Another method to address visible light and UVA1 is the use of antioxidant-containing sunscreens with vitamin E, vitamin C, or licochalcone A, Dr. Taylor said.

During the question-and-answer period following her presentation, Amit Pandya, MD, adjunct professor of dermatology at University of Texas Southwestern Medical Center, Dallas, asked why “every makeup, every sunscreen, just says iron oxide,” since it is known that visible light will cause pigmentation, especially in those with darker skin tones.

He urged pushing for a law that would require listing the percentage of iron oxide on products to assure it is sufficient, according to what the literature recommends.

Conference Chair Pearl Grimes, MD, director of the Vitiligo and Pigmentation Institute of Southern California, Los Angeles, said that she recommends tinted sunscreens almost exclusively for her patients, but those with darker skin colors struggle to match color.

Dr. Taylor referred to an analysis published in 2022 of 58 over-the counter sunscreens, which found that only 38% of tinted sunscreens was available in more than one shade, “which is a problem for many of our patients.” She said that providing samples with different hues and tactile sensations may help patients find the right product.

Dr. Taylor disclosed being on the advisory boards for AbbVie, Avita Medical, Beiersdorf, Biorez, Eli Lily, EPI Health, Evolus, Galderma, Hugel America, Johnson and Johnson, L’Oreal USA, MedScape, Pfizer, Scientis US, UCB, Vichy Laboratories. She is a consultant for Arcutis Biothermapeutics, Beiersdorf, Bristol-Myers Squibb, Cara Therapeutics, Dior, and Sanofi. She has done contracted research for Allergan Aesthetics, Concert Pharmaceuticals, Croma-Pharma, Eli Lilly, and Pfizer, and has an ownership interest in Armis Scientific, GloGetter, and Piction Health.

Medscape and this news organization are owned by the same parent company.

CHICAGO – Sunscreen recommendations are most effective when a multitude of factors are considered, Susan C. Taylor, MD, said during a presentation on personal photoprotection at the inaugural Pigmentary Disorders Exchange Symposium.

Among the first factors physicians should consider before recommending sunscreen are a patient’s Fitzpatrick skin type, risks for burning or tanning, underlying skin disorders, and medications the patient is taking, Dr. Taylor, professor of dermatology at the University of Pennsylvania, Philadelphia, said at the meeting, provided by MedscapeLIVE! If patients are on hypertensives, for example, medications can make them more photosensitive.

Taylor_Susan_PA_web.jpg

Consider skin type

Dr. Taylor said she was dismayed by the results of a recent study, which found that 43% of dermatologists who responded to a survey reported that they never, rarely, or only sometimes took a patient’s skin type into account when making sunscreen recommendations. The article is referenced in a 2022 expert panel consensus paper she coauthored on photoprotection “for skin of all color.” But she pointed out that considering skin type alone is inadequate.

Questions for patients in joint decision-making should include lifestyle and work choices such as whether they work inside or outside, and how much sun exposure they get in a typical day. Heat and humidity levels should also be considered as should a patient’s susceptibility to dyspigmentation. “That could be overall darkening of the skin, mottled hyperpigmentation, actinic dyspigmentation, and, of course, propensity for skin cancer,” she said.
 

Use differs by race

Dr. Taylor, who is also vice chair for diversity, equity and inclusion in the department of dermatology at the University of Pennsylvania, pointed out that sunscreen use differs considerably by race.

In study of 8,952 adults in the United States who reported that they were sun sensitive found that a subset of adults with skin of color were significantly less likely to use sunscreen when compared with non-Hispanic White adults: Non-Hispanic Black (adjusted odds ratio, 0.43); non-Hispanic Asian (aOR. 0.54); and Hispanic (aOR, 0.70) adults.

In the study, non-Hispanic Black and Hispanic adults were significantly less likely to use sunscreens with an SPF greater than 15. In addition, non-Hispanic Black, non-Hispanic Asian, and Hispanic adults were significantly more likely than non-Hispanic Whites to wear long sleeves when outside. Such differences are important to keep in mind when advising patients about sunscreens, she said.
 

Protection for lighter-colored skin

Dr. Taylor said that, for patients with lighter skin tones, “we really want to protect against ultraviolet B as well as ultraviolet A, particularly ultraviolet A2. Ultraviolet radiation is going to cause DNA damage.” Patients with Fitzpatrick skin types I, II, or III are most susceptible to the effects of UVB with sunburn inflammation, which will cause erythema and tanning, and immunosuppression.

“For those who are I, II, and III, we do want to recommend a broad-spectrum, photostable sunscreen with a critical wavelength of 370 nanometers, which is going to protect from both UVB and UVA2,” she said.

Sunscreen recommendations are meant to be paired with advice to avoid midday sun from 10 a.m. to 2 p.m., wearing protective clothing and accessories, and seeking shade, she noted.

Dr. Taylor said, for those patients with lighter skin who are more susceptible to photodamage and premature aging, physicians should recommend sunscreens that contain DNA repair enzymes such as photolyases and sunscreens that contain antioxidants that can prevent or reverse DNA damage. “The exogenous form of these lyases have been manufactured and added to sunscreens,” Dr. Taylor said. “They’re readily available in the United States. That is something to consider for patients with significant photodamage.”

Retinoids can also help alleviate or reverse photodamage, she added.
 

Protection for darker-colored skin

“Many people of color do not believe they need sunscreen,” Dr. Taylor said. But studies show that, although there may be more intrinsic protection, sunscreen is still needed.

Over 30 years ago, Halder and colleagues reported that melanin in skin of color can filter two to five times more UV radiation, and in a paper on the photoprotective role of melanin, Kaidbey and colleagues found that skin types V and VI had an intrinsic SPF of 13 when compared with those who have lighter complexions, which had an SPF of 3.

Sunburns seem to occur less frequently in people with skin of color, but that may be because erythema is less apparent in people with darker skin tones or because of differences in personal definitions of sunburn, Dr. Taylor said.

“Skin of color can and does sustain sunburns and sunscreen will help prevent that,” she said, adding that a recommendation of an SPF 30 is likely sufficient for these patients. Dr. Taylor noted that sunscreens for patients with darker skin often cost substantially more than those for lighter skin, and that should be considered in recommendations.

[embed:render:related:node:260005]

Tinted sunscreens

Dr. Taylor said that, while broad-spectrum photostable sunscreens protect against UVB and UVA 2, they don’t protect from visible light and UVA1. Two methods to add that protection are using inorganic tinted sunscreens that contain iron oxide or pigmentary titanium dioxide. Dr. Taylor was a coauthor of a practical guide to tinted sunscreens published in 2022.

“For iron oxide, we want a concentration of 3% or greater,” she said, adding that the percentage often is not known because if it is contained in a sunscreen, it is listed as an inactive ingredient.

Another method to address visible light and UVA1 is the use of antioxidant-containing sunscreens with vitamin E, vitamin C, or licochalcone A, Dr. Taylor said.

During the question-and-answer period following her presentation, Amit Pandya, MD, adjunct professor of dermatology at University of Texas Southwestern Medical Center, Dallas, asked why “every makeup, every sunscreen, just says iron oxide,” since it is known that visible light will cause pigmentation, especially in those with darker skin tones.

He urged pushing for a law that would require listing the percentage of iron oxide on products to assure it is sufficient, according to what the literature recommends.

Conference Chair Pearl Grimes, MD, director of the Vitiligo and Pigmentation Institute of Southern California, Los Angeles, said that she recommends tinted sunscreens almost exclusively for her patients, but those with darker skin colors struggle to match color.

Dr. Taylor referred to an analysis published in 2022 of 58 over-the counter sunscreens, which found that only 38% of tinted sunscreens was available in more than one shade, “which is a problem for many of our patients.” She said that providing samples with different hues and tactile sensations may help patients find the right product.

Dr. Taylor disclosed being on the advisory boards for AbbVie, Avita Medical, Beiersdorf, Biorez, Eli Lily, EPI Health, Evolus, Galderma, Hugel America, Johnson and Johnson, L’Oreal USA, MedScape, Pfizer, Scientis US, UCB, Vichy Laboratories. She is a consultant for Arcutis Biothermapeutics, Beiersdorf, Bristol-Myers Squibb, Cara Therapeutics, Dior, and Sanofi. She has done contracted research for Allergan Aesthetics, Concert Pharmaceuticals, Croma-Pharma, Eli Lilly, and Pfizer, and has an ownership interest in Armis Scientific, GloGetter, and Piction Health.

Medscape and this news organization are owned by the same parent company.

PHOENIX – Ever since PicoSure became the first picosecond laser cleared by the Food and Drug Administration for the treatment of unwanted tattoos and pigmented lesions in 2012, new uses for this technology continue to expand.

Now, several different FDA-cleared picosecond devices are used for treating conditions ranging from nevus of Ota, café-au-lait macules, and lentigines to melasma, photoaging, yellow tattoos, and recalcitrant tattoos. These include PicoWay, PicoSure, Enlighten, PicoPlus, PiQo4, and Quanta Pico, among others.

“PicoWay technology has integrated nicely into my practice in Houston, the most ethnically diverse city in the country, with its ability to safely treat a number of various benign, congenital, and acquired epidermal and dermal pigmented lesions with ultrashort pulse duration and low thermal impact, which greatly reduces the risk of postinflammatory hyperpigmentation even in darker skin types,” Paul M. Friedman, MD, director of the Dermatology and Laser Surgery Center, Houston, said at the annual conference of the American Society for Laser Medicine and Surgery.

Friedman_Paul_M_TX_1_web.jpg

He emphasized the importance of therapeutic clinical endpoints, noting that with q-switched lasers, “you’re looking for immediate whitening, whereas with picosecond lasers, your endpoint is slight whitening or slight darkening depending on wavelength, indication, and skin type. The ability to fractionate picosecond pulses has also allowed us to utilize this technology for photoaging as well as acne scarring.”

The PicoWay system includes a 730-nm picosecond titanium sapphire handpiece, which is FDA cleared for treatment of benign pigmented lesions and blue and green tattoo removal. Dr. Friedman said that he has seen good clinical results using the handpiece for café-au-lait macules, particularly in skin of color.

In an abstract presented at the ASLMS meeting, he and his colleagues presented a retrospective review of 12 patients with café-au-lait macules with Fitzpatrick skin types III-VI who were treated with the PicoWay 730 nm handpiece between April 2021 and January 2023. Patients received a mean of 3.1 treatments at intervals that ranged from 5 to 40 weeks. Clinical photographs were graded by three board-certified dermatologists using a 5-point visual analogue scale.

Overall, patients were rated to have a mean improvement of 26%-50%. Two patients achieved 100% clearance after four to five treatment sessions. “Café-au-lait macules with smooth borders responded less well to laser treatment, confirming prior studies at our center,” he said. “We often educate parents that café-au-lait macules may recur over time, especially with repeated sun exposure.”
 

Treating melasma

Dr. Friedman’s go-to devices for melasma include the low-density, low-energy 1,927-nm fractional diode laser; the 1,064 nm picosecond Nd:YAG, the low-fluence 1,064 nm Q-switched Nd:YAG with a nanosecond pulse duration, and the 595-nm pulsed dye laser for lesions exhibiting underlying vascularity. He said that combining therapies that target pigment and vasculature may be ideal to prevent relapses. “Melasma is a multifactorial condition so by improving patient education and expectation alongside advances in laser treatment of melasma, we have ultimately improved our ability to treat this condition,” he said.

“We’re approaching it from all angles, with ultraviolet photography and spectrocolorimetry, behavioral modifications, topical skin-lightening agents, broad spectrum sunscreens with protection against visible light, and oral tranexamic acid in advanced cases. Then, we intervene with these energy-based modalities, and the bottom line is, less energy and density is more, with lengthened treatment intervals. In 2023, we’re better than we’ve ever been in terms of our ability to safely and effectively improve melasma.”

[embed:render:related:node:260579]

Novel lasers

Dr. Friedman also described the UltraClear, a novel ablative fractional 2,910-nm erbium-doped glass fiber laser that delivers a customized blend of ablation and coagulation based on the patient’s condition, skin type, and tolerability for down time. He provided an overview of the versatility of what he described as highly customizable technology for conditions such as photoaging and dyschromia in patients of various skin types, making it a very versatile platform in his practice.

The AVAVA MIRIA system is a “next generation” laser “where you’re able to use a focal point. Basically, you’re treating the skin from the inside out in a 3D manner and you’re able to focus intradermally up to 1 mm with high energy 1,064 nm or 1,550 nm,” he said. “It’s a unique conical geometry that spares the epidermis, combined with sapphire tip cooling and images the skin at the same time with the potential for personalized treatments of dyschromia and photoaging in all skin types. It’s truly remarkable where the technology is heading.”

Dr. Friedman disclosed that he has received consulting fees from Allergan, Galderma, Acclaro, Merz Aesthetics, Solta Medical, and Cytrellis. He has conducted contracted research for Sofwave and is a member of the speakers bureau for Solta Medical and Candela.

PHOENIX – Ever since PicoSure became the first picosecond laser cleared by the Food and Drug Administration for the treatment of unwanted tattoos and pigmented lesions in 2012, new uses for this technology continue to expand.

Now, several different FDA-cleared picosecond devices are used for treating conditions ranging from nevus of Ota, café-au-lait macules, and lentigines to melasma, photoaging, yellow tattoos, and recalcitrant tattoos. These include PicoWay, PicoSure, Enlighten, PicoPlus, PiQo4, and Quanta Pico, among others.

“PicoWay technology has integrated nicely into my practice in Houston, the most ethnically diverse city in the country, with its ability to safely treat a number of various benign, congenital, and acquired epidermal and dermal pigmented lesions with ultrashort pulse duration and low thermal impact, which greatly reduces the risk of postinflammatory hyperpigmentation even in darker skin types,” Paul M. Friedman, MD, director of the Dermatology and Laser Surgery Center, Houston, said at the annual conference of the American Society for Laser Medicine and Surgery.

Friedman_Paul_M_TX_1_web.jpg

He emphasized the importance of therapeutic clinical endpoints, noting that with q-switched lasers, “you’re looking for immediate whitening, whereas with picosecond lasers, your endpoint is slight whitening or slight darkening depending on wavelength, indication, and skin type. The ability to fractionate picosecond pulses has also allowed us to utilize this technology for photoaging as well as acne scarring.”

The PicoWay system includes a 730-nm picosecond titanium sapphire handpiece, which is FDA cleared for treatment of benign pigmented lesions and blue and green tattoo removal. Dr. Friedman said that he has seen good clinical results using the handpiece for café-au-lait macules, particularly in skin of color.

In an abstract presented at the ASLMS meeting, he and his colleagues presented a retrospective review of 12 patients with café-au-lait macules with Fitzpatrick skin types III-VI who were treated with the PicoWay 730 nm handpiece between April 2021 and January 2023. Patients received a mean of 3.1 treatments at intervals that ranged from 5 to 40 weeks. Clinical photographs were graded by three board-certified dermatologists using a 5-point visual analogue scale.

Overall, patients were rated to have a mean improvement of 26%-50%. Two patients achieved 100% clearance after four to five treatment sessions. “Café-au-lait macules with smooth borders responded less well to laser treatment, confirming prior studies at our center,” he said. “We often educate parents that café-au-lait macules may recur over time, especially with repeated sun exposure.”
 

Treating melasma

Dr. Friedman’s go-to devices for melasma include the low-density, low-energy 1,927-nm fractional diode laser; the 1,064 nm picosecond Nd:YAG, the low-fluence 1,064 nm Q-switched Nd:YAG with a nanosecond pulse duration, and the 595-nm pulsed dye laser for lesions exhibiting underlying vascularity. He said that combining therapies that target pigment and vasculature may be ideal to prevent relapses. “Melasma is a multifactorial condition so by improving patient education and expectation alongside advances in laser treatment of melasma, we have ultimately improved our ability to treat this condition,” he said.

“We’re approaching it from all angles, with ultraviolet photography and spectrocolorimetry, behavioral modifications, topical skin-lightening agents, broad spectrum sunscreens with protection against visible light, and oral tranexamic acid in advanced cases. Then, we intervene with these energy-based modalities, and the bottom line is, less energy and density is more, with lengthened treatment intervals. In 2023, we’re better than we’ve ever been in terms of our ability to safely and effectively improve melasma.”

[embed:render:related:node:260579]

Novel lasers

Dr. Friedman also described the UltraClear, a novel ablative fractional 2,910-nm erbium-doped glass fiber laser that delivers a customized blend of ablation and coagulation based on the patient’s condition, skin type, and tolerability for down time. He provided an overview of the versatility of what he described as highly customizable technology for conditions such as photoaging and dyschromia in patients of various skin types, making it a very versatile platform in his practice.

The AVAVA MIRIA system is a “next generation” laser “where you’re able to use a focal point. Basically, you’re treating the skin from the inside out in a 3D manner and you’re able to focus intradermally up to 1 mm with high energy 1,064 nm or 1,550 nm,” he said. “It’s a unique conical geometry that spares the epidermis, combined with sapphire tip cooling and images the skin at the same time with the potential for personalized treatments of dyschromia and photoaging in all skin types. It’s truly remarkable where the technology is heading.”

Dr. Friedman disclosed that he has received consulting fees from Allergan, Galderma, Acclaro, Merz Aesthetics, Solta Medical, and Cytrellis. He has conducted contracted research for Sofwave and is a member of the speakers bureau for Solta Medical and Candela.

PHOENIX – Ever since PicoSure became the first picosecond laser cleared by the Food and Drug Administration for the treatment of unwanted tattoos and pigmented lesions in 2012, new uses for this technology continue to expand.

Now, several different FDA-cleared picosecond devices are used for treating conditions ranging from nevus of Ota, café-au-lait macules, and lentigines to melasma, photoaging, yellow tattoos, and recalcitrant tattoos. These include PicoWay, PicoSure, Enlighten, PicoPlus, PiQo4, and Quanta Pico, among others.

“PicoWay technology has integrated nicely into my practice in Houston, the most ethnically diverse city in the country, with its ability to safely treat a number of various benign, congenital, and acquired epidermal and dermal pigmented lesions with ultrashort pulse duration and low thermal impact, which greatly reduces the risk of postinflammatory hyperpigmentation even in darker skin types,” Paul M. Friedman, MD, director of the Dermatology and Laser Surgery Center, Houston, said at the annual conference of the American Society for Laser Medicine and Surgery.

Friedman_Paul_M_TX_1_web.jpg

He emphasized the importance of therapeutic clinical endpoints, noting that with q-switched lasers, “you’re looking for immediate whitening, whereas with picosecond lasers, your endpoint is slight whitening or slight darkening depending on wavelength, indication, and skin type. The ability to fractionate picosecond pulses has also allowed us to utilize this technology for photoaging as well as acne scarring.”

The PicoWay system includes a 730-nm picosecond titanium sapphire handpiece, which is FDA cleared for treatment of benign pigmented lesions and blue and green tattoo removal. Dr. Friedman said that he has seen good clinical results using the handpiece for café-au-lait macules, particularly in skin of color.

In an abstract presented at the ASLMS meeting, he and his colleagues presented a retrospective review of 12 patients with café-au-lait macules with Fitzpatrick skin types III-VI who were treated with the PicoWay 730 nm handpiece between April 2021 and January 2023. Patients received a mean of 3.1 treatments at intervals that ranged from 5 to 40 weeks. Clinical photographs were graded by three board-certified dermatologists using a 5-point visual analogue scale.

Overall, patients were rated to have a mean improvement of 26%-50%. Two patients achieved 100% clearance after four to five treatment sessions. “Café-au-lait macules with smooth borders responded less well to laser treatment, confirming prior studies at our center,” he said. “We often educate parents that café-au-lait macules may recur over time, especially with repeated sun exposure.”
 

Treating melasma

Dr. Friedman’s go-to devices for melasma include the low-density, low-energy 1,927-nm fractional diode laser; the 1,064 nm picosecond Nd:YAG, the low-fluence 1,064 nm Q-switched Nd:YAG with a nanosecond pulse duration, and the 595-nm pulsed dye laser for lesions exhibiting underlying vascularity. He said that combining therapies that target pigment and vasculature may be ideal to prevent relapses. “Melasma is a multifactorial condition so by improving patient education and expectation alongside advances in laser treatment of melasma, we have ultimately improved our ability to treat this condition,” he said.

“We’re approaching it from all angles, with ultraviolet photography and spectrocolorimetry, behavioral modifications, topical skin-lightening agents, broad spectrum sunscreens with protection against visible light, and oral tranexamic acid in advanced cases. Then, we intervene with these energy-based modalities, and the bottom line is, less energy and density is more, with lengthened treatment intervals. In 2023, we’re better than we’ve ever been in terms of our ability to safely and effectively improve melasma.”

[embed:render:related:node:260579]

Novel lasers

Dr. Friedman also described the UltraClear, a novel ablative fractional 2,910-nm erbium-doped glass fiber laser that delivers a customized blend of ablation and coagulation based on the patient’s condition, skin type, and tolerability for down time. He provided an overview of the versatility of what he described as highly customizable technology for conditions such as photoaging and dyschromia in patients of various skin types, making it a very versatile platform in his practice.

The AVAVA MIRIA system is a “next generation” laser “where you’re able to use a focal point. Basically, you’re treating the skin from the inside out in a 3D manner and you’re able to focus intradermally up to 1 mm with high energy 1,064 nm or 1,550 nm,” he said. “It’s a unique conical geometry that spares the epidermis, combined with sapphire tip cooling and images the skin at the same time with the potential for personalized treatments of dyschromia and photoaging in all skin types. It’s truly remarkable where the technology is heading.”

Dr. Friedman disclosed that he has received consulting fees from Allergan, Galderma, Acclaro, Merz Aesthetics, Solta Medical, and Cytrellis. He has conducted contracted research for Sofwave and is a member of the speakers bureau for Solta Medical and Candela.

Sunscreens marketed to individuals with skin of color are generally more expensive than products broadly marketed to consumers, and more than 40% contain a UV blocker that may create a white cast.

Sunscr_Blackchild_1369509501_web.jpg

Those are among the findings from a study by Michelle Xiong, a medical student at Brown University, Providence, R.I., and Erin M. Warshaw, MD, of the department of dermatology at Park Nicollet/Health Partners Health Services, Minneapolis, which was published online in the Journal of the American Academy of Dermatology.

“There is increasing awareness of the negative effects of ultraviolet (UV) light in individuals with skin of color (SOC), especially in regards to pigmentation disorders induced and/or exacerbated by UV exposure,” the authors wrote. “As a result, there has been a surge in sunscreens marketed to this population. We aimed to characterize cost, marketing claims, and potential allergenic ingredients in sunscreens marketed to individuals with SOC.”

Between December 2021 and October 2022, the researchers used the following search terms on Google: “sunscreen” plus “skin of 36 color,” “dark skin,” “brown skin,” “LatinX skin,” and/or “Black skin.” They extracted price, marketing claims, and ingredients from manufacturers’ websites and used 90 allergens contained in the American Contact Dermatitis Society 2020 Core series to identify potential allergens. Next, they combined cross-reactors/synonyms into allergen categories based on ACDS Contact Allergen Management Plan (CAMP) cross-reactor classification. If multiple ingredients in a sunscreen were represented by a single allergen category, it was counted only once. A similar approach was utilized for marketing categories.

[embed:render:related:node:254723]

A total of 12 sunscreens were included in the analysis: Absolute Joi, Black Girl Sunscreen, Black Girl Sunscreen Make It Matte, Bolden SPF Brightening Moisturizer, Eleven on the Defense Unrivaled Sun Serum, Kinlo Golden Rays Sunscreen, Live Tinted Hueguard 3-in-1 Mineral Sunscreen, Mele Dew The Most Sheer Moisturizer SPF30 Broad Spectrum Sunscreen, Mele No Shade Sunscreen Oil, Specific Beauty Active Radiance Day Moi, Unsun Mineral Sunscreen, and Urban Skin Rx Complexion Protection. Their average cost was $19.30 per ounce (range, $6.33-$50.00) and common marketing claims for these products were “no white cast” (91.7%), being free of an ingredient (83.3%), and “moisturizing” (75%).

Of the 12 sunscreens, 7 (58.3%) contained a chemical sunscreen agent, 5 (41.7%) contained a physical UV blocker, and all contained at least one allergen. The average number of allergens per product was 4.7, most commonly fragrance/botanicals (83.3%), tocopherol (83.3%), sodium benzoates/derivatives (58.3%), and sorbitan sesquiolate/derivatives (58.3%).

“Average cost of sunscreens marketed to individuals with SOC was $19.30/oz, much higher than the median price of $3.32/oz reported in a separate study of 65 popular sunscreens,” the study authors wrote. “As many of the sunscreens in our study were sold by smaller businesses, higher prices may be due to higher production costs or a perceived smaller market.”

The authors expressed surprise that five sunscreens marketed to individuals with SOC contained a physical UV blocker which may create a white cast. They contacted the manufacturers of these five sunscreens and confirmed that three used micronized formulations. “While ingested/inhaled nanoparticles of titanium dioxide may cause tissue effects, most studies of topical products show excellent safety,” they wrote.

They also noted that the average of 4.7 allergens per product observed in the analysis was similar to the average of 4.9 seen in a separate study of 52 popular sunscreens. “However, that study only included 34 allergens while this study evaluated 90 allergens,” the authors wrote. “Consumers and providers should be aware sunscreens marketed to individuals with SOC may cause allergic contact dermatitis,” they commented.

Green_Lawrence_J_MD_web.jpg

“It is interesting to see how costly these products are now compared to store bought and general commercially available sunscreens several years ago,” said Lawrence J. Green, clinical professor of dermatology at George Washington University, Washington, who was asked to comment on the study. “However, to me that is not surprising as products marketed and targeted to specific populations are often priced at a premium. It wasn’t clear to me how many of these specialized online SOC sunscreens are tinted. I wish the authors had compared the cost of tinted sunscreens in general to nontinted sunscreens because tinted ones are more useful for SOC, because when rubbed in, they can readily match SOC and can also offer protection in the visible light spectrum.”

The authors reported having no financial disclosures; the study had no funding source. Dr. Green disclosed that he is a speaker, consultant, or investigator for many pharmaceutical companies.

Sunscreens marketed to individuals with skin of color are generally more expensive than products broadly marketed to consumers, and more than 40% contain a UV blocker that may create a white cast.

Sunscr_Blackchild_1369509501_web.jpg

Those are among the findings from a study by Michelle Xiong, a medical student at Brown University, Providence, R.I., and Erin M. Warshaw, MD, of the department of dermatology at Park Nicollet/Health Partners Health Services, Minneapolis, which was published online in the Journal of the American Academy of Dermatology.

“There is increasing awareness of the negative effects of ultraviolet (UV) light in individuals with skin of color (SOC), especially in regards to pigmentation disorders induced and/or exacerbated by UV exposure,” the authors wrote. “As a result, there has been a surge in sunscreens marketed to this population. We aimed to characterize cost, marketing claims, and potential allergenic ingredients in sunscreens marketed to individuals with SOC.”

Between December 2021 and October 2022, the researchers used the following search terms on Google: “sunscreen” plus “skin of 36 color,” “dark skin,” “brown skin,” “LatinX skin,” and/or “Black skin.” They extracted price, marketing claims, and ingredients from manufacturers’ websites and used 90 allergens contained in the American Contact Dermatitis Society 2020 Core series to identify potential allergens. Next, they combined cross-reactors/synonyms into allergen categories based on ACDS Contact Allergen Management Plan (CAMP) cross-reactor classification. If multiple ingredients in a sunscreen were represented by a single allergen category, it was counted only once. A similar approach was utilized for marketing categories.

[embed:render:related:node:254723]

A total of 12 sunscreens were included in the analysis: Absolute Joi, Black Girl Sunscreen, Black Girl Sunscreen Make It Matte, Bolden SPF Brightening Moisturizer, Eleven on the Defense Unrivaled Sun Serum, Kinlo Golden Rays Sunscreen, Live Tinted Hueguard 3-in-1 Mineral Sunscreen, Mele Dew The Most Sheer Moisturizer SPF30 Broad Spectrum Sunscreen, Mele No Shade Sunscreen Oil, Specific Beauty Active Radiance Day Moi, Unsun Mineral Sunscreen, and Urban Skin Rx Complexion Protection. Their average cost was $19.30 per ounce (range, $6.33-$50.00) and common marketing claims for these products were “no white cast” (91.7%), being free of an ingredient (83.3%), and “moisturizing” (75%).

Of the 12 sunscreens, 7 (58.3%) contained a chemical sunscreen agent, 5 (41.7%) contained a physical UV blocker, and all contained at least one allergen. The average number of allergens per product was 4.7, most commonly fragrance/botanicals (83.3%), tocopherol (83.3%), sodium benzoates/derivatives (58.3%), and sorbitan sesquiolate/derivatives (58.3%).

“Average cost of sunscreens marketed to individuals with SOC was $19.30/oz, much higher than the median price of $3.32/oz reported in a separate study of 65 popular sunscreens,” the study authors wrote. “As many of the sunscreens in our study were sold by smaller businesses, higher prices may be due to higher production costs or a perceived smaller market.”

The authors expressed surprise that five sunscreens marketed to individuals with SOC contained a physical UV blocker which may create a white cast. They contacted the manufacturers of these five sunscreens and confirmed that three used micronized formulations. “While ingested/inhaled nanoparticles of titanium dioxide may cause tissue effects, most studies of topical products show excellent safety,” they wrote.

They also noted that the average of 4.7 allergens per product observed in the analysis was similar to the average of 4.9 seen in a separate study of 52 popular sunscreens. “However, that study only included 34 allergens while this study evaluated 90 allergens,” the authors wrote. “Consumers and providers should be aware sunscreens marketed to individuals with SOC may cause allergic contact dermatitis,” they commented.

Green_Lawrence_J_MD_web.jpg

“It is interesting to see how costly these products are now compared to store bought and general commercially available sunscreens several years ago,” said Lawrence J. Green, clinical professor of dermatology at George Washington University, Washington, who was asked to comment on the study. “However, to me that is not surprising as products marketed and targeted to specific populations are often priced at a premium. It wasn’t clear to me how many of these specialized online SOC sunscreens are tinted. I wish the authors had compared the cost of tinted sunscreens in general to nontinted sunscreens because tinted ones are more useful for SOC, because when rubbed in, they can readily match SOC and can also offer protection in the visible light spectrum.”

The authors reported having no financial disclosures; the study had no funding source. Dr. Green disclosed that he is a speaker, consultant, or investigator for many pharmaceutical companies.

Sunscreens marketed to individuals with skin of color are generally more expensive than products broadly marketed to consumers, and more than 40% contain a UV blocker that may create a white cast.

Sunscr_Blackchild_1369509501_web.jpg

Those are among the findings from a study by Michelle Xiong, a medical student at Brown University, Providence, R.I., and Erin M. Warshaw, MD, of the department of dermatology at Park Nicollet/Health Partners Health Services, Minneapolis, which was published online in the Journal of the American Academy of Dermatology.

“There is increasing awareness of the negative effects of ultraviolet (UV) light in individuals with skin of color (SOC), especially in regards to pigmentation disorders induced and/or exacerbated by UV exposure,” the authors wrote. “As a result, there has been a surge in sunscreens marketed to this population. We aimed to characterize cost, marketing claims, and potential allergenic ingredients in sunscreens marketed to individuals with SOC.”

Between December 2021 and October 2022, the researchers used the following search terms on Google: “sunscreen” plus “skin of 36 color,” “dark skin,” “brown skin,” “LatinX skin,” and/or “Black skin.” They extracted price, marketing claims, and ingredients from manufacturers’ websites and used 90 allergens contained in the American Contact Dermatitis Society 2020 Core series to identify potential allergens. Next, they combined cross-reactors/synonyms into allergen categories based on ACDS Contact Allergen Management Plan (CAMP) cross-reactor classification. If multiple ingredients in a sunscreen were represented by a single allergen category, it was counted only once. A similar approach was utilized for marketing categories.

[embed:render:related:node:254723]

A total of 12 sunscreens were included in the analysis: Absolute Joi, Black Girl Sunscreen, Black Girl Sunscreen Make It Matte, Bolden SPF Brightening Moisturizer, Eleven on the Defense Unrivaled Sun Serum, Kinlo Golden Rays Sunscreen, Live Tinted Hueguard 3-in-1 Mineral Sunscreen, Mele Dew The Most Sheer Moisturizer SPF30 Broad Spectrum Sunscreen, Mele No Shade Sunscreen Oil, Specific Beauty Active Radiance Day Moi, Unsun Mineral Sunscreen, and Urban Skin Rx Complexion Protection. Their average cost was $19.30 per ounce (range, $6.33-$50.00) and common marketing claims for these products were “no white cast” (91.7%), being free of an ingredient (83.3%), and “moisturizing” (75%).

Of the 12 sunscreens, 7 (58.3%) contained a chemical sunscreen agent, 5 (41.7%) contained a physical UV blocker, and all contained at least one allergen. The average number of allergens per product was 4.7, most commonly fragrance/botanicals (83.3%), tocopherol (83.3%), sodium benzoates/derivatives (58.3%), and sorbitan sesquiolate/derivatives (58.3%).

“Average cost of sunscreens marketed to individuals with SOC was $19.30/oz, much higher than the median price of $3.32/oz reported in a separate study of 65 popular sunscreens,” the study authors wrote. “As many of the sunscreens in our study were sold by smaller businesses, higher prices may be due to higher production costs or a perceived smaller market.”

The authors expressed surprise that five sunscreens marketed to individuals with SOC contained a physical UV blocker which may create a white cast. They contacted the manufacturers of these five sunscreens and confirmed that three used micronized formulations. “While ingested/inhaled nanoparticles of titanium dioxide may cause tissue effects, most studies of topical products show excellent safety,” they wrote.

They also noted that the average of 4.7 allergens per product observed in the analysis was similar to the average of 4.9 seen in a separate study of 52 popular sunscreens. “However, that study only included 34 allergens while this study evaluated 90 allergens,” the authors wrote. “Consumers and providers should be aware sunscreens marketed to individuals with SOC may cause allergic contact dermatitis,” they commented.

Green_Lawrence_J_MD_web.jpg

“It is interesting to see how costly these products are now compared to store bought and general commercially available sunscreens several years ago,” said Lawrence J. Green, clinical professor of dermatology at George Washington University, Washington, who was asked to comment on the study. “However, to me that is not surprising as products marketed and targeted to specific populations are often priced at a premium. It wasn’t clear to me how many of these specialized online SOC sunscreens are tinted. I wish the authors had compared the cost of tinted sunscreens in general to nontinted sunscreens because tinted ones are more useful for SOC, because when rubbed in, they can readily match SOC and can also offer protection in the visible light spectrum.”

The authors reported having no financial disclosures; the study had no funding source. Dr. Green disclosed that he is a speaker, consultant, or investigator for many pharmaceutical companies.

Also known as Asian or Chinese lizard’s tail (or Sam-baekcho in Korea), Saururus chinensis is an East Asian plant used in traditional medicine for various indications including edema, gonorrhea, jaundice, hypertension, leproma, pneumonia, and rheumatoid arthritis.^1,2 Specifically, Korean traditional medicine practitioners as well as Native Americans and early colonists in what is now the United States used the botanical to treat cancer, edema, rheumatoid arthritis, and other inflammatory conditions.^2-4 Modern research has produced evidence supporting the use of this plant in the dermatologic realm. This column focuses on the relevant bench science and possible applications.

Baumann_Leslie_S_USE_web.jpg

Various beneficial effects

In 2008, Yoo et al. found that the ethanol extract of the dried aerial parts of S. chinensis exhibit anti-inflammatory, antiangiogenic, and antinociceptive properties, which they suggested may partially account for the established therapeutic effects of the plant.² Also, Lee et al. reported in 2012 on the antiproliferative effects against human cancer cell lines of neolignans found in S. chinensis.⁵

Saururus_chinensis_web.jpg

Antioxidant properties have been associated with S. chinensis. In 2014, Kim et al. reported that S. chinensis extract attenuated the lipopolysaccharide (LPS)-stimulated neuroinflammatory response in BV-2 microglia cells, a result that the authors partly ascribed to the antioxidant constituents (particularly quercetin) of the plant.³
 

Atopic dermatitis

In 2008, Choi et al. determined that the leaves of S. chinensis impeded the formation of atopic dermatitis–like skin lesions in NC/Nga mice caused by repeated application of picryl chloride, potentially by stimulating the Th1 cell response, thus modulating Th1/Th2 imbalance. They concluded that S. chinensis has potential as an adjunct treatment option for atopic dermatitis.⁶

Anti-inflammatory activity

In 2010, Bae et al. studied the anti-inflammatory properties of sauchinone, a lignan derived from S. chinensis reputed to exert antioxidant, anti-inflammatory, and hepatoprotective activity,⁷ using LPS-stimulated RAW264.7 cells. They found that the lignan lowered tumor necrosis factor (TNF)–alpha synthesis by inhibiting the c-Raf-MEK1/2-ERK1/2 phosphorylation pathway, accounting for the anti-inflammatory effects of the S. chinensis constituent.⁸

[embed:render:related:node:259186]

More recently, Zhang et al. determined that the ethanol extract of S. chinensis leaves impaired proinflammatory gene expression by blocking the TAK1/AP-1 pathway in LPS-treated RAW264.7 macrophages. They suggested that such suppression is a significant step in the anti-inflammatory function exhibited by the plant.¹
 

Photoprotection

Park et al. investigated in 2013 the beneficial effects of sauchinone. Specifically, they studied potential photoprotective effects of the lignan against UVB in HaCaT human epidermal keratinocytes. They found that sauchinone (5-40 mcm) conferred significant protection as evaluated by cell viability and a toxicity assay. At 20-40 mcm, sauchinone blocked the upregulation of matrix metalloproteinase (MMP)–1 proteins and decrease of type 1 collagen engendered by UVB exposure. The investigators further discovered that sauchinone diminished the synthesis of reactive oxygen species. Overall, they determined that sauchinone imparted protection by suppressing extracellular signal-regulated kinase, c-Jun N-terminal kinase, and p38 MAPK signaling through the activation of oxidative defense enzymes.⁷

Potential use as a depigmenting agent

In 2009, Seo et al. isolated the lignans manassantin A and B from S. chinensis and determined that these compounds dose-dependently impeded melanin synthesis in alpha-melanocyte stimulating hormone (alpha-MSH)–activated melanoma B16 cells. They also noted that manassantin A suppressed forskolin- or 3-isobutyl-1-methylxanthine (IBMX)–induced melanin production and diminished cellular levels of IBMX-inducible tyrosinase protein. The lignan had no effect on the catalytic activity of cell-free tyrosinase, an important enzyme in melanin pigment production. The researchers concluded that their results suggest the potential for S. chinensis to be used to treat hyperpigmentation disorders.⁹

Two years later Lee et al. found that manassantin A, derived from S. chinensis, steadily suppressed the cAMP elevator IBMX- or dibutyryl cAMP-induced melanin synthesis in B16 cells or in melan-a melanocytes by down-regulating the expression of tyrosinase or the TRP1 gene. The lignan also inhibited microphthalmia-associated transcription factor (MITF) induction via the IBMX-activated cAMP-responsive element-binding protein (CREB) pathway, thus preventing the Ser-133 phosphorylation of CREB. The researchers concluded that this molecular disruption of melanin production suggests the potential for the use of manassantin A as a skin depigmenting agent.¹⁰

That same year, another S. chinensis lignan gained interest. Yun et al. investigated the effects of the S. chinensis lignan component saucerneol D on melanin synthesis in cAMP-elevated melanocytes. They found that the lignan efficiently impeded melanin product in B16 melanoma cells stimulated with alpha-MSH or other cAMP elevators. Saucerneol D was also credited with down-regulating alpha-MSH–induced gene expression of tyrosinase at the transcription level in B16 cells, suppressing alpha-MSH–induced phosphorylation of CREB in the cells, and inhibiting MITF induction. The investigators concluded that their results point to the potential of the S. chinensis lignan saucerneol D for the treatment of hyperpigmentation disorders.¹¹

In 2012, Chang et al. observed that an extract of S. chinensis and one of its constituent lignans, manassantin B, prevented melanosome transport in normal human melanocytes and Melan-a melanocytes, by interrupting the interaction between melanophilin and myosin Va. The investigators concluded that as a substance that can hinder melanosome transport, manassantin B displays potential for use as depigmenting product.¹²

The following year, Lee et al. studied the effects of S. chinensis extracts on the melanogenesis signaling pathway activated by alpha-MSH, finding dose-dependent inhibition without provoking cytotoxicity in B16F10 cells. Further, the team found evidence that the depigmenting activity exhibited by S. chinensis extracts may occur as a result of MITF and tyrosinase expression stemming from elevated activity of extracellular signal-regulated kinase (ERK). They concluded that their results support further examination of S. chinensis for its potential to contribute to skin whitening.⁵
 

Conclusion

S. chinensis has been used for many years in traditional medicine, particularly in Asia, and this interesting botanical cosmeceutical ingredient is included in Asian skin care products. Multiple lignan constituents in this plant-derived ingredient appear to yield anti-inflammatory, antioxidant, photoprotective, and antitumor properties. Its inhibitory effects on melanin production and its antiaging abilities make it worthy of further study and consideration of inclusion in antiaging skin care products.

Dr. Baumann is a private practice dermatologist, researcher, author, and entrepreneur in Miami. She founded the division of cosmetic dermatology at the University of Miami in 1997. The third edition of her bestselling textbook, “Cosmetic Dermatology,” was published in 2022. Dr. Baumann has received funding for advisory boards and/or clinical research trials from Allergan, Galderma, Johnson & Johnson, and Burt’s Bees. She is the CEO of Skin Type Solutions, a SaaS company used to generate skin care routines in the office and as an e-commerce solution. Write to her at dermnews@mdedge.com.

References

1. Zhang J et al. J Ethnopharmacol. 2021 Oct 28;279:114400.

2. Yoo HJ et al. J Ethnopharmacol. 2008 Nov 20;120(2):282-6.

3. Kim BW et al. BMC Complement Altern Med. 2014 Dec 16;14:502.

4. Lee DH et al. Biol Pharm Bull. 2013;36(5):772-9.

5. Lee YJ et al. Biol Pharm Bull. 2012;35(8):1361-6.

6. Choi MS et al. Biol Pharm Bull. 2008 Jan;31(1):51-6.

7. Park G et al. Biol Pharm Bull. 2013;36(7):1134-9.

8. Bae HB et al. Int Immunopharmacol. 2010 Sep;10(9):1022-8.

9. Seo CS et al. Phytother Res. 2009 Nov;23(11):1531-6.

10. Lee HD et al. Exp Dermatol. 2011 Sep;20(9):761-3.

11. Yun JY et al. Arch Pharm Res. 2011 Aug;34(8):1339-45.

12. Chang H et al. Pigment Cell Melanoma Res. 2012 Nov;25(6):765-72.
 

Also known as Asian or Chinese lizard’s tail (or Sam-baekcho in Korea), Saururus chinensis is an East Asian plant used in traditional medicine for various indications including edema, gonorrhea, jaundice, hypertension, leproma, pneumonia, and rheumatoid arthritis.^1,2 Specifically, Korean traditional medicine practitioners as well as Native Americans and early colonists in what is now the United States used the botanical to treat cancer, edema, rheumatoid arthritis, and other inflammatory conditions.^2-4 Modern research has produced evidence supporting the use of this plant in the dermatologic realm. This column focuses on the relevant bench science and possible applications.

Baumann_Leslie_S_USE_web.jpg

Various beneficial effects

In 2008, Yoo et al. found that the ethanol extract of the dried aerial parts of S. chinensis exhibit anti-inflammatory, antiangiogenic, and antinociceptive properties, which they suggested may partially account for the established therapeutic effects of the plant.² Also, Lee et al. reported in 2012 on the antiproliferative effects against human cancer cell lines of neolignans found in S. chinensis.⁵

Saururus_chinensis_web.jpg

Antioxidant properties have been associated with S. chinensis. In 2014, Kim et al. reported that S. chinensis extract attenuated the lipopolysaccharide (LPS)-stimulated neuroinflammatory response in BV-2 microglia cells, a result that the authors partly ascribed to the antioxidant constituents (particularly quercetin) of the plant.³
 

Atopic dermatitis

In 2008, Choi et al. determined that the leaves of S. chinensis impeded the formation of atopic dermatitis–like skin lesions in NC/Nga mice caused by repeated application of picryl chloride, potentially by stimulating the Th1 cell response, thus modulating Th1/Th2 imbalance. They concluded that S. chinensis has potential as an adjunct treatment option for atopic dermatitis.⁶

Anti-inflammatory activity

In 2010, Bae et al. studied the anti-inflammatory properties of sauchinone, a lignan derived from S. chinensis reputed to exert antioxidant, anti-inflammatory, and hepatoprotective activity,⁷ using LPS-stimulated RAW264.7 cells. They found that the lignan lowered tumor necrosis factor (TNF)–alpha synthesis by inhibiting the c-Raf-MEK1/2-ERK1/2 phosphorylation pathway, accounting for the anti-inflammatory effects of the S. chinensis constituent.⁸

[embed:render:related:node:259186]

More recently, Zhang et al. determined that the ethanol extract of S. chinensis leaves impaired proinflammatory gene expression by blocking the TAK1/AP-1 pathway in LPS-treated RAW264.7 macrophages. They suggested that such suppression is a significant step in the anti-inflammatory function exhibited by the plant.¹
 

Photoprotection

Park et al. investigated in 2013 the beneficial effects of sauchinone. Specifically, they studied potential photoprotective effects of the lignan against UVB in HaCaT human epidermal keratinocytes. They found that sauchinone (5-40 mcm) conferred significant protection as evaluated by cell viability and a toxicity assay. At 20-40 mcm, sauchinone blocked the upregulation of matrix metalloproteinase (MMP)–1 proteins and decrease of type 1 collagen engendered by UVB exposure. The investigators further discovered that sauchinone diminished the synthesis of reactive oxygen species. Overall, they determined that sauchinone imparted protection by suppressing extracellular signal-regulated kinase, c-Jun N-terminal kinase, and p38 MAPK signaling through the activation of oxidative defense enzymes.⁷

Potential use as a depigmenting agent

In 2009, Seo et al. isolated the lignans manassantin A and B from S. chinensis and determined that these compounds dose-dependently impeded melanin synthesis in alpha-melanocyte stimulating hormone (alpha-MSH)–activated melanoma B16 cells. They also noted that manassantin A suppressed forskolin- or 3-isobutyl-1-methylxanthine (IBMX)–induced melanin production and diminished cellular levels of IBMX-inducible tyrosinase protein. The lignan had no effect on the catalytic activity of cell-free tyrosinase, an important enzyme in melanin pigment production. The researchers concluded that their results suggest the potential for S. chinensis to be used to treat hyperpigmentation disorders.⁹

Two years later Lee et al. found that manassantin A, derived from S. chinensis, steadily suppressed the cAMP elevator IBMX- or dibutyryl cAMP-induced melanin synthesis in B16 cells or in melan-a melanocytes by down-regulating the expression of tyrosinase or the TRP1 gene. The lignan also inhibited microphthalmia-associated transcription factor (MITF) induction via the IBMX-activated cAMP-responsive element-binding protein (CREB) pathway, thus preventing the Ser-133 phosphorylation of CREB. The researchers concluded that this molecular disruption of melanin production suggests the potential for the use of manassantin A as a skin depigmenting agent.¹⁰

That same year, another S. chinensis lignan gained interest. Yun et al. investigated the effects of the S. chinensis lignan component saucerneol D on melanin synthesis in cAMP-elevated melanocytes. They found that the lignan efficiently impeded melanin product in B16 melanoma cells stimulated with alpha-MSH or other cAMP elevators. Saucerneol D was also credited with down-regulating alpha-MSH–induced gene expression of tyrosinase at the transcription level in B16 cells, suppressing alpha-MSH–induced phosphorylation of CREB in the cells, and inhibiting MITF induction. The investigators concluded that their results point to the potential of the S. chinensis lignan saucerneol D for the treatment of hyperpigmentation disorders.¹¹

In 2012, Chang et al. observed that an extract of S. chinensis and one of its constituent lignans, manassantin B, prevented melanosome transport in normal human melanocytes and Melan-a melanocytes, by interrupting the interaction between melanophilin and myosin Va. The investigators concluded that as a substance that can hinder melanosome transport, manassantin B displays potential for use as depigmenting product.¹²

The following year, Lee et al. studied the effects of S. chinensis extracts on the melanogenesis signaling pathway activated by alpha-MSH, finding dose-dependent inhibition without provoking cytotoxicity in B16F10 cells. Further, the team found evidence that the depigmenting activity exhibited by S. chinensis extracts may occur as a result of MITF and tyrosinase expression stemming from elevated activity of extracellular signal-regulated kinase (ERK). They concluded that their results support further examination of S. chinensis for its potential to contribute to skin whitening.⁵
 

Conclusion

S. chinensis has been used for many years in traditional medicine, particularly in Asia, and this interesting botanical cosmeceutical ingredient is included in Asian skin care products. Multiple lignan constituents in this plant-derived ingredient appear to yield anti-inflammatory, antioxidant, photoprotective, and antitumor properties. Its inhibitory effects on melanin production and its antiaging abilities make it worthy of further study and consideration of inclusion in antiaging skin care products.

Dr. Baumann is a private practice dermatologist, researcher, author, and entrepreneur in Miami. She founded the division of cosmetic dermatology at the University of Miami in 1997. The third edition of her bestselling textbook, “Cosmetic Dermatology,” was published in 2022. Dr. Baumann has received funding for advisory boards and/or clinical research trials from Allergan, Galderma, Johnson & Johnson, and Burt’s Bees. She is the CEO of Skin Type Solutions, a SaaS company used to generate skin care routines in the office and as an e-commerce solution. Write to her at dermnews@mdedge.com.

References

1. Zhang J et al. J Ethnopharmacol. 2021 Oct 28;279:114400.

2. Yoo HJ et al. J Ethnopharmacol. 2008 Nov 20;120(2):282-6.

3. Kim BW et al. BMC Complement Altern Med. 2014 Dec 16;14:502.

4. Lee DH et al. Biol Pharm Bull. 2013;36(5):772-9.

5. Lee YJ et al. Biol Pharm Bull. 2012;35(8):1361-6.

6. Choi MS et al. Biol Pharm Bull. 2008 Jan;31(1):51-6.

7. Park G et al. Biol Pharm Bull. 2013;36(7):1134-9.

8. Bae HB et al. Int Immunopharmacol. 2010 Sep;10(9):1022-8.

9. Seo CS et al. Phytother Res. 2009 Nov;23(11):1531-6.

10. Lee HD et al. Exp Dermatol. 2011 Sep;20(9):761-3.

11. Yun JY et al. Arch Pharm Res. 2011 Aug;34(8):1339-45.

12. Chang H et al. Pigment Cell Melanoma Res. 2012 Nov;25(6):765-72.
 

Also known as Asian or Chinese lizard’s tail (or Sam-baekcho in Korea), Saururus chinensis is an East Asian plant used in traditional medicine for various indications including edema, gonorrhea, jaundice, hypertension, leproma, pneumonia, and rheumatoid arthritis.^1,2 Specifically, Korean traditional medicine practitioners as well as Native Americans and early colonists in what is now the United States used the botanical to treat cancer, edema, rheumatoid arthritis, and other inflammatory conditions.^2-4 Modern research has produced evidence supporting the use of this plant in the dermatologic realm. This column focuses on the relevant bench science and possible applications.

Baumann_Leslie_S_USE_web.jpg

Various beneficial effects

In 2008, Yoo et al. found that the ethanol extract of the dried aerial parts of S. chinensis exhibit anti-inflammatory, antiangiogenic, and antinociceptive properties, which they suggested may partially account for the established therapeutic effects of the plant.² Also, Lee et al. reported in 2012 on the antiproliferative effects against human cancer cell lines of neolignans found in S. chinensis.⁵

Saururus_chinensis_web.jpg

Antioxidant properties have been associated with S. chinensis. In 2014, Kim et al. reported that S. chinensis extract attenuated the lipopolysaccharide (LPS)-stimulated neuroinflammatory response in BV-2 microglia cells, a result that the authors partly ascribed to the antioxidant constituents (particularly quercetin) of the plant.³
 

Atopic dermatitis

In 2008, Choi et al. determined that the leaves of S. chinensis impeded the formation of atopic dermatitis–like skin lesions in NC/Nga mice caused by repeated application of picryl chloride, potentially by stimulating the Th1 cell response, thus modulating Th1/Th2 imbalance. They concluded that S. chinensis has potential as an adjunct treatment option for atopic dermatitis.⁶

Anti-inflammatory activity

In 2010, Bae et al. studied the anti-inflammatory properties of sauchinone, a lignan derived from S. chinensis reputed to exert antioxidant, anti-inflammatory, and hepatoprotective activity,⁷ using LPS-stimulated RAW264.7 cells. They found that the lignan lowered tumor necrosis factor (TNF)–alpha synthesis by inhibiting the c-Raf-MEK1/2-ERK1/2 phosphorylation pathway, accounting for the anti-inflammatory effects of the S. chinensis constituent.⁸

[embed:render:related:node:259186]

More recently, Zhang et al. determined that the ethanol extract of S. chinensis leaves impaired proinflammatory gene expression by blocking the TAK1/AP-1 pathway in LPS-treated RAW264.7 macrophages. They suggested that such suppression is a significant step in the anti-inflammatory function exhibited by the plant.¹
 

Photoprotection

Park et al. investigated in 2013 the beneficial effects of sauchinone. Specifically, they studied potential photoprotective effects of the lignan against UVB in HaCaT human epidermal keratinocytes. They found that sauchinone (5-40 mcm) conferred significant protection as evaluated by cell viability and a toxicity assay. At 20-40 mcm, sauchinone blocked the upregulation of matrix metalloproteinase (MMP)–1 proteins and decrease of type 1 collagen engendered by UVB exposure. The investigators further discovered that sauchinone diminished the synthesis of reactive oxygen species. Overall, they determined that sauchinone imparted protection by suppressing extracellular signal-regulated kinase, c-Jun N-terminal kinase, and p38 MAPK signaling through the activation of oxidative defense enzymes.⁷

Potential use as a depigmenting agent

In 2009, Seo et al. isolated the lignans manassantin A and B from S. chinensis and determined that these compounds dose-dependently impeded melanin synthesis in alpha-melanocyte stimulating hormone (alpha-MSH)–activated melanoma B16 cells. They also noted that manassantin A suppressed forskolin- or 3-isobutyl-1-methylxanthine (IBMX)–induced melanin production and diminished cellular levels of IBMX-inducible tyrosinase protein. The lignan had no effect on the catalytic activity of cell-free tyrosinase, an important enzyme in melanin pigment production. The researchers concluded that their results suggest the potential for S. chinensis to be used to treat hyperpigmentation disorders.⁹

Two years later Lee et al. found that manassantin A, derived from S. chinensis, steadily suppressed the cAMP elevator IBMX- or dibutyryl cAMP-induced melanin synthesis in B16 cells or in melan-a melanocytes by down-regulating the expression of tyrosinase or the TRP1 gene. The lignan also inhibited microphthalmia-associated transcription factor (MITF) induction via the IBMX-activated cAMP-responsive element-binding protein (CREB) pathway, thus preventing the Ser-133 phosphorylation of CREB. The researchers concluded that this molecular disruption of melanin production suggests the potential for the use of manassantin A as a skin depigmenting agent.¹⁰

That same year, another S. chinensis lignan gained interest. Yun et al. investigated the effects of the S. chinensis lignan component saucerneol D on melanin synthesis in cAMP-elevated melanocytes. They found that the lignan efficiently impeded melanin product in B16 melanoma cells stimulated with alpha-MSH or other cAMP elevators. Saucerneol D was also credited with down-regulating alpha-MSH–induced gene expression of tyrosinase at the transcription level in B16 cells, suppressing alpha-MSH–induced phosphorylation of CREB in the cells, and inhibiting MITF induction. The investigators concluded that their results point to the potential of the S. chinensis lignan saucerneol D for the treatment of hyperpigmentation disorders.¹¹

In 2012, Chang et al. observed that an extract of S. chinensis and one of its constituent lignans, manassantin B, prevented melanosome transport in normal human melanocytes and Melan-a melanocytes, by interrupting the interaction between melanophilin and myosin Va. The investigators concluded that as a substance that can hinder melanosome transport, manassantin B displays potential for use as depigmenting product.¹²

The following year, Lee et al. studied the effects of S. chinensis extracts on the melanogenesis signaling pathway activated by alpha-MSH, finding dose-dependent inhibition without provoking cytotoxicity in B16F10 cells. Further, the team found evidence that the depigmenting activity exhibited by S. chinensis extracts may occur as a result of MITF and tyrosinase expression stemming from elevated activity of extracellular signal-regulated kinase (ERK). They concluded that their results support further examination of S. chinensis for its potential to contribute to skin whitening.⁵
 

Conclusion

S. chinensis has been used for many years in traditional medicine, particularly in Asia, and this interesting botanical cosmeceutical ingredient is included in Asian skin care products. Multiple lignan constituents in this plant-derived ingredient appear to yield anti-inflammatory, antioxidant, photoprotective, and antitumor properties. Its inhibitory effects on melanin production and its antiaging abilities make it worthy of further study and consideration of inclusion in antiaging skin care products.

Dr. Baumann is a private practice dermatologist, researcher, author, and entrepreneur in Miami. She founded the division of cosmetic dermatology at the University of Miami in 1997. The third edition of her bestselling textbook, “Cosmetic Dermatology,” was published in 2022. Dr. Baumann has received funding for advisory boards and/or clinical research trials from Allergan, Galderma, Johnson & Johnson, and Burt’s Bees. She is the CEO of Skin Type Solutions, a SaaS company used to generate skin care routines in the office and as an e-commerce solution. Write to her at dermnews@mdedge.com.

References

1. Zhang J et al. J Ethnopharmacol. 2021 Oct 28;279:114400.

2. Yoo HJ et al. J Ethnopharmacol. 2008 Nov 20;120(2):282-6.

3. Kim BW et al. BMC Complement Altern Med. 2014 Dec 16;14:502.

4. Lee DH et al. Biol Pharm Bull. 2013;36(5):772-9.

5. Lee YJ et al. Biol Pharm Bull. 2012;35(8):1361-6.

6. Choi MS et al. Biol Pharm Bull. 2008 Jan;31(1):51-6.

7. Park G et al. Biol Pharm Bull. 2013;36(7):1134-9.

8. Bae HB et al. Int Immunopharmacol. 2010 Sep;10(9):1022-8.

9. Seo CS et al. Phytother Res. 2009 Nov;23(11):1531-6.

10. Lee HD et al. Exp Dermatol. 2011 Sep;20(9):761-3.

11. Yun JY et al. Arch Pharm Res. 2011 Aug;34(8):1339-45.

12. Chang H et al. Pigment Cell Melanoma Res. 2012 Nov;25(6):765-72.
 

A novel platform that uses 3D technology to deliver targeted laser energy in a cone-shaped pattern holds promise as an option for skin rejuvenation and the treatment of pigmented lesions in all skin types, according to speakers at a virtual course on laser and aesthetic skin therapy.

The products feature “focal point technology,” which pairs 3D laser targeting with an integrated high-resolution imaging system (IntelliView), to help the user guide treatments at selectable depths. They have been cleared by the Food and Drug Administration for use in skin resurfacing procedures, and to treat benign pigmented lesions of the skin, including hyperpigmentation, and were created by Dieter Manstein, MD, PhD, Rox Anderson, MD, and Henry Chan, MD, of the Wellman Center for Photomedicine at Massachusetts General Hospital, and Irina Erenburg, PhD, CEO of AVAVA, the company that markets the products.

160972_pho_web.jpg

Avram_Mathew_BOSTON_web.jpg

The collimated beam from conventional lasers affects all tissue in its path. The laser beam from the AVAVA product, however, creates a cone-shaped profile of injury in the dermis that minimizes the area of epidermal damage, making it safe in skin of color, according to Dr. Avram. “The beam comes to a focal point in the dermis at the depth that you want it to,” he explained during the meeting, which was sponsored by Harvard Medical School, Massachusetts General Hospital, and the Wellman Center for Photomedicine. “That’s where the energy is going to focus and it bypasses the dermal/epidermal junction, which traditional fractional lasers cannot. What’s interesting about this platform is that you have a wavelength for skin rejuvenation, then you have wavelengths for pigment, which allows you to treat conditions like melasma at different depths.”

The AVAVA high-speed IntelliView imaging system features 10-micron resolution, “so you get exquisite imaging that can help guide your treatments,” he said. It also features image acquisition and storage with artificial intelligence algorithm interrogation and the ability to personalize treatments to the patient’s specific skin type. Commercial availability is expected in the first half of 2023, Dr. Avram said.

In a separate presentation, New York-based cosmetic dermatologist Roy G. Geronemus, MD, who has been involved in clinical trials of AVAVA’s focal point technology, said that patients “feel less pain and have less down time than we saw previously with other nonablative, fractional technologies.”

Geronemus_Roy_G_NY_web.jpg

Downtime involves “just some mild redness,” he said, adding that he is encouraged by early results seen to date, and that “there appears to be some unique capabilities that will be borne out as the clinical studies progress.”

Dr. Avram disclosed that he has received consulting fees from Allergan, Galderma, and Revelle. He is an investigator for Endo and holds ownership and/or shareholder interest in Cytrellis and La Jolla NanoMedical. Dr. Geronemus disclosed having financial relationships with numerous device and pharmaceutical companies.

A novel platform that uses 3D technology to deliver targeted laser energy in a cone-shaped pattern holds promise as an option for skin rejuvenation and the treatment of pigmented lesions in all skin types, according to speakers at a virtual course on laser and aesthetic skin therapy.

The products feature “focal point technology,” which pairs 3D laser targeting with an integrated high-resolution imaging system (IntelliView), to help the user guide treatments at selectable depths. They have been cleared by the Food and Drug Administration for use in skin resurfacing procedures, and to treat benign pigmented lesions of the skin, including hyperpigmentation, and were created by Dieter Manstein, MD, PhD, Rox Anderson, MD, and Henry Chan, MD, of the Wellman Center for Photomedicine at Massachusetts General Hospital, and Irina Erenburg, PhD, CEO of AVAVA, the company that markets the products.

160972_pho_web.jpg

Avram_Mathew_BOSTON_web.jpg

The collimated beam from conventional lasers affects all tissue in its path. The laser beam from the AVAVA product, however, creates a cone-shaped profile of injury in the dermis that minimizes the area of epidermal damage, making it safe in skin of color, according to Dr. Avram. “The beam comes to a focal point in the dermis at the depth that you want it to,” he explained during the meeting, which was sponsored by Harvard Medical School, Massachusetts General Hospital, and the Wellman Center for Photomedicine. “That’s where the energy is going to focus and it bypasses the dermal/epidermal junction, which traditional fractional lasers cannot. What’s interesting about this platform is that you have a wavelength for skin rejuvenation, then you have wavelengths for pigment, which allows you to treat conditions like melasma at different depths.”

The AVAVA high-speed IntelliView imaging system features 10-micron resolution, “so you get exquisite imaging that can help guide your treatments,” he said. It also features image acquisition and storage with artificial intelligence algorithm interrogation and the ability to personalize treatments to the patient’s specific skin type. Commercial availability is expected in the first half of 2023, Dr. Avram said.

In a separate presentation, New York-based cosmetic dermatologist Roy G. Geronemus, MD, who has been involved in clinical trials of AVAVA’s focal point technology, said that patients “feel less pain and have less down time than we saw previously with other nonablative, fractional technologies.”

Geronemus_Roy_G_NY_web.jpg

Downtime involves “just some mild redness,” he said, adding that he is encouraged by early results seen to date, and that “there appears to be some unique capabilities that will be borne out as the clinical studies progress.”

Dr. Avram disclosed that he has received consulting fees from Allergan, Galderma, and Revelle. He is an investigator for Endo and holds ownership and/or shareholder interest in Cytrellis and La Jolla NanoMedical. Dr. Geronemus disclosed having financial relationships with numerous device and pharmaceutical companies.

A novel platform that uses 3D technology to deliver targeted laser energy in a cone-shaped pattern holds promise as an option for skin rejuvenation and the treatment of pigmented lesions in all skin types, according to speakers at a virtual course on laser and aesthetic skin therapy.

The products feature “focal point technology,” which pairs 3D laser targeting with an integrated high-resolution imaging system (IntelliView), to help the user guide treatments at selectable depths. They have been cleared by the Food and Drug Administration for use in skin resurfacing procedures, and to treat benign pigmented lesions of the skin, including hyperpigmentation, and were created by Dieter Manstein, MD, PhD, Rox Anderson, MD, and Henry Chan, MD, of the Wellman Center for Photomedicine at Massachusetts General Hospital, and Irina Erenburg, PhD, CEO of AVAVA, the company that markets the products.

160972_pho_web.jpg

Avram_Mathew_BOSTON_web.jpg

The collimated beam from conventional lasers affects all tissue in its path. The laser beam from the AVAVA product, however, creates a cone-shaped profile of injury in the dermis that minimizes the area of epidermal damage, making it safe in skin of color, according to Dr. Avram. “The beam comes to a focal point in the dermis at the depth that you want it to,” he explained during the meeting, which was sponsored by Harvard Medical School, Massachusetts General Hospital, and the Wellman Center for Photomedicine. “That’s where the energy is going to focus and it bypasses the dermal/epidermal junction, which traditional fractional lasers cannot. What’s interesting about this platform is that you have a wavelength for skin rejuvenation, then you have wavelengths for pigment, which allows you to treat conditions like melasma at different depths.”

The AVAVA high-speed IntelliView imaging system features 10-micron resolution, “so you get exquisite imaging that can help guide your treatments,” he said. It also features image acquisition and storage with artificial intelligence algorithm interrogation and the ability to personalize treatments to the patient’s specific skin type. Commercial availability is expected in the first half of 2023, Dr. Avram said.

In a separate presentation, New York-based cosmetic dermatologist Roy G. Geronemus, MD, who has been involved in clinical trials of AVAVA’s focal point technology, said that patients “feel less pain and have less down time than we saw previously with other nonablative, fractional technologies.”

Geronemus_Roy_G_NY_web.jpg

Downtime involves “just some mild redness,” he said, adding that he is encouraged by early results seen to date, and that “there appears to be some unique capabilities that will be borne out as the clinical studies progress.”

Dr. Avram disclosed that he has received consulting fees from Allergan, Galderma, and Revelle. He is an investigator for Endo and holds ownership and/or shareholder interest in Cytrellis and La Jolla NanoMedical. Dr. Geronemus disclosed having financial relationships with numerous device and pharmaceutical companies.

For those who view fractional ablative laser–assisted drug delivery as a pie-in-the-sky procedure that will take years to work its way into routine clinical practice, think again.

Haedersdal_Merete_Denmark_web.JPG

According to Merete Haedersdal, MD, PhD, DMSc, fractional ablative laser–assisted drug delivery is now ready to be incorporated into daily practice for the treatment of actinic keratoses (AKs) and scars, which is off-label use.

“The groundwork has been established over a decade with more than 100 publications available on PubMed,” Dr. Haedersdal, professor of dermatology at the University of Copenhagen, said during a virtual course on laser and aesthetic skin therapy. “There is no doubt that by drilling tiny little holes or channels with ablative fractional lasers, we enhance drug delivery to the skin, and we also empower different topical treatment regimens. Also, laser-assisted drug delivery holds the potential to bring new innovations into established medicine.”

Many studies have demonstrated that clinicians can enhance drug uptake into the skin with the fractional 10,600 nm CO₂ laser, the fractional 2,940 nm erbium:YAG laser, and the 1,927 nm thulium laser, but proper tuning of the devices is key. The lower the density, the better, Dr. Haedersdal said.

“Typically, we use 5% density or 5% coverage, sometimes 10%-15%, but don’t go higher in order to avoid the risk of having a systemic uptake,” she said during the meeting, which was sponsored by Harvard Medical School, Massachusetts General Hospital, and the Wellman Center for Photomedicine. “Also, the pulse energy for channel depth needs to be tailored to the specific dermatologic disease being treated,” she said, noting that for melasma, for example, “very low pulse energies” would be used, but they would be higher for treating thicker lesions, such as a hypertrophic scar.

Treatment with ablative fractional lasers enhances drug accumulation in the skin of any drug or substance applied to the skin, and clinical indications are expanding rapidly. Established indications include combining ablative fractional lasers and photodynamic therapy (PDT) for AKs and combining ablative fractional lasers and triamcinolone or 5-FU for scars. “Although we have a good body of evidence, particularly for AKs, it’s still an off-label use,” she emphasized.

Evolving indications include concomitant use of ablative fractional laser and vitamins and cosmeceuticals for rejuvenation; lidocaine for local anesthetics; tranexamic acid and hydroquinone for melasma; antifungals for onychomycosis; Botox for hyperhidrosis; minoxidil for alopecia; and betamethasone for vitiligo. A promising treatment for skin cancer “on the horizon,” she said, is the “combination of ablative fractional laser with PD1 inhibitors and chemotherapy.”

[embed:render:related:node:259055]

Data on AKs

Evidence supporting laser-assisted drug delivery for AKs comes from more than 10 randomized, controlled trials in the dermatology literature involving 400-plus immunocompetent and immunosuppressed patients. These trials have found ablative fractional laser–assisted PDT to be significantly more efficacious than PDT alone up to 12 months postoperatively and to foster lower rates of AK recurrence.

In a meta-analysis and systematic review, German researchers concluded that PDT combined with ablative laser treatment for AKs is more efficient but not more painful than either therapy alone. They recommended the combined regimen for patients with severe photodamage, field cancerization, and multiple AKs.

In 2020, an international consensus panel of experts, including Dr. Haedersdal, published recommendations regarding laser treatment of traumatic scars and contractures. The panel members determined that laser-assisted delivery of corticosteroids and antimetabolites was recommended for hypertrophic scars and cited triamcinolone acetonide suspension (TAC) as the most common corticosteroid used in combination with ablative fractional lasers. “It can be applied in concentrations of 40 mg/mL or less depending on the degree of hypertrophy,” they wrote.

In addition, they stated that 5-FU solution is “most commonly applied in a concentration of 50 mg/mL alone, or mixed with TAC in ratios of 9:1 or 3:1.”

According to the best available evidence, the clinical approach for hypertrophic scars supports combination treatment with ablative fractional laser and triamcinolone acetonide either alone or in combination with 5-FU. For atrophic scars, laser-assisted delivery of poly-L-lactic acid has been shown to be efficient. “Both of these treatments improve texture and thickness but also dyschromia and scar functionality,” said Dr. Haedersdal, who is also a visiting scientist at the Wellman Center for Photomedicine, Boston.

Commenting on patient safety with laser-assisted drug delivery, “the combination of lasers and topicals can be a powerful cocktail,” she said. “You can expect intensified local skin reactions. When treating larger areas, consider the risk of systemic absorption and the risk of potential toxicity. There is also the potential for infection with pathogens such as Staphylococcus aureus. The take-home message here is that you should only use the type and amount of drug no higher than administered during intradermal injection.”

Dr. Haedersdal disclosed that she has received equipment from Cherry Imaging, Cynosure-Hologic, MiraDry, and PerfAction Technologies. She has also received research grants from Leo Pharma, Lutronic, Mirai Medical, Novoxel, and Venus Concept.

For those who view fractional ablative laser–assisted drug delivery as a pie-in-the-sky procedure that will take years to work its way into routine clinical practice, think again.

Haedersdal_Merete_Denmark_web.JPG

According to Merete Haedersdal, MD, PhD, DMSc, fractional ablative laser–assisted drug delivery is now ready to be incorporated into daily practice for the treatment of actinic keratoses (AKs) and scars, which is off-label use.

“The groundwork has been established over a decade with more than 100 publications available on PubMed,” Dr. Haedersdal, professor of dermatology at the University of Copenhagen, said during a virtual course on laser and aesthetic skin therapy. “There is no doubt that by drilling tiny little holes or channels with ablative fractional lasers, we enhance drug delivery to the skin, and we also empower different topical treatment regimens. Also, laser-assisted drug delivery holds the potential to bring new innovations into established medicine.”

Many studies have demonstrated that clinicians can enhance drug uptake into the skin with the fractional 10,600 nm CO₂ laser, the fractional 2,940 nm erbium:YAG laser, and the 1,927 nm thulium laser, but proper tuning of the devices is key. The lower the density, the better, Dr. Haedersdal said.

“Typically, we use 5% density or 5% coverage, sometimes 10%-15%, but don’t go higher in order to avoid the risk of having a systemic uptake,” she said during the meeting, which was sponsored by Harvard Medical School, Massachusetts General Hospital, and the Wellman Center for Photomedicine. “Also, the pulse energy for channel depth needs to be tailored to the specific dermatologic disease being treated,” she said, noting that for melasma, for example, “very low pulse energies” would be used, but they would be higher for treating thicker lesions, such as a hypertrophic scar.

Treatment with ablative fractional lasers enhances drug accumulation in the skin of any drug or substance applied to the skin, and clinical indications are expanding rapidly. Established indications include combining ablative fractional lasers and photodynamic therapy (PDT) for AKs and combining ablative fractional lasers and triamcinolone or 5-FU for scars. “Although we have a good body of evidence, particularly for AKs, it’s still an off-label use,” she emphasized.

Evolving indications include concomitant use of ablative fractional laser and vitamins and cosmeceuticals for rejuvenation; lidocaine for local anesthetics; tranexamic acid and hydroquinone for melasma; antifungals for onychomycosis; Botox for hyperhidrosis; minoxidil for alopecia; and betamethasone for vitiligo. A promising treatment for skin cancer “on the horizon,” she said, is the “combination of ablative fractional laser with PD1 inhibitors and chemotherapy.”

[embed:render:related:node:259055]

Data on AKs

Evidence supporting laser-assisted drug delivery for AKs comes from more than 10 randomized, controlled trials in the dermatology literature involving 400-plus immunocompetent and immunosuppressed patients. These trials have found ablative fractional laser–assisted PDT to be significantly more efficacious than PDT alone up to 12 months postoperatively and to foster lower rates of AK recurrence.

In a meta-analysis and systematic review, German researchers concluded that PDT combined with ablative laser treatment for AKs is more efficient but not more painful than either therapy alone. They recommended the combined regimen for patients with severe photodamage, field cancerization, and multiple AKs.

In 2020, an international consensus panel of experts, including Dr. Haedersdal, published recommendations regarding laser treatment of traumatic scars and contractures. The panel members determined that laser-assisted delivery of corticosteroids and antimetabolites was recommended for hypertrophic scars and cited triamcinolone acetonide suspension (TAC) as the most common corticosteroid used in combination with ablative fractional lasers. “It can be applied in concentrations of 40 mg/mL or less depending on the degree of hypertrophy,” they wrote.

In addition, they stated that 5-FU solution is “most commonly applied in a concentration of 50 mg/mL alone, or mixed with TAC in ratios of 9:1 or 3:1.”

According to the best available evidence, the clinical approach for hypertrophic scars supports combination treatment with ablative fractional laser and triamcinolone acetonide either alone or in combination with 5-FU. For atrophic scars, laser-assisted delivery of poly-L-lactic acid has been shown to be efficient. “Both of these treatments improve texture and thickness but also dyschromia and scar functionality,” said Dr. Haedersdal, who is also a visiting scientist at the Wellman Center for Photomedicine, Boston.

Commenting on patient safety with laser-assisted drug delivery, “the combination of lasers and topicals can be a powerful cocktail,” she said. “You can expect intensified local skin reactions. When treating larger areas, consider the risk of systemic absorption and the risk of potential toxicity. There is also the potential for infection with pathogens such as Staphylococcus aureus. The take-home message here is that you should only use the type and amount of drug no higher than administered during intradermal injection.”

Dr. Haedersdal disclosed that she has received equipment from Cherry Imaging, Cynosure-Hologic, MiraDry, and PerfAction Technologies. She has also received research grants from Leo Pharma, Lutronic, Mirai Medical, Novoxel, and Venus Concept.

For those who view fractional ablative laser–assisted drug delivery as a pie-in-the-sky procedure that will take years to work its way into routine clinical practice, think again.

Haedersdal_Merete_Denmark_web.JPG

According to Merete Haedersdal, MD, PhD, DMSc, fractional ablative laser–assisted drug delivery is now ready to be incorporated into daily practice for the treatment of actinic keratoses (AKs) and scars, which is off-label use.

“The groundwork has been established over a decade with more than 100 publications available on PubMed,” Dr. Haedersdal, professor of dermatology at the University of Copenhagen, said during a virtual course on laser and aesthetic skin therapy. “There is no doubt that by drilling tiny little holes or channels with ablative fractional lasers, we enhance drug delivery to the skin, and we also empower different topical treatment regimens. Also, laser-assisted drug delivery holds the potential to bring new innovations into established medicine.”

Many studies have demonstrated that clinicians can enhance drug uptake into the skin with the fractional 10,600 nm CO₂ laser, the fractional 2,940 nm erbium:YAG laser, and the 1,927 nm thulium laser, but proper tuning of the devices is key. The lower the density, the better, Dr. Haedersdal said.

“Typically, we use 5% density or 5% coverage, sometimes 10%-15%, but don’t go higher in order to avoid the risk of having a systemic uptake,” she said during the meeting, which was sponsored by Harvard Medical School, Massachusetts General Hospital, and the Wellman Center for Photomedicine. “Also, the pulse energy for channel depth needs to be tailored to the specific dermatologic disease being treated,” she said, noting that for melasma, for example, “very low pulse energies” would be used, but they would be higher for treating thicker lesions, such as a hypertrophic scar.

Treatment with ablative fractional lasers enhances drug accumulation in the skin of any drug or substance applied to the skin, and clinical indications are expanding rapidly. Established indications include combining ablative fractional lasers and photodynamic therapy (PDT) for AKs and combining ablative fractional lasers and triamcinolone or 5-FU for scars. “Although we have a good body of evidence, particularly for AKs, it’s still an off-label use,” she emphasized.

Evolving indications include concomitant use of ablative fractional laser and vitamins and cosmeceuticals for rejuvenation; lidocaine for local anesthetics; tranexamic acid and hydroquinone for melasma; antifungals for onychomycosis; Botox for hyperhidrosis; minoxidil for alopecia; and betamethasone for vitiligo. A promising treatment for skin cancer “on the horizon,” she said, is the “combination of ablative fractional laser with PD1 inhibitors and chemotherapy.”

[embed:render:related:node:259055]

Data on AKs

Evidence supporting laser-assisted drug delivery for AKs comes from more than 10 randomized, controlled trials in the dermatology literature involving 400-plus immunocompetent and immunosuppressed patients. These trials have found ablative fractional laser–assisted PDT to be significantly more efficacious than PDT alone up to 12 months postoperatively and to foster lower rates of AK recurrence.

In a meta-analysis and systematic review, German researchers concluded that PDT combined with ablative laser treatment for AKs is more efficient but not more painful than either therapy alone. They recommended the combined regimen for patients with severe photodamage, field cancerization, and multiple AKs.

In 2020, an international consensus panel of experts, including Dr. Haedersdal, published recommendations regarding laser treatment of traumatic scars and contractures. The panel members determined that laser-assisted delivery of corticosteroids and antimetabolites was recommended for hypertrophic scars and cited triamcinolone acetonide suspension (TAC) as the most common corticosteroid used in combination with ablative fractional lasers. “It can be applied in concentrations of 40 mg/mL or less depending on the degree of hypertrophy,” they wrote.

In addition, they stated that 5-FU solution is “most commonly applied in a concentration of 50 mg/mL alone, or mixed with TAC in ratios of 9:1 or 3:1.”

According to the best available evidence, the clinical approach for hypertrophic scars supports combination treatment with ablative fractional laser and triamcinolone acetonide either alone or in combination with 5-FU. For atrophic scars, laser-assisted delivery of poly-L-lactic acid has been shown to be efficient. “Both of these treatments improve texture and thickness but also dyschromia and scar functionality,” said Dr. Haedersdal, who is also a visiting scientist at the Wellman Center for Photomedicine, Boston.

Commenting on patient safety with laser-assisted drug delivery, “the combination of lasers and topicals can be a powerful cocktail,” she said. “You can expect intensified local skin reactions. When treating larger areas, consider the risk of systemic absorption and the risk of potential toxicity. There is also the potential for infection with pathogens such as Staphylococcus aureus. The take-home message here is that you should only use the type and amount of drug no higher than administered during intradermal injection.”

Dr. Haedersdal disclosed that she has received equipment from Cherry Imaging, Cynosure-Hologic, MiraDry, and PerfAction Technologies. She has also received research grants from Leo Pharma, Lutronic, Mirai Medical, Novoxel, and Venus Concept.

In the opinion of R. Rox Anderson, MD, it’s only a matter of time before true robots make further inroads in dermatology.

“We humans just can’t do everything perfectly,” Dr. Anderson, a dermatologist who directs the Wellman Center for Photomedicine at Massachusetts General Hospital, Boston, said during a virtual course on laser and aesthetic skin therapy. “We have limited speed and special accuracy and are not good at repetitive tasks. We can’t see in the UV or infrared, and we’re qualitative, not quantitative. ... We’re good at high-level visual assessment.”

Anderson_Rox_MA_web.jpg

During a presentation at the meeting, which was sponsored by Harvard Medical School, Massachusetts General Hospital, and the Wellman Center, he distinguished between robotics and true robots. A prime example of robotics in medicine is the Da Vinci Surgical System in which a human user “is controlling every movement of this device with capabilities that humans don’t have, such as fine movement and high magnification of imaging,” said Dr. Anderson, who conceived and developed many of the nonscarring laser treatments now widely used in dermatology. “In the military, we have drone aircraft. The pilot is perhaps thousands of miles away; it’s still run by a human being in every way.”

By contrast, true robots are devices in which a human being programs the rules for action but the action itself is not exactly predictable. Artificial intelligence enables robots to perform certain tasks. “If you look at an Amazon warehouse, there’s barely anyone there; robots are packing and unpacking the shelves,” Dr. Anderson said.

Currently, he said, one true robot exists in dermatology: the Food and Drug Administration–cleared ARTAS Robotic Hair Restoration System, which precisely dissects follicular units from the donor area and eliminates the potential for human error. The device “extracts single follicular units from the occipital scalp and makes them available to the surgeon to do an artistic human job of implanting them in the frontal scalp,” Dr. Anderson said.

[embed:render:related:node:228424]

He predicts that a Mohs surgery robot with image-guided laser ablation would “launch a sea change in the whole field of surgical oncology, and I believe we are in a good position to do it. Everything for this is now sitting on the shelf and it’s unbelievable to me that a company hasn’t accomplished it yet.”

He would also like to see a true laser robot for surgery of tumors that would enable clinicians to download an app for their existing laser instead of having to buy a new device. Currently, “it takes about a half second to make a good optical coherence tomography image of basal cell carcinoma,” he said. “That image could be used for real-time robotic human control of, say, a laser to extirpate the tumor.”

Dr. Anderson’s “wish list” of applications for treatment with a robotic fractional laser includes those that target the sweat glands, sebaceous glands, nerves, inflammatory cells, white hair, blood vessels, lymphatics, hair, tumors, nevi, cysts, and surface contour. “It might be possible to have one software-programmable laser robot for many different applications in dermatology,” he added.

Dr. Anderson reported having received research funding and/or consulting fees from numerous device and pharmaceutical companies.





 

In the opinion of R. Rox Anderson, MD, it’s only a matter of time before true robots make further inroads in dermatology.

“We humans just can’t do everything perfectly,” Dr. Anderson, a dermatologist who directs the Wellman Center for Photomedicine at Massachusetts General Hospital, Boston, said during a virtual course on laser and aesthetic skin therapy. “We have limited speed and special accuracy and are not good at repetitive tasks. We can’t see in the UV or infrared, and we’re qualitative, not quantitative. ... We’re good at high-level visual assessment.”

Anderson_Rox_MA_web.jpg

During a presentation at the meeting, which was sponsored by Harvard Medical School, Massachusetts General Hospital, and the Wellman Center, he distinguished between robotics and true robots. A prime example of robotics in medicine is the Da Vinci Surgical System in which a human user “is controlling every movement of this device with capabilities that humans don’t have, such as fine movement and high magnification of imaging,” said Dr. Anderson, who conceived and developed many of the nonscarring laser treatments now widely used in dermatology. “In the military, we have drone aircraft. The pilot is perhaps thousands of miles away; it’s still run by a human being in every way.”

By contrast, true robots are devices in which a human being programs the rules for action but the action itself is not exactly predictable. Artificial intelligence enables robots to perform certain tasks. “If you look at an Amazon warehouse, there’s barely anyone there; robots are packing and unpacking the shelves,” Dr. Anderson said.

Currently, he said, one true robot exists in dermatology: the Food and Drug Administration–cleared ARTAS Robotic Hair Restoration System, which precisely dissects follicular units from the donor area and eliminates the potential for human error. The device “extracts single follicular units from the occipital scalp and makes them available to the surgeon to do an artistic human job of implanting them in the frontal scalp,” Dr. Anderson said.

[embed:render:related:node:228424]

He predicts that a Mohs surgery robot with image-guided laser ablation would “launch a sea change in the whole field of surgical oncology, and I believe we are in a good position to do it. Everything for this is now sitting on the shelf and it’s unbelievable to me that a company hasn’t accomplished it yet.”

He would also like to see a true laser robot for surgery of tumors that would enable clinicians to download an app for their existing laser instead of having to buy a new device. Currently, “it takes about a half second to make a good optical coherence tomography image of basal cell carcinoma,” he said. “That image could be used for real-time robotic human control of, say, a laser to extirpate the tumor.”

Dr. Anderson’s “wish list” of applications for treatment with a robotic fractional laser includes those that target the sweat glands, sebaceous glands, nerves, inflammatory cells, white hair, blood vessels, lymphatics, hair, tumors, nevi, cysts, and surface contour. “It might be possible to have one software-programmable laser robot for many different applications in dermatology,” he added.

Dr. Anderson reported having received research funding and/or consulting fees from numerous device and pharmaceutical companies.





 

In the opinion of R. Rox Anderson, MD, it’s only a matter of time before true robots make further inroads in dermatology.

“We humans just can’t do everything perfectly,” Dr. Anderson, a dermatologist who directs the Wellman Center for Photomedicine at Massachusetts General Hospital, Boston, said during a virtual course on laser and aesthetic skin therapy. “We have limited speed and special accuracy and are not good at repetitive tasks. We can’t see in the UV or infrared, and we’re qualitative, not quantitative. ... We’re good at high-level visual assessment.”

Anderson_Rox_MA_web.jpg

During a presentation at the meeting, which was sponsored by Harvard Medical School, Massachusetts General Hospital, and the Wellman Center, he distinguished between robotics and true robots. A prime example of robotics in medicine is the Da Vinci Surgical System in which a human user “is controlling every movement of this device with capabilities that humans don’t have, such as fine movement and high magnification of imaging,” said Dr. Anderson, who conceived and developed many of the nonscarring laser treatments now widely used in dermatology. “In the military, we have drone aircraft. The pilot is perhaps thousands of miles away; it’s still run by a human being in every way.”

By contrast, true robots are devices in which a human being programs the rules for action but the action itself is not exactly predictable. Artificial intelligence enables robots to perform certain tasks. “If you look at an Amazon warehouse, there’s barely anyone there; robots are packing and unpacking the shelves,” Dr. Anderson said.

Currently, he said, one true robot exists in dermatology: the Food and Drug Administration–cleared ARTAS Robotic Hair Restoration System, which precisely dissects follicular units from the donor area and eliminates the potential for human error. The device “extracts single follicular units from the occipital scalp and makes them available to the surgeon to do an artistic human job of implanting them in the frontal scalp,” Dr. Anderson said.

[embed:render:related:node:228424]

He predicts that a Mohs surgery robot with image-guided laser ablation would “launch a sea change in the whole field of surgical oncology, and I believe we are in a good position to do it. Everything for this is now sitting on the shelf and it’s unbelievable to me that a company hasn’t accomplished it yet.”

He would also like to see a true laser robot for surgery of tumors that would enable clinicians to download an app for their existing laser instead of having to buy a new device. Currently, “it takes about a half second to make a good optical coherence tomography image of basal cell carcinoma,” he said. “That image could be used for real-time robotic human control of, say, a laser to extirpate the tumor.”

Dr. Anderson’s “wish list” of applications for treatment with a robotic fractional laser includes those that target the sweat glands, sebaceous glands, nerves, inflammatory cells, white hair, blood vessels, lymphatics, hair, tumors, nevi, cysts, and surface contour. “It might be possible to have one software-programmable laser robot for many different applications in dermatology,” he added.

Dr. Anderson reported having received research funding and/or consulting fees from numerous device and pharmaceutical companies.





 

To better understand melasma, it is important for researchers to find groups of patients with confirmed disease for future clinical study. A recent research letter published in JAMA Dermatology suggests the ICD-10 code for melasma is a good identifier for patients with confirmed melasma, and might be a helpful tool for researchers interested in conducting retrospective studies of this patient population.

“Overall, our results support the validity of using the ICD-10 code for melasma to identify patients with a diagnosis of melasma for future studies,” Nicholas Theodosakis, MD, PhD, of the department of dermatology at Massachusetts General Hospital, Boston, and colleagues wrote in their research letter. “Despite some variability in diagnostic confidence, most patients were ultimately classified as moderately or highly likely to have a true diagnosis of melasma.”

Dr. Theodosakis and colleagues evaluated data from 5,322 adult patients in the Mass General Brigham Research Patient Data Registry between October 2015 and January 2021 who had an encounter that used the ICD-10 code for melasma (L81.1). The researchers then validated the ICD-10 code by examining the medical records of 300 patients (5.6%), confirming that melasma was the clinician’s favored diagnosis and that the patient met secondary diagnostic criteria. Confidence was rated in categories of “low confidence,” “moderate confidence,” “high confidence,” and “maximum confidence” based on secondary criteria such as hyperpigmentation of the face and upper body, hormone-related therapy exposure before diagnosis, pregnancy history, and dermatologist-confirmed diagnosis.

The patients who had their medical records examined for confirmed melasma were primarily women (285 patients; 95.0%) and were a mean 48.4 years old at diagnosis.

Of those in the validation cohort, melasma was the preferred diagnosis for clinicians of 291 patients (97.0%), while 274 patients (91.3%) had secondary diagnostic criteria of hyperpigmentation of the face and upper body and 252 patients (84.0%) had received a diagnosis from a dermatologist. Other less common secondary diagnostic criteria of the patient group were a history of having received hormone-related therapy before a melasma diagnosis (148 patients; 49.3%) and a history of pregnancy (168 patients; 56.0%). Based on identification of secondary diagnostic criteria, confidence in melasma diagnosis was high for 208 patients (69.3%), moderate for 61 patients (20.3%), and low for 31 patients (10.3%).

Dr. Theodosakis and colleagues noted their study was limited by its retrospective nature and the presence of a small validation cohort. “Despite these limitations, our findings provide a framework for identifying cohorts to evaluate the clinical course and treatment of melasma,” the authors concluded.

One of the authors reported relationships with companies including AbbVie, Acom, Boehringer Ingelheim, Concert, Digital Diagnostics, and Eli Lilly in the form of personal fees, equity, royalties and/or licensing, or medical advisory board positions outside the submitted work; another author reported being an advisory board member and consultant for and receiving honoraria from Incyte, Castle Biosciences, Galderma, and Sanofi outside the submitted work. The other authors reported no relevant conflicts of interest.

To better understand melasma, it is important for researchers to find groups of patients with confirmed disease for future clinical study. A recent research letter published in JAMA Dermatology suggests the ICD-10 code for melasma is a good identifier for patients with confirmed melasma, and might be a helpful tool for researchers interested in conducting retrospective studies of this patient population.

“Overall, our results support the validity of using the ICD-10 code for melasma to identify patients with a diagnosis of melasma for future studies,” Nicholas Theodosakis, MD, PhD, of the department of dermatology at Massachusetts General Hospital, Boston, and colleagues wrote in their research letter. “Despite some variability in diagnostic confidence, most patients were ultimately classified as moderately or highly likely to have a true diagnosis of melasma.”

Dr. Theodosakis and colleagues evaluated data from 5,322 adult patients in the Mass General Brigham Research Patient Data Registry between October 2015 and January 2021 who had an encounter that used the ICD-10 code for melasma (L81.1). The researchers then validated the ICD-10 code by examining the medical records of 300 patients (5.6%), confirming that melasma was the clinician’s favored diagnosis and that the patient met secondary diagnostic criteria. Confidence was rated in categories of “low confidence,” “moderate confidence,” “high confidence,” and “maximum confidence” based on secondary criteria such as hyperpigmentation of the face and upper body, hormone-related therapy exposure before diagnosis, pregnancy history, and dermatologist-confirmed diagnosis.

The patients who had their medical records examined for confirmed melasma were primarily women (285 patients; 95.0%) and were a mean 48.4 years old at diagnosis.

Of those in the validation cohort, melasma was the preferred diagnosis for clinicians of 291 patients (97.0%), while 274 patients (91.3%) had secondary diagnostic criteria of hyperpigmentation of the face and upper body and 252 patients (84.0%) had received a diagnosis from a dermatologist. Other less common secondary diagnostic criteria of the patient group were a history of having received hormone-related therapy before a melasma diagnosis (148 patients; 49.3%) and a history of pregnancy (168 patients; 56.0%). Based on identification of secondary diagnostic criteria, confidence in melasma diagnosis was high for 208 patients (69.3%), moderate for 61 patients (20.3%), and low for 31 patients (10.3%).

Dr. Theodosakis and colleagues noted their study was limited by its retrospective nature and the presence of a small validation cohort. “Despite these limitations, our findings provide a framework for identifying cohorts to evaluate the clinical course and treatment of melasma,” the authors concluded.

One of the authors reported relationships with companies including AbbVie, Acom, Boehringer Ingelheim, Concert, Digital Diagnostics, and Eli Lilly in the form of personal fees, equity, royalties and/or licensing, or medical advisory board positions outside the submitted work; another author reported being an advisory board member and consultant for and receiving honoraria from Incyte, Castle Biosciences, Galderma, and Sanofi outside the submitted work. The other authors reported no relevant conflicts of interest.

To better understand melasma, it is important for researchers to find groups of patients with confirmed disease for future clinical study. A recent research letter published in JAMA Dermatology suggests the ICD-10 code for melasma is a good identifier for patients with confirmed melasma, and might be a helpful tool for researchers interested in conducting retrospective studies of this patient population.

“Overall, our results support the validity of using the ICD-10 code for melasma to identify patients with a diagnosis of melasma for future studies,” Nicholas Theodosakis, MD, PhD, of the department of dermatology at Massachusetts General Hospital, Boston, and colleagues wrote in their research letter. “Despite some variability in diagnostic confidence, most patients were ultimately classified as moderately or highly likely to have a true diagnosis of melasma.”

Dr. Theodosakis and colleagues evaluated data from 5,322 adult patients in the Mass General Brigham Research Patient Data Registry between October 2015 and January 2021 who had an encounter that used the ICD-10 code for melasma (L81.1). The researchers then validated the ICD-10 code by examining the medical records of 300 patients (5.6%), confirming that melasma was the clinician’s favored diagnosis and that the patient met secondary diagnostic criteria. Confidence was rated in categories of “low confidence,” “moderate confidence,” “high confidence,” and “maximum confidence” based on secondary criteria such as hyperpigmentation of the face and upper body, hormone-related therapy exposure before diagnosis, pregnancy history, and dermatologist-confirmed diagnosis.

The patients who had their medical records examined for confirmed melasma were primarily women (285 patients; 95.0%) and were a mean 48.4 years old at diagnosis.

Of those in the validation cohort, melasma was the preferred diagnosis for clinicians of 291 patients (97.0%), while 274 patients (91.3%) had secondary diagnostic criteria of hyperpigmentation of the face and upper body and 252 patients (84.0%) had received a diagnosis from a dermatologist. Other less common secondary diagnostic criteria of the patient group were a history of having received hormone-related therapy before a melasma diagnosis (148 patients; 49.3%) and a history of pregnancy (168 patients; 56.0%). Based on identification of secondary diagnostic criteria, confidence in melasma diagnosis was high for 208 patients (69.3%), moderate for 61 patients (20.3%), and low for 31 patients (10.3%).

Dr. Theodosakis and colleagues noted their study was limited by its retrospective nature and the presence of a small validation cohort. “Despite these limitations, our findings provide a framework for identifying cohorts to evaluate the clinical course and treatment of melasma,” the authors concluded.

One of the authors reported relationships with companies including AbbVie, Acom, Boehringer Ingelheim, Concert, Digital Diagnostics, and Eli Lilly in the form of personal fees, equity, royalties and/or licensing, or medical advisory board positions outside the submitted work; another author reported being an advisory board member and consultant for and receiving honoraria from Incyte, Castle Biosciences, Galderma, and Sanofi outside the submitted work. The other authors reported no relevant conflicts of interest.