TORONTO — When it comes to using artificial intelligence (AI) in your practice, pediatric dermatologist Albert Yan, MD, professor of pediatrics and dermatology at the University of Pennsylvania, Philadelphia, suggests that dermatologists “just jump in” and become familiar with the various AI models.

He reminds doctors that many of their colleagues and patients and their families are already using these systems, “and you don’t want to be left behind.”

In an interview following his presentation on AI at the annual meeting of the Society for Pediatric Dermatology (SPD), Dr. Yan discussed his tips for using AI.
 

Changing Fast 

From the outset, most generative AI systems have been very good at processing language — for example, generating letters of medical necessity and summarizing disease processes into lay terms. But now they’re becoming “truly multimodal,” said Dr. Yan. “You can enter images; you could have it process audio; you can even start to have it refine video.”

To get started, he recommends signing up for a free account with ChatGPT, Gemini, Perplexity, Claude, and/or Microsoft Copilot. “To make the best choice, you have to try them out yourself because they each have their own kind of flavor and strengths and weaknesses,” said Dr. Yan.

Personally, he finds that ChatGPT is the most versatile, Gemini perhaps a little better in terms of image generation, and Perplexity probably the best at references because it was designed as an online library.

Once you figure out which platforms you prefer, consider signing up for a premium subscription, which is typically month to month and can be canceled at any time, Dr. Yan said. “This will allow you to get the most out of the AI model.”

As these AI systems are based on large language models, they are excellent at text, Dr. Yan noted. He suggests asking one to generate a letter or patient instruction sheet. “If you have a premium model, give it a PDF to summarize an article or take a photo of something that you want its opinion on.”

Privacy Critical

Always pay attention to privacy issues and avoid entering any private health information that would violate the Health Insurance Portability and Accountability Act (HIPAA), he said.

“We have to be very careful about how we interact with AI,” said Dr. Yan. “We can’t be posting private patient health information into these systems, no matter how useful these systems are.” Many academic institutions are creating “walled gardens” — private areas of AI access that don’t allow patient information to “leak out,” he said. “These AI models may have HIPAA protections in place and come with specific guidelines of use.”

The AI “scribe,” which helps with electronic health record documentation, is one of the most useful tools for clinicians, he said. He referred to a recent study showing that an AI scribe saved users an average of 1 hour at the keyboard every day, and a small patient survey showing 71% reported that it led to spending more time with their physician.

When entering requests into a prompt line with an AI system, Dr. Yan stressed that these prompts need to be clear and concise. For a complicated calculation or multistep problem, try adding the words “let’s do this step by step,” he said. “This is a technique invoking a ‘chain of thought’ that allows the system to enhance its accuracy when solving problems.”

If the response is not satisfactory, try being more detailed in the request, he advised, and consider giving the system examples of what you’re looking for and telling it what you don’t want in the output.

“For instance, if you’re asking for a differential diagnosis of rashes that affect the hands and feet, you can stipulate that you only want rashes that are vesicular or that arise in neonates, so you can get a more focused answer,” said Dr. Yan.

If there are “long-winded verbose” responses, add the phrase “be concise,” and it will shorten the response by about 50%, he added.
 

AI Hallucinations

Dr. Yan broached an issue that occasionally comes up, AI hallucinations, which refer to inaccurate or misleading responses on the basis of incomplete training or intrinsic biases within the model. He pointed to the case of a doctor discussing issues related to a patient’s hands, feet, and mouth, which the AI-generated model summarized as “the patient being diagnosed with hand, foot, and mouth disease.”

Another example he provided was a request to generate a letter of medical necessity for using ustekinumab (Stelara) for treating hidradenitis suppurative in a child that included references for its effectiveness and safety in children. The AI system generated “false references that sounded like they should be real because the authors are often people who have written in that field or on that subject,” said Dr. Yan.

When pressed, the system did acknowledge the references were hypothetical but were meant to illustrate the types of studies that would typically support the use of this drug in pediatric patients with HS. “ It’s well meaning, in the sense that it’s trying to help you achieve your goals using this training system,” said Dr. Yan.

“If you’re skeptical about a response, double-check the answer with a Google search or run the response through another AI [tool] asking it to check if the response is accurate,” he added.

While AI systems won’t replace the clinician, they are continuing to improve and becoming more sophisticated. Dr. Yan advises keeping up with emerging developments and engaging and adapting the most appropriate AI tool for an individual clinician’s work.

Asked to comment on the presentation at the SPD meeting, Sheilagh Maguiness, MD, director of the Division of Pediatric Dermatology at the University of Minnesota, Minneapolis, who, like other doctors, is increasingly testing AI, said she foresees a time when AI scribes fully replace humans for completing tasks during patient interactions.

“The hope is that if the AI scribes get good enough, we can just open our phone, have them translate the interaction, and create the notes for us.”

While she likes the idea of using ChatGPT to help with tasks like letters of recommendation for medications, Dr. Yan’s comments reiterated the importance of “checking and double-checking ChatGPT because it’s not correct all the time.” She particularly welcomed the advice “that we can just go back and ask it again to clarify, and that may improve its answers.”

Dr. Yan’s disclosures included an investment portfolio that includes companies working in the AI space, including Google, Apple, Nvidia, Amazon, Microsoft, and Arm. Dr. Maguiness had no relevant disclosures.

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

TORONTO — When it comes to using artificial intelligence (AI) in your practice, pediatric dermatologist Albert Yan, MD, professor of pediatrics and dermatology at the University of Pennsylvania, Philadelphia, suggests that dermatologists “just jump in” and become familiar with the various AI models.

He reminds doctors that many of their colleagues and patients and their families are already using these systems, “and you don’t want to be left behind.”

In an interview following his presentation on AI at the annual meeting of the Society for Pediatric Dermatology (SPD), Dr. Yan discussed his tips for using AI.
 

Changing Fast 

From the outset, most generative AI systems have been very good at processing language — for example, generating letters of medical necessity and summarizing disease processes into lay terms. But now they’re becoming “truly multimodal,” said Dr. Yan. “You can enter images; you could have it process audio; you can even start to have it refine video.”

To get started, he recommends signing up for a free account with ChatGPT, Gemini, Perplexity, Claude, and/or Microsoft Copilot. “To make the best choice, you have to try them out yourself because they each have their own kind of flavor and strengths and weaknesses,” said Dr. Yan.

Personally, he finds that ChatGPT is the most versatile, Gemini perhaps a little better in terms of image generation, and Perplexity probably the best at references because it was designed as an online library.

Once you figure out which platforms you prefer, consider signing up for a premium subscription, which is typically month to month and can be canceled at any time, Dr. Yan said. “This will allow you to get the most out of the AI model.”

As these AI systems are based on large language models, they are excellent at text, Dr. Yan noted. He suggests asking one to generate a letter or patient instruction sheet. “If you have a premium model, give it a PDF to summarize an article or take a photo of something that you want its opinion on.”

Privacy Critical

Always pay attention to privacy issues and avoid entering any private health information that would violate the Health Insurance Portability and Accountability Act (HIPAA), he said.

“We have to be very careful about how we interact with AI,” said Dr. Yan. “We can’t be posting private patient health information into these systems, no matter how useful these systems are.” Many academic institutions are creating “walled gardens” — private areas of AI access that don’t allow patient information to “leak out,” he said. “These AI models may have HIPAA protections in place and come with specific guidelines of use.”

The AI “scribe,” which helps with electronic health record documentation, is one of the most useful tools for clinicians, he said. He referred to a recent study showing that an AI scribe saved users an average of 1 hour at the keyboard every day, and a small patient survey showing 71% reported that it led to spending more time with their physician.

When entering requests into a prompt line with an AI system, Dr. Yan stressed that these prompts need to be clear and concise. For a complicated calculation or multistep problem, try adding the words “let’s do this step by step,” he said. “This is a technique invoking a ‘chain of thought’ that allows the system to enhance its accuracy when solving problems.”

If the response is not satisfactory, try being more detailed in the request, he advised, and consider giving the system examples of what you’re looking for and telling it what you don’t want in the output.

“For instance, if you’re asking for a differential diagnosis of rashes that affect the hands and feet, you can stipulate that you only want rashes that are vesicular or that arise in neonates, so you can get a more focused answer,” said Dr. Yan.

If there are “long-winded verbose” responses, add the phrase “be concise,” and it will shorten the response by about 50%, he added.
 

AI Hallucinations

Dr. Yan broached an issue that occasionally comes up, AI hallucinations, which refer to inaccurate or misleading responses on the basis of incomplete training or intrinsic biases within the model. He pointed to the case of a doctor discussing issues related to a patient’s hands, feet, and mouth, which the AI-generated model summarized as “the patient being diagnosed with hand, foot, and mouth disease.”

Another example he provided was a request to generate a letter of medical necessity for using ustekinumab (Stelara) for treating hidradenitis suppurative in a child that included references for its effectiveness and safety in children. The AI system generated “false references that sounded like they should be real because the authors are often people who have written in that field or on that subject,” said Dr. Yan.

When pressed, the system did acknowledge the references were hypothetical but were meant to illustrate the types of studies that would typically support the use of this drug in pediatric patients with HS. “ It’s well meaning, in the sense that it’s trying to help you achieve your goals using this training system,” said Dr. Yan.

“If you’re skeptical about a response, double-check the answer with a Google search or run the response through another AI [tool] asking it to check if the response is accurate,” he added.

While AI systems won’t replace the clinician, they are continuing to improve and becoming more sophisticated. Dr. Yan advises keeping up with emerging developments and engaging and adapting the most appropriate AI tool for an individual clinician’s work.

Asked to comment on the presentation at the SPD meeting, Sheilagh Maguiness, MD, director of the Division of Pediatric Dermatology at the University of Minnesota, Minneapolis, who, like other doctors, is increasingly testing AI, said she foresees a time when AI scribes fully replace humans for completing tasks during patient interactions.

“The hope is that if the AI scribes get good enough, we can just open our phone, have them translate the interaction, and create the notes for us.”

While she likes the idea of using ChatGPT to help with tasks like letters of recommendation for medications, Dr. Yan’s comments reiterated the importance of “checking and double-checking ChatGPT because it’s not correct all the time.” She particularly welcomed the advice “that we can just go back and ask it again to clarify, and that may improve its answers.”

Dr. Yan’s disclosures included an investment portfolio that includes companies working in the AI space, including Google, Apple, Nvidia, Amazon, Microsoft, and Arm. Dr. Maguiness had no relevant disclosures.

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

TORONTO — When it comes to using artificial intelligence (AI) in your practice, pediatric dermatologist Albert Yan, MD, professor of pediatrics and dermatology at the University of Pennsylvania, Philadelphia, suggests that dermatologists “just jump in” and become familiar with the various AI models.

He reminds doctors that many of their colleagues and patients and their families are already using these systems, “and you don’t want to be left behind.”

In an interview following his presentation on AI at the annual meeting of the Society for Pediatric Dermatology (SPD), Dr. Yan discussed his tips for using AI.
 

Changing Fast 

From the outset, most generative AI systems have been very good at processing language — for example, generating letters of medical necessity and summarizing disease processes into lay terms. But now they’re becoming “truly multimodal,” said Dr. Yan. “You can enter images; you could have it process audio; you can even start to have it refine video.”

To get started, he recommends signing up for a free account with ChatGPT, Gemini, Perplexity, Claude, and/or Microsoft Copilot. “To make the best choice, you have to try them out yourself because they each have their own kind of flavor and strengths and weaknesses,” said Dr. Yan.

Personally, he finds that ChatGPT is the most versatile, Gemini perhaps a little better in terms of image generation, and Perplexity probably the best at references because it was designed as an online library.

Once you figure out which platforms you prefer, consider signing up for a premium subscription, which is typically month to month and can be canceled at any time, Dr. Yan said. “This will allow you to get the most out of the AI model.”

As these AI systems are based on large language models, they are excellent at text, Dr. Yan noted. He suggests asking one to generate a letter or patient instruction sheet. “If you have a premium model, give it a PDF to summarize an article or take a photo of something that you want its opinion on.”

Privacy Critical

Always pay attention to privacy issues and avoid entering any private health information that would violate the Health Insurance Portability and Accountability Act (HIPAA), he said.

“We have to be very careful about how we interact with AI,” said Dr. Yan. “We can’t be posting private patient health information into these systems, no matter how useful these systems are.” Many academic institutions are creating “walled gardens” — private areas of AI access that don’t allow patient information to “leak out,” he said. “These AI models may have HIPAA protections in place and come with specific guidelines of use.”

The AI “scribe,” which helps with electronic health record documentation, is one of the most useful tools for clinicians, he said. He referred to a recent study showing that an AI scribe saved users an average of 1 hour at the keyboard every day, and a small patient survey showing 71% reported that it led to spending more time with their physician.

When entering requests into a prompt line with an AI system, Dr. Yan stressed that these prompts need to be clear and concise. For a complicated calculation or multistep problem, try adding the words “let’s do this step by step,” he said. “This is a technique invoking a ‘chain of thought’ that allows the system to enhance its accuracy when solving problems.”

If the response is not satisfactory, try being more detailed in the request, he advised, and consider giving the system examples of what you’re looking for and telling it what you don’t want in the output.

“For instance, if you’re asking for a differential diagnosis of rashes that affect the hands and feet, you can stipulate that you only want rashes that are vesicular or that arise in neonates, so you can get a more focused answer,” said Dr. Yan.

If there are “long-winded verbose” responses, add the phrase “be concise,” and it will shorten the response by about 50%, he added.
 

AI Hallucinations

Dr. Yan broached an issue that occasionally comes up, AI hallucinations, which refer to inaccurate or misleading responses on the basis of incomplete training or intrinsic biases within the model. He pointed to the case of a doctor discussing issues related to a patient’s hands, feet, and mouth, which the AI-generated model summarized as “the patient being diagnosed with hand, foot, and mouth disease.”

Another example he provided was a request to generate a letter of medical necessity for using ustekinumab (Stelara) for treating hidradenitis suppurative in a child that included references for its effectiveness and safety in children. The AI system generated “false references that sounded like they should be real because the authors are often people who have written in that field or on that subject,” said Dr. Yan.

When pressed, the system did acknowledge the references were hypothetical but were meant to illustrate the types of studies that would typically support the use of this drug in pediatric patients with HS. “ It’s well meaning, in the sense that it’s trying to help you achieve your goals using this training system,” said Dr. Yan.

“If you’re skeptical about a response, double-check the answer with a Google search or run the response through another AI [tool] asking it to check if the response is accurate,” he added.

While AI systems won’t replace the clinician, they are continuing to improve and becoming more sophisticated. Dr. Yan advises keeping up with emerging developments and engaging and adapting the most appropriate AI tool for an individual clinician’s work.

Asked to comment on the presentation at the SPD meeting, Sheilagh Maguiness, MD, director of the Division of Pediatric Dermatology at the University of Minnesota, Minneapolis, who, like other doctors, is increasingly testing AI, said she foresees a time when AI scribes fully replace humans for completing tasks during patient interactions.

“The hope is that if the AI scribes get good enough, we can just open our phone, have them translate the interaction, and create the notes for us.”

While she likes the idea of using ChatGPT to help with tasks like letters of recommendation for medications, Dr. Yan’s comments reiterated the importance of “checking and double-checking ChatGPT because it’s not correct all the time.” She particularly welcomed the advice “that we can just go back and ask it again to clarify, and that may improve its answers.”

Dr. Yan’s disclosures included an investment portfolio that includes companies working in the AI space, including Google, Apple, Nvidia, Amazon, Microsoft, and Arm. Dr. Maguiness had no relevant disclosures.

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

Potentially life-threatening cutaneous adverse drug reactions (cADRs) are associated with commonly prescribed oral antibiotics, according to a large, population-based, nested case-control study of older adults, spanning two decades.

The findings, published online in JAMA, “underscore the importance of judicious prescribing, with preferential use of antibiotics associated with a lower risk when clinically appropriate,” noted senior author David Juurlink, MD, PhD, professor of medicine; pediatrics; and health policy, management and evaluation at the University of Toronto, and head of the Clinical Pharmacology and Toxicology Division at Sunnybrook Health Sciences Centre, also in Toronto, Ontario, Canada, and coauthors.

“We hope our study raises awareness about the importance of drug allergy and gains support for future studies to improve drug allergy care,” lead author Erika Lee, MD, clinical immunology and allergy lecturer at the University of Toronto’s Drug Allergy Clinic, Sunnybrook Health Sciences Centre, said in an interview. “It is important to recognize symptoms and signs of a severe drug rash and promptly stop culprit drugs to prevent worsening reaction.”

Serious cADRs are “a group of rare but potentially life-threatening drug hypersensitivity reactions involving the skin and, frequently, internal organs,” the authors wrote. “Typically delayed in onset, these reactions include drug reaction with eosinophilia and systemic symptoms, Stevens-Johnson syndrome (SJS), and toxic epidermal necrolysis (TEN) — the most severe cADR, which has a reported mortality of 20%-40%,” they noted.

Speculation Without Data

Although it has been speculated that some oral antibiotics are more likely than others to be associated with serious cADRs, there have been no population-based studies examining this, they added.

The study included adults aged 66 years or older and used administrative health databases in Ontario, spanning from April 1, 2002, to March 31, 2022. Data on antibiotic use were taken from the Ontario Drug Benefit database. The Canadian Institute for Health Information (CIHI) National Ambulatory Care Reporting System was used to obtain data on emergency department (ED) visits for cADRs, while the CIHI Discharge Abstract Database was used to identify hospitalizations for cADRs. Finally, demographic information and outpatient healthcare utilization data were obtained from the Registered Persons Database and the Ontario Health Insurance Plan database, respectively.

A cohort of 21,758 older adults (median age, 75 years; 64.1% women) who had an ED visit or hospitalization for serious cADRs within 60 days of receiving antibiotic therapy was matched by age and sex with 87,025 antibiotic-treated controls who did not have a cutaneous reaction.

The median duration of antibiotic prescription was 7 days among cases and controls, and among the cases, the median latency period between antibiotic prescriptions and hospital visits for cADRs was 14 days. Most of the case patients went to the ED only (86.9%), and the rest were hospitalized.

The most commonly prescribed antibiotic class was penicillins (28.9%), followed by cephalosporins (18.2%), fluoroquinolones (16.5%), macrolides (14.8%), nitrofurantoin (8.6%), and sulfonamides (6.2%). Less commonly used antibiotics (“other” antibiotics) accounted for 6.9%.

Macrolide antibiotics were used as the reference because they are rarely associated with serious cADRs, noted the authors, and the multivariable analysis, adjusted for risk factors associated with serious cADRs, including malignancy, chronic liver disease, chronic kidney disease, and HIV.

After multivariable adjustment, relative to macrolides, sulfonamides were most strongly associated with serious cADRs (adjusted odds ratio [aOR], 2.9) but so were all other antibiotic classes, including cephalosporins (aOR, 2.6), “other” antibiotics (aOR, 2.3), nitrofurantoin (aOR, 2.2), penicillins (aOR, 1.4), and fluoroquinolones (aOR,1.3).

In the secondary analysis, the crude rate of ED visits or hospitalizations for cADRs was highest for cephalosporins (4.92 per 1000 prescriptions), followed by sulfonamides (3.22 per 1000 prescriptions). Among hospitalized patients, the median length of stay was 6 days, with 9.6% requiring transfer to a critical care unit and 5.3% dying in the hospital.
 

Hospitalizations, ED Visits Not Studied Previously

“Notably, the rate of antibiotic-associated serious cADRs leading to an ED visit or hospitalization has not been previously studied,” noted the authors. “We found that at least two hospital encounters for serious cADRs ensued for every 1000 antibiotic prescriptions. This rate is considerably higher than suggested by studies that examine only SJS/TEN and drug reaction with eosinophilia and systemic symptoms.”

Dr. Lee also emphasized the previously unreported findings about nitrofurantoin. “It is surprising to find that nitrofurantoin, a commonly prescribed antibiotic for urinary tract infection, is also associated with an increased risk of severe drug rash,” she said in an interview.

“This finding highlights a potential novel risk at a population-based level and should be further explored in other populations to verify this association,” the authors wrote.

Amesh Adalja, MD, a senior scholar at the Johns Hopkins Center for Health Security in Baltimore, Maryland, and a spokesperson for the Infectious Diseases Society of America, who was not involved in the study, agreed that the nitrofurantoin finding was surprising, but he was not surprised that sulfonamides were high on the list.

“The study reinforces that antibiotics are not benign medications to be dispensed injudiciously,” he said in an interview. “Antibiotics have risks, including serious skin reactions, as well as the fostering of antibiotic resistance. Clinicians should always first ask themselves if their patient actually merits an antibiotic and then assess what is the safest antibiotic for the purpose, bearing in mind that certain antibiotics are more likely to result in adverse reactions than others.”

The study was supported by the Canadian Institutes of Health Research. The study was conducted at ICES, which is funded in part by an annual grant from the Ontario Ministry of Health and Long-Term Care. One coauthor reported receiving compensation from the British Journal of Dermatology as reviewer and section editor, the American Academy of Dermatology as guidelines writer, Canadian Dermatology Today as manuscript writer, and the National Eczema Association and the Canadian Agency for Drugs and Technologies in Health as consultant; as well as receiving research grants to the coauthor’s institution from the National Eczema Association, Eczema Society of Canada, Canadian Dermatology Foundation, Canadian Institutes of Health Research, US National Institutes of Health, and PSI Foundation. Another coauthor reported receiving grants from AbbVie, Bausch Health, Celgene, Lilly, Incyte, Janssen, LEO Pharma, L’Oréal, Novartis, Organon, Pfizer, Sandoz, Amgen, and Boehringer Ingelheim; receiving payment or honoraria for speaking from Sanofi China; participating on advisory boards for LEO Pharma, Novartis, Sanofi, and Union Therapeutics; and receiving equipment donation from L’Oréal. Dr. Adalja reported no relevant disclosures.

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

Potentially life-threatening cutaneous adverse drug reactions (cADRs) are associated with commonly prescribed oral antibiotics, according to a large, population-based, nested case-control study of older adults, spanning two decades.

The findings, published online in JAMA, “underscore the importance of judicious prescribing, with preferential use of antibiotics associated with a lower risk when clinically appropriate,” noted senior author David Juurlink, MD, PhD, professor of medicine; pediatrics; and health policy, management and evaluation at the University of Toronto, and head of the Clinical Pharmacology and Toxicology Division at Sunnybrook Health Sciences Centre, also in Toronto, Ontario, Canada, and coauthors.

“We hope our study raises awareness about the importance of drug allergy and gains support for future studies to improve drug allergy care,” lead author Erika Lee, MD, clinical immunology and allergy lecturer at the University of Toronto’s Drug Allergy Clinic, Sunnybrook Health Sciences Centre, said in an interview. “It is important to recognize symptoms and signs of a severe drug rash and promptly stop culprit drugs to prevent worsening reaction.”

Serious cADRs are “a group of rare but potentially life-threatening drug hypersensitivity reactions involving the skin and, frequently, internal organs,” the authors wrote. “Typically delayed in onset, these reactions include drug reaction with eosinophilia and systemic symptoms, Stevens-Johnson syndrome (SJS), and toxic epidermal necrolysis (TEN) — the most severe cADR, which has a reported mortality of 20%-40%,” they noted.

Speculation Without Data

Although it has been speculated that some oral antibiotics are more likely than others to be associated with serious cADRs, there have been no population-based studies examining this, they added.

The study included adults aged 66 years or older and used administrative health databases in Ontario, spanning from April 1, 2002, to March 31, 2022. Data on antibiotic use were taken from the Ontario Drug Benefit database. The Canadian Institute for Health Information (CIHI) National Ambulatory Care Reporting System was used to obtain data on emergency department (ED) visits for cADRs, while the CIHI Discharge Abstract Database was used to identify hospitalizations for cADRs. Finally, demographic information and outpatient healthcare utilization data were obtained from the Registered Persons Database and the Ontario Health Insurance Plan database, respectively.

A cohort of 21,758 older adults (median age, 75 years; 64.1% women) who had an ED visit or hospitalization for serious cADRs within 60 days of receiving antibiotic therapy was matched by age and sex with 87,025 antibiotic-treated controls who did not have a cutaneous reaction.

The median duration of antibiotic prescription was 7 days among cases and controls, and among the cases, the median latency period between antibiotic prescriptions and hospital visits for cADRs was 14 days. Most of the case patients went to the ED only (86.9%), and the rest were hospitalized.

The most commonly prescribed antibiotic class was penicillins (28.9%), followed by cephalosporins (18.2%), fluoroquinolones (16.5%), macrolides (14.8%), nitrofurantoin (8.6%), and sulfonamides (6.2%). Less commonly used antibiotics (“other” antibiotics) accounted for 6.9%.

Macrolide antibiotics were used as the reference because they are rarely associated with serious cADRs, noted the authors, and the multivariable analysis, adjusted for risk factors associated with serious cADRs, including malignancy, chronic liver disease, chronic kidney disease, and HIV.

After multivariable adjustment, relative to macrolides, sulfonamides were most strongly associated with serious cADRs (adjusted odds ratio [aOR], 2.9) but so were all other antibiotic classes, including cephalosporins (aOR, 2.6), “other” antibiotics (aOR, 2.3), nitrofurantoin (aOR, 2.2), penicillins (aOR, 1.4), and fluoroquinolones (aOR,1.3).

In the secondary analysis, the crude rate of ED visits or hospitalizations for cADRs was highest for cephalosporins (4.92 per 1000 prescriptions), followed by sulfonamides (3.22 per 1000 prescriptions). Among hospitalized patients, the median length of stay was 6 days, with 9.6% requiring transfer to a critical care unit and 5.3% dying in the hospital.
 

Hospitalizations, ED Visits Not Studied Previously

“Notably, the rate of antibiotic-associated serious cADRs leading to an ED visit or hospitalization has not been previously studied,” noted the authors. “We found that at least two hospital encounters for serious cADRs ensued for every 1000 antibiotic prescriptions. This rate is considerably higher than suggested by studies that examine only SJS/TEN and drug reaction with eosinophilia and systemic symptoms.”

Dr. Lee also emphasized the previously unreported findings about nitrofurantoin. “It is surprising to find that nitrofurantoin, a commonly prescribed antibiotic for urinary tract infection, is also associated with an increased risk of severe drug rash,” she said in an interview.

“This finding highlights a potential novel risk at a population-based level and should be further explored in other populations to verify this association,” the authors wrote.

Amesh Adalja, MD, a senior scholar at the Johns Hopkins Center for Health Security in Baltimore, Maryland, and a spokesperson for the Infectious Diseases Society of America, who was not involved in the study, agreed that the nitrofurantoin finding was surprising, but he was not surprised that sulfonamides were high on the list.

“The study reinforces that antibiotics are not benign medications to be dispensed injudiciously,” he said in an interview. “Antibiotics have risks, including serious skin reactions, as well as the fostering of antibiotic resistance. Clinicians should always first ask themselves if their patient actually merits an antibiotic and then assess what is the safest antibiotic for the purpose, bearing in mind that certain antibiotics are more likely to result in adverse reactions than others.”

The study was supported by the Canadian Institutes of Health Research. The study was conducted at ICES, which is funded in part by an annual grant from the Ontario Ministry of Health and Long-Term Care. One coauthor reported receiving compensation from the British Journal of Dermatology as reviewer and section editor, the American Academy of Dermatology as guidelines writer, Canadian Dermatology Today as manuscript writer, and the National Eczema Association and the Canadian Agency for Drugs and Technologies in Health as consultant; as well as receiving research grants to the coauthor’s institution from the National Eczema Association, Eczema Society of Canada, Canadian Dermatology Foundation, Canadian Institutes of Health Research, US National Institutes of Health, and PSI Foundation. Another coauthor reported receiving grants from AbbVie, Bausch Health, Celgene, Lilly, Incyte, Janssen, LEO Pharma, L’Oréal, Novartis, Organon, Pfizer, Sandoz, Amgen, and Boehringer Ingelheim; receiving payment or honoraria for speaking from Sanofi China; participating on advisory boards for LEO Pharma, Novartis, Sanofi, and Union Therapeutics; and receiving equipment donation from L’Oréal. Dr. Adalja reported no relevant disclosures.

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

Potentially life-threatening cutaneous adverse drug reactions (cADRs) are associated with commonly prescribed oral antibiotics, according to a large, population-based, nested case-control study of older adults, spanning two decades.

The findings, published online in JAMA, “underscore the importance of judicious prescribing, with preferential use of antibiotics associated with a lower risk when clinically appropriate,” noted senior author David Juurlink, MD, PhD, professor of medicine; pediatrics; and health policy, management and evaluation at the University of Toronto, and head of the Clinical Pharmacology and Toxicology Division at Sunnybrook Health Sciences Centre, also in Toronto, Ontario, Canada, and coauthors.

“We hope our study raises awareness about the importance of drug allergy and gains support for future studies to improve drug allergy care,” lead author Erika Lee, MD, clinical immunology and allergy lecturer at the University of Toronto’s Drug Allergy Clinic, Sunnybrook Health Sciences Centre, said in an interview. “It is important to recognize symptoms and signs of a severe drug rash and promptly stop culprit drugs to prevent worsening reaction.”

Serious cADRs are “a group of rare but potentially life-threatening drug hypersensitivity reactions involving the skin and, frequently, internal organs,” the authors wrote. “Typically delayed in onset, these reactions include drug reaction with eosinophilia and systemic symptoms, Stevens-Johnson syndrome (SJS), and toxic epidermal necrolysis (TEN) — the most severe cADR, which has a reported mortality of 20%-40%,” they noted.

Speculation Without Data

Although it has been speculated that some oral antibiotics are more likely than others to be associated with serious cADRs, there have been no population-based studies examining this, they added.

The study included adults aged 66 years or older and used administrative health databases in Ontario, spanning from April 1, 2002, to March 31, 2022. Data on antibiotic use were taken from the Ontario Drug Benefit database. The Canadian Institute for Health Information (CIHI) National Ambulatory Care Reporting System was used to obtain data on emergency department (ED) visits for cADRs, while the CIHI Discharge Abstract Database was used to identify hospitalizations for cADRs. Finally, demographic information and outpatient healthcare utilization data were obtained from the Registered Persons Database and the Ontario Health Insurance Plan database, respectively.

A cohort of 21,758 older adults (median age, 75 years; 64.1% women) who had an ED visit or hospitalization for serious cADRs within 60 days of receiving antibiotic therapy was matched by age and sex with 87,025 antibiotic-treated controls who did not have a cutaneous reaction.

The median duration of antibiotic prescription was 7 days among cases and controls, and among the cases, the median latency period between antibiotic prescriptions and hospital visits for cADRs was 14 days. Most of the case patients went to the ED only (86.9%), and the rest were hospitalized.

The most commonly prescribed antibiotic class was penicillins (28.9%), followed by cephalosporins (18.2%), fluoroquinolones (16.5%), macrolides (14.8%), nitrofurantoin (8.6%), and sulfonamides (6.2%). Less commonly used antibiotics (“other” antibiotics) accounted for 6.9%.

Macrolide antibiotics were used as the reference because they are rarely associated with serious cADRs, noted the authors, and the multivariable analysis, adjusted for risk factors associated with serious cADRs, including malignancy, chronic liver disease, chronic kidney disease, and HIV.

After multivariable adjustment, relative to macrolides, sulfonamides were most strongly associated with serious cADRs (adjusted odds ratio [aOR], 2.9) but so were all other antibiotic classes, including cephalosporins (aOR, 2.6), “other” antibiotics (aOR, 2.3), nitrofurantoin (aOR, 2.2), penicillins (aOR, 1.4), and fluoroquinolones (aOR,1.3).

In the secondary analysis, the crude rate of ED visits or hospitalizations for cADRs was highest for cephalosporins (4.92 per 1000 prescriptions), followed by sulfonamides (3.22 per 1000 prescriptions). Among hospitalized patients, the median length of stay was 6 days, with 9.6% requiring transfer to a critical care unit and 5.3% dying in the hospital.
 

Hospitalizations, ED Visits Not Studied Previously

“Notably, the rate of antibiotic-associated serious cADRs leading to an ED visit or hospitalization has not been previously studied,” noted the authors. “We found that at least two hospital encounters for serious cADRs ensued for every 1000 antibiotic prescriptions. This rate is considerably higher than suggested by studies that examine only SJS/TEN and drug reaction with eosinophilia and systemic symptoms.”

Dr. Lee also emphasized the previously unreported findings about nitrofurantoin. “It is surprising to find that nitrofurantoin, a commonly prescribed antibiotic for urinary tract infection, is also associated with an increased risk of severe drug rash,” she said in an interview.

“This finding highlights a potential novel risk at a population-based level and should be further explored in other populations to verify this association,” the authors wrote.

Amesh Adalja, MD, a senior scholar at the Johns Hopkins Center for Health Security in Baltimore, Maryland, and a spokesperson for the Infectious Diseases Society of America, who was not involved in the study, agreed that the nitrofurantoin finding was surprising, but he was not surprised that sulfonamides were high on the list.

“The study reinforces that antibiotics are not benign medications to be dispensed injudiciously,” he said in an interview. “Antibiotics have risks, including serious skin reactions, as well as the fostering of antibiotic resistance. Clinicians should always first ask themselves if their patient actually merits an antibiotic and then assess what is the safest antibiotic for the purpose, bearing in mind that certain antibiotics are more likely to result in adverse reactions than others.”

The study was supported by the Canadian Institutes of Health Research. The study was conducted at ICES, which is funded in part by an annual grant from the Ontario Ministry of Health and Long-Term Care. One coauthor reported receiving compensation from the British Journal of Dermatology as reviewer and section editor, the American Academy of Dermatology as guidelines writer, Canadian Dermatology Today as manuscript writer, and the National Eczema Association and the Canadian Agency for Drugs and Technologies in Health as consultant; as well as receiving research grants to the coauthor’s institution from the National Eczema Association, Eczema Society of Canada, Canadian Dermatology Foundation, Canadian Institutes of Health Research, US National Institutes of Health, and PSI Foundation. Another coauthor reported receiving grants from AbbVie, Bausch Health, Celgene, Lilly, Incyte, Janssen, LEO Pharma, L’Oréal, Novartis, Organon, Pfizer, Sandoz, Amgen, and Boehringer Ingelheim; receiving payment or honoraria for speaking from Sanofi China; participating on advisory boards for LEO Pharma, Novartis, Sanofi, and Union Therapeutics; and receiving equipment donation from L’Oréal. Dr. Adalja reported no relevant disclosures.

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

TOPLINE:

Patients with pure mucinous breast cancer (PMBC) show superior recurrence-free interval (RFI), recurrence-free survival (RFS), and overall survival (OS), compared with patients with invasive ductal carcinoma (IDC) and invasive lobular carcinoma (ILC). Patients with PMBC had a 5-year RFI of 96.1%, RFS of 94.9%, and OS of 98.1%.

METHODOLOGY:

• Researchers analyzed data from 23,102 women diagnosed with hormone receptor–positive HER2-negative stage I-III breast cancer, including 20,684 with IDC, 1475 with ILC, and 943 with PMBC.
• The multicenter cohort study included patients who underwent primary breast surgery at six academic institutions in Singapore, Taiwan, Korea, and Japan between January 2000 and December 2015.
• Current National Comprehensive Cancer Network Clinical Practice Guidelines “recommend consideration of adjuvant chemotherapy only for node-positive tumors,” whereas adjuvant endocrine therapy is recommended for estrogen receptor–positive and/or progesterone receptor–positive, node-positive tumors or tumors ≥ 3 cm. Previous studies have reported no significant association between adjuvant chemotherapy and breast cancer–specific survival or OS in patients with early-stage mucinous breast carcinoma.
• The study aimed to compare the recurrence and survival outcomes of PMBC against IDC and ILC, identify clinicopathologic prognostic factors of PMBC, and explore the association of adjuvant systemic therapy with outcomes across subgroups of PMBC.
• Extracted information included patient demographics, tumor characteristics, treatment administered, and staging according to the AJCC TNM classifications.

TAKEAWAY:

• Patients with PMBC had better RFI (hazard ratio [HR], 0.59; 95% CI, 0.43-0.80), RFS (HR, 0.70; 95% CI, 0.56-0.89), and OS (HR, 0.71; 95% CI, 0.53-0.96) than patients with IDC in multivariable Cox regression analyses.
• Fewer than half (48.7%) of the recurrences in patients with PMBC were distant, which was a lower rate than for patients with IDC (67.3%) and ILC (80.6%).
• Significant prognostic factors for RFI in PMBC included positive lymph node(s) (HR, 2.42; 95% CI, 1.08-5.40), radiotherapy (HR, 0.44; 95% CI, 0.23-0.85), and endocrine therapy (HR, 0.25; 95% CI, 0.09-0.70).
• No differential chemotherapy associations with outcomes were detected across PMBC subgroups by nodal stage, tumor size, and age.

IN PRACTICE:

“This international multicenter cohort study on PMBC evaluated one of the largest contemporary real-world datasets for clinical prognostic factors, which also includes valuable data on relapse events, associations of adjuvant systemic therapy, and a comparison with the SEER database,” wrote the authors of the study. “In our cohort, as anticipated, PMBC showed superior RFI, RFS, and OS compared with IDC and ILC, which both had comparatively similar survival outcomes.”

SOURCE:

Corresponding author, Yoon-Sim Yap, MBBS, PhD, of the National Cancer Centre Singapore in Singapore, designed the study. The paper was published online on May 14 in the Journal of the National Comprehensive Cancer Network.

LIMITATIONS:

The retrospective nature over a long period and lack of a central pathology review in this study are among its limitations. The high extent of missing values for tumor grade in PMBC in the multicenter cohort could impact the identified prognostic factors. The study’s findings may not be generalizable to all populations due to the specific geographic locations of the participating institutions.

DISCLOSURES:

Study author Yeon Hee Park, MD, PhD, disclosed serving on a data safety monitoring board and on an advisory board for AstraZeneca, Pfizer, Roche, Menarini, Novartis, and Daiichi Sankyo and serving as a consultant for AstraZeneca, Pfizer, Eli Lilly and Company, Gilead Sciences, Merck, Eisai, Roche, Daiichi Sankyo, Menarini, Everest Pharmaceuticals, and Novartis. Additional disclosures are noted in the original article.

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

TOPLINE:

Patients with pure mucinous breast cancer (PMBC) show superior recurrence-free interval (RFI), recurrence-free survival (RFS), and overall survival (OS), compared with patients with invasive ductal carcinoma (IDC) and invasive lobular carcinoma (ILC). Patients with PMBC had a 5-year RFI of 96.1%, RFS of 94.9%, and OS of 98.1%.

METHODOLOGY:

• Researchers analyzed data from 23,102 women diagnosed with hormone receptor–positive HER2-negative stage I-III breast cancer, including 20,684 with IDC, 1475 with ILC, and 943 with PMBC.
• The multicenter cohort study included patients who underwent primary breast surgery at six academic institutions in Singapore, Taiwan, Korea, and Japan between January 2000 and December 2015.
• Current National Comprehensive Cancer Network Clinical Practice Guidelines “recommend consideration of adjuvant chemotherapy only for node-positive tumors,” whereas adjuvant endocrine therapy is recommended for estrogen receptor–positive and/or progesterone receptor–positive, node-positive tumors or tumors ≥ 3 cm. Previous studies have reported no significant association between adjuvant chemotherapy and breast cancer–specific survival or OS in patients with early-stage mucinous breast carcinoma.
• The study aimed to compare the recurrence and survival outcomes of PMBC against IDC and ILC, identify clinicopathologic prognostic factors of PMBC, and explore the association of adjuvant systemic therapy with outcomes across subgroups of PMBC.
• Extracted information included patient demographics, tumor characteristics, treatment administered, and staging according to the AJCC TNM classifications.

TAKEAWAY:

• Patients with PMBC had better RFI (hazard ratio [HR], 0.59; 95% CI, 0.43-0.80), RFS (HR, 0.70; 95% CI, 0.56-0.89), and OS (HR, 0.71; 95% CI, 0.53-0.96) than patients with IDC in multivariable Cox regression analyses.
• Fewer than half (48.7%) of the recurrences in patients with PMBC were distant, which was a lower rate than for patients with IDC (67.3%) and ILC (80.6%).
• Significant prognostic factors for RFI in PMBC included positive lymph node(s) (HR, 2.42; 95% CI, 1.08-5.40), radiotherapy (HR, 0.44; 95% CI, 0.23-0.85), and endocrine therapy (HR, 0.25; 95% CI, 0.09-0.70).
• No differential chemotherapy associations with outcomes were detected across PMBC subgroups by nodal stage, tumor size, and age.

IN PRACTICE:

“This international multicenter cohort study on PMBC evaluated one of the largest contemporary real-world datasets for clinical prognostic factors, which also includes valuable data on relapse events, associations of adjuvant systemic therapy, and a comparison with the SEER database,” wrote the authors of the study. “In our cohort, as anticipated, PMBC showed superior RFI, RFS, and OS compared with IDC and ILC, which both had comparatively similar survival outcomes.”

SOURCE:

Corresponding author, Yoon-Sim Yap, MBBS, PhD, of the National Cancer Centre Singapore in Singapore, designed the study. The paper was published online on May 14 in the Journal of the National Comprehensive Cancer Network.

LIMITATIONS:

The retrospective nature over a long period and lack of a central pathology review in this study are among its limitations. The high extent of missing values for tumor grade in PMBC in the multicenter cohort could impact the identified prognostic factors. The study’s findings may not be generalizable to all populations due to the specific geographic locations of the participating institutions.

DISCLOSURES:

Study author Yeon Hee Park, MD, PhD, disclosed serving on a data safety monitoring board and on an advisory board for AstraZeneca, Pfizer, Roche, Menarini, Novartis, and Daiichi Sankyo and serving as a consultant for AstraZeneca, Pfizer, Eli Lilly and Company, Gilead Sciences, Merck, Eisai, Roche, Daiichi Sankyo, Menarini, Everest Pharmaceuticals, and Novartis. Additional disclosures are noted in the original article.

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

TOPLINE:

Patients with pure mucinous breast cancer (PMBC) show superior recurrence-free interval (RFI), recurrence-free survival (RFS), and overall survival (OS), compared with patients with invasive ductal carcinoma (IDC) and invasive lobular carcinoma (ILC). Patients with PMBC had a 5-year RFI of 96.1%, RFS of 94.9%, and OS of 98.1%.

METHODOLOGY:

• Researchers analyzed data from 23,102 women diagnosed with hormone receptor–positive HER2-negative stage I-III breast cancer, including 20,684 with IDC, 1475 with ILC, and 943 with PMBC.
• The multicenter cohort study included patients who underwent primary breast surgery at six academic institutions in Singapore, Taiwan, Korea, and Japan between January 2000 and December 2015.
• Current National Comprehensive Cancer Network Clinical Practice Guidelines “recommend consideration of adjuvant chemotherapy only for node-positive tumors,” whereas adjuvant endocrine therapy is recommended for estrogen receptor–positive and/or progesterone receptor–positive, node-positive tumors or tumors ≥ 3 cm. Previous studies have reported no significant association between adjuvant chemotherapy and breast cancer–specific survival or OS in patients with early-stage mucinous breast carcinoma.
• The study aimed to compare the recurrence and survival outcomes of PMBC against IDC and ILC, identify clinicopathologic prognostic factors of PMBC, and explore the association of adjuvant systemic therapy with outcomes across subgroups of PMBC.
• Extracted information included patient demographics, tumor characteristics, treatment administered, and staging according to the AJCC TNM classifications.

TAKEAWAY:

• Patients with PMBC had better RFI (hazard ratio [HR], 0.59; 95% CI, 0.43-0.80), RFS (HR, 0.70; 95% CI, 0.56-0.89), and OS (HR, 0.71; 95% CI, 0.53-0.96) than patients with IDC in multivariable Cox regression analyses.
• Fewer than half (48.7%) of the recurrences in patients with PMBC were distant, which was a lower rate than for patients with IDC (67.3%) and ILC (80.6%).
• Significant prognostic factors for RFI in PMBC included positive lymph node(s) (HR, 2.42; 95% CI, 1.08-5.40), radiotherapy (HR, 0.44; 95% CI, 0.23-0.85), and endocrine therapy (HR, 0.25; 95% CI, 0.09-0.70).
• No differential chemotherapy associations with outcomes were detected across PMBC subgroups by nodal stage, tumor size, and age.

IN PRACTICE:

“This international multicenter cohort study on PMBC evaluated one of the largest contemporary real-world datasets for clinical prognostic factors, which also includes valuable data on relapse events, associations of adjuvant systemic therapy, and a comparison with the SEER database,” wrote the authors of the study. “In our cohort, as anticipated, PMBC showed superior RFI, RFS, and OS compared with IDC and ILC, which both had comparatively similar survival outcomes.”

SOURCE:

Corresponding author, Yoon-Sim Yap, MBBS, PhD, of the National Cancer Centre Singapore in Singapore, designed the study. The paper was published online on May 14 in the Journal of the National Comprehensive Cancer Network.

LIMITATIONS:

The retrospective nature over a long period and lack of a central pathology review in this study are among its limitations. The high extent of missing values for tumor grade in PMBC in the multicenter cohort could impact the identified prognostic factors. The study’s findings may not be generalizable to all populations due to the specific geographic locations of the participating institutions.

DISCLOSURES:

Study author Yeon Hee Park, MD, PhD, disclosed serving on a data safety monitoring board and on an advisory board for AstraZeneca, Pfizer, Roche, Menarini, Novartis, and Daiichi Sankyo and serving as a consultant for AstraZeneca, Pfizer, Eli Lilly and Company, Gilead Sciences, Merck, Eisai, Roche, Daiichi Sankyo, Menarini, Everest Pharmaceuticals, and Novartis. Additional disclosures are noted in the original article.

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

TOPLINE:

Among patients with overweight or obesity, frontline immunotherapy for advanced non–small cell lung cancer (NSCLC) was not associated with a survival benefit compared with conventional chemotherapy. Overall, however, compared with low body mass index (BMI), overweight or obesity was associated with a lower risk for mortality among patients receiving either therapy.

METHODOLOGY:

• The association between BMI and overall survival in patients with cancer who receive immunotherapy or conventional chemotherapy in the frontline remains unclear. Patients with cancer and obesity are generally considered to have a worse prognosis, but some data suggest an obesity paradox, where patients with cancer and a higher BMI demonstrate better overall survival following immunotherapy or chemotherapy.
• To clarify whether (or how) BMI affects overall survival outcomes and the optimal frontline treatment choice, researchers evaluated 31,257 patients with advanced NSCLC from Japan who received immune checkpoint inhibitors (n = 12,816) or conventional chemotherapy (n = 18,441).
• Patient outcomes were assessed according to weight categories and frontline therapy type (immune checkpoint inhibitors or conventional chemotherapy), with overall survival as the primary outcome.
• A BMI < 18.5 was considered underweight, 18.5-24.9 was considered normal weight, 25.0-29.9 was considered overweight, and ≥ 30.0 was considered obese.

TAKEAWAY:

• In the overall population, regardless of weight, patients who received chemotherapy had a higher mortality rate than those who received immunotherapy — 35.9% vs 28.0%, respectively — over a follow-up of 3 years.
• However, overweight or obesity was associated with a lower risk for mortality compared with a lower BMI among patients with advanced NSCLC, regardless of whether they received immune checkpoint inhibitor therapy or conventional chemotherapy.
• Among patients who received immunotherapy, the risk for mortality decreased steadily as BMI increased from 15 to 24 and then increased at higher BMIs, indicating a U-shaped association.
• Immunotherapy was associated with a significant improvement in overall survival compared with conventional chemotherapy among patients with a BMI < 28; however, researchers observed no difference in overall survival between the two therapies in those with a BMI ≥ 28.

IN PRACTICE:

Overall, “these results support the presence of the obesity paradox in patients with [advanced] NSCLC who underwent either therapy,” the authors concluded.

But when focused on patients in the higher BMI group, there was no overall survival benefit with the frontline immunotherapy vs the conventional chemotherapy. “Immunotherapy therapy may not necessarily be the optimal first-line therapy for patients with overweight or obesity,” the authors wrote, adding that “the use of conventional chemotherapy should also be considered.”

SOURCE:

The study, led by Yasutaka Ihara, PharmD, Osaka Metropolitan University, Osaka, Japan, was published online in JAMA Network Open.

LIMITATIONS: 

Retrospective design has inherent bias. PD-L1 status was not known, and the inclusion of Japanese population may have limited the generalizability of the findings. 

DISCLOSURES:

This study received funding from the Graduate School of Medicine, Osaka Metropolitan University. Several authors reported receiving personal fees from various pharmaceutical sources.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.

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

TOPLINE:

Among patients with overweight or obesity, frontline immunotherapy for advanced non–small cell lung cancer (NSCLC) was not associated with a survival benefit compared with conventional chemotherapy. Overall, however, compared with low body mass index (BMI), overweight or obesity was associated with a lower risk for mortality among patients receiving either therapy.

METHODOLOGY:

• The association between BMI and overall survival in patients with cancer who receive immunotherapy or conventional chemotherapy in the frontline remains unclear. Patients with cancer and obesity are generally considered to have a worse prognosis, but some data suggest an obesity paradox, where patients with cancer and a higher BMI demonstrate better overall survival following immunotherapy or chemotherapy.
• To clarify whether (or how) BMI affects overall survival outcomes and the optimal frontline treatment choice, researchers evaluated 31,257 patients with advanced NSCLC from Japan who received immune checkpoint inhibitors (n = 12,816) or conventional chemotherapy (n = 18,441).
• Patient outcomes were assessed according to weight categories and frontline therapy type (immune checkpoint inhibitors or conventional chemotherapy), with overall survival as the primary outcome.
• A BMI < 18.5 was considered underweight, 18.5-24.9 was considered normal weight, 25.0-29.9 was considered overweight, and ≥ 30.0 was considered obese.

TAKEAWAY:

• In the overall population, regardless of weight, patients who received chemotherapy had a higher mortality rate than those who received immunotherapy — 35.9% vs 28.0%, respectively — over a follow-up of 3 years.
• However, overweight or obesity was associated with a lower risk for mortality compared with a lower BMI among patients with advanced NSCLC, regardless of whether they received immune checkpoint inhibitor therapy or conventional chemotherapy.
• Among patients who received immunotherapy, the risk for mortality decreased steadily as BMI increased from 15 to 24 and then increased at higher BMIs, indicating a U-shaped association.
• Immunotherapy was associated with a significant improvement in overall survival compared with conventional chemotherapy among patients with a BMI < 28; however, researchers observed no difference in overall survival between the two therapies in those with a BMI ≥ 28.

IN PRACTICE:

Overall, “these results support the presence of the obesity paradox in patients with [advanced] NSCLC who underwent either therapy,” the authors concluded.

But when focused on patients in the higher BMI group, there was no overall survival benefit with the frontline immunotherapy vs the conventional chemotherapy. “Immunotherapy therapy may not necessarily be the optimal first-line therapy for patients with overweight or obesity,” the authors wrote, adding that “the use of conventional chemotherapy should also be considered.”

SOURCE:

The study, led by Yasutaka Ihara, PharmD, Osaka Metropolitan University, Osaka, Japan, was published online in JAMA Network Open.

LIMITATIONS: 

Retrospective design has inherent bias. PD-L1 status was not known, and the inclusion of Japanese population may have limited the generalizability of the findings. 

DISCLOSURES:

This study received funding from the Graduate School of Medicine, Osaka Metropolitan University. Several authors reported receiving personal fees from various pharmaceutical sources.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.

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

TOPLINE:

Among patients with overweight or obesity, frontline immunotherapy for advanced non–small cell lung cancer (NSCLC) was not associated with a survival benefit compared with conventional chemotherapy. Overall, however, compared with low body mass index (BMI), overweight or obesity was associated with a lower risk for mortality among patients receiving either therapy.

METHODOLOGY:

• The association between BMI and overall survival in patients with cancer who receive immunotherapy or conventional chemotherapy in the frontline remains unclear. Patients with cancer and obesity are generally considered to have a worse prognosis, but some data suggest an obesity paradox, where patients with cancer and a higher BMI demonstrate better overall survival following immunotherapy or chemotherapy.
• To clarify whether (or how) BMI affects overall survival outcomes and the optimal frontline treatment choice, researchers evaluated 31,257 patients with advanced NSCLC from Japan who received immune checkpoint inhibitors (n = 12,816) or conventional chemotherapy (n = 18,441).
• Patient outcomes were assessed according to weight categories and frontline therapy type (immune checkpoint inhibitors or conventional chemotherapy), with overall survival as the primary outcome.
• A BMI < 18.5 was considered underweight, 18.5-24.9 was considered normal weight, 25.0-29.9 was considered overweight, and ≥ 30.0 was considered obese.

TAKEAWAY:

• In the overall population, regardless of weight, patients who received chemotherapy had a higher mortality rate than those who received immunotherapy — 35.9% vs 28.0%, respectively — over a follow-up of 3 years.
• However, overweight or obesity was associated with a lower risk for mortality compared with a lower BMI among patients with advanced NSCLC, regardless of whether they received immune checkpoint inhibitor therapy or conventional chemotherapy.
• Among patients who received immunotherapy, the risk for mortality decreased steadily as BMI increased from 15 to 24 and then increased at higher BMIs, indicating a U-shaped association.
• Immunotherapy was associated with a significant improvement in overall survival compared with conventional chemotherapy among patients with a BMI < 28; however, researchers observed no difference in overall survival between the two therapies in those with a BMI ≥ 28.

IN PRACTICE:

Overall, “these results support the presence of the obesity paradox in patients with [advanced] NSCLC who underwent either therapy,” the authors concluded.

But when focused on patients in the higher BMI group, there was no overall survival benefit with the frontline immunotherapy vs the conventional chemotherapy. “Immunotherapy therapy may not necessarily be the optimal first-line therapy for patients with overweight or obesity,” the authors wrote, adding that “the use of conventional chemotherapy should also be considered.”

SOURCE:

The study, led by Yasutaka Ihara, PharmD, Osaka Metropolitan University, Osaka, Japan, was published online in JAMA Network Open.

LIMITATIONS: 

Retrospective design has inherent bias. PD-L1 status was not known, and the inclusion of Japanese population may have limited the generalizability of the findings. 

DISCLOSURES:

This study received funding from the Graduate School of Medicine, Osaka Metropolitan University. Several authors reported receiving personal fees from various pharmaceutical sources.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.

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

TOPLINE:

Xanthelasma palpebrarum, characterized by yellowish plaques on the eyelids, is not associated with increased rates of dyslipidemia or cardiovascular disease.

METHODOLOGY:

• Researchers conducted a case-control study at a single tertiary care center in Israel and analyzed data from 35,452 individuals (mean age, 52.2 years; 69% men) who underwent medical screening from 2001 to 2020.
• They compared 203 patients with xanthelasma palpebrarum with 2030 individuals without the disease (control).
• Primary outcomes were prevalence of dyslipidemia and cardiovascular disease between the two groups.

TAKEAWAY:

• Lipid profiles were similar between the two groups, with no difference in total cholesterol, high- and low-density lipoprotein, and triglyceride levels (all P > .05).
• The prevalence of dyslipidemia was similar for patients with xanthelasma palpebrarum and controls (46% vs 42%, respectively; P = .29), as was the incidence of cardiovascular disease (8.9% vs 10%, respectively; P = .56).
• The incidence of diabetes (P = .13), cerebrovascular accidents (P > .99), ischemic heart disease (P = .73), and hypertension (P = .56) were not significantly different between the two groups.

IN PRACTICE:

“Our study conducted on a large population of individuals undergoing comprehensive ophthalmic and systemic screening tests did not find a significant association between xanthelasma palpebrarum and an increased prevalence of lipid abnormalities or cardiovascular disease,” the authors wrote.

SOURCE:

The study was led by Yael Lustig, MD, of the Goldschleger Eye Institute at Sheba Medical Center, in Ramat Gan, Israel. It was published online on August 5, 2024, in Ophthalmology.

LIMITATIONS:

The retrospective nature of the study and the single-center design may have limited the generalizability of the findings. The study population was self-selected, potentially introducing selection bias. Lack of histopathologic examination could have affected the accuracy of the diagnosis.

DISCLOSURES:

No funding sources were disclosed for this study. The authors declared no conflicts of interest.

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

TOPLINE:

Xanthelasma palpebrarum, characterized by yellowish plaques on the eyelids, is not associated with increased rates of dyslipidemia or cardiovascular disease.

METHODOLOGY:

• Researchers conducted a case-control study at a single tertiary care center in Israel and analyzed data from 35,452 individuals (mean age, 52.2 years; 69% men) who underwent medical screening from 2001 to 2020.
• They compared 203 patients with xanthelasma palpebrarum with 2030 individuals without the disease (control).
• Primary outcomes were prevalence of dyslipidemia and cardiovascular disease between the two groups.

TAKEAWAY:

• Lipid profiles were similar between the two groups, with no difference in total cholesterol, high- and low-density lipoprotein, and triglyceride levels (all P > .05).
• The prevalence of dyslipidemia was similar for patients with xanthelasma palpebrarum and controls (46% vs 42%, respectively; P = .29), as was the incidence of cardiovascular disease (8.9% vs 10%, respectively; P = .56).
• The incidence of diabetes (P = .13), cerebrovascular accidents (P > .99), ischemic heart disease (P = .73), and hypertension (P = .56) were not significantly different between the two groups.

IN PRACTICE:

“Our study conducted on a large population of individuals undergoing comprehensive ophthalmic and systemic screening tests did not find a significant association between xanthelasma palpebrarum and an increased prevalence of lipid abnormalities or cardiovascular disease,” the authors wrote.

SOURCE:

The study was led by Yael Lustig, MD, of the Goldschleger Eye Institute at Sheba Medical Center, in Ramat Gan, Israel. It was published online on August 5, 2024, in Ophthalmology.

LIMITATIONS:

The retrospective nature of the study and the single-center design may have limited the generalizability of the findings. The study population was self-selected, potentially introducing selection bias. Lack of histopathologic examination could have affected the accuracy of the diagnosis.

DISCLOSURES:

No funding sources were disclosed for this study. The authors declared no conflicts of interest.

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

TOPLINE:

Xanthelasma palpebrarum, characterized by yellowish plaques on the eyelids, is not associated with increased rates of dyslipidemia or cardiovascular disease.

METHODOLOGY:

• Researchers conducted a case-control study at a single tertiary care center in Israel and analyzed data from 35,452 individuals (mean age, 52.2 years; 69% men) who underwent medical screening from 2001 to 2020.
• They compared 203 patients with xanthelasma palpebrarum with 2030 individuals without the disease (control).
• Primary outcomes were prevalence of dyslipidemia and cardiovascular disease between the two groups.

TAKEAWAY:

• Lipid profiles were similar between the two groups, with no difference in total cholesterol, high- and low-density lipoprotein, and triglyceride levels (all P > .05).
• The prevalence of dyslipidemia was similar for patients with xanthelasma palpebrarum and controls (46% vs 42%, respectively; P = .29), as was the incidence of cardiovascular disease (8.9% vs 10%, respectively; P = .56).
• The incidence of diabetes (P = .13), cerebrovascular accidents (P > .99), ischemic heart disease (P = .73), and hypertension (P = .56) were not significantly different between the two groups.

IN PRACTICE:

“Our study conducted on a large population of individuals undergoing comprehensive ophthalmic and systemic screening tests did not find a significant association between xanthelasma palpebrarum and an increased prevalence of lipid abnormalities or cardiovascular disease,” the authors wrote.

SOURCE:

The study was led by Yael Lustig, MD, of the Goldschleger Eye Institute at Sheba Medical Center, in Ramat Gan, Israel. It was published online on August 5, 2024, in Ophthalmology.

LIMITATIONS:

The retrospective nature of the study and the single-center design may have limited the generalizability of the findings. The study population was self-selected, potentially introducing selection bias. Lack of histopathologic examination could have affected the accuracy of the diagnosis.

DISCLOSURES:

No funding sources were disclosed for this study. The authors declared no conflicts of interest.

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

Pruritus, which is defined as an itching sensation that elicits a desire to scratch, is the most common cutaneous condition. Pruritus is considered chronic when it lasts for more than 6 weeks.¹ Etiologies implicated in chronic pruritus include but are not limited to primary skin diseases such as atopic dermatitis, systemic causes, neuropathic disorders, and psychogenic reasons.² In approximately 8% to 35% of patients, the cause of pruritus remains elusive despite intensive investigation.³ The mechanisms of itch are multifaceted and include complex neural pathways.⁴ Although itch and pain share many similarities, they have distinct pathways based on their spinal connections.⁵ Nevertheless, both conditions show a wide overlap of receptors on peripheral nerve endings and activated brain parts.^6,7 Fibromyalgia, the third most common musculoskeletal condition, affects 2% to 3% of the population worldwide and is at least 7 times more common in females.^8,9 Its pathogenesis is not entirely clear but is thought to involve neurogenic inflammation, aberrations in peripheral nerves, and central pain mechanisms. Fibromyalgia is characterized by a plethora of symptoms including chronic widespread pain, autonomic disturbances, persistent fatigue and sleep disturbances, and hyperalgesia, as well as somatic and psychiatric symptoms.¹⁰

Fibromyalgia is accompanied by altered skin features including increased counts of mast cells and excessive degranulation,¹¹ neurogenic inflammation with elevated cytokine expression,¹² disrupted collagen metabolism,¹³ and microcirculation abnormalities.¹⁴ There has been limited research exploring the dermatologic manifestations of fibromyalgia. One retrospective study that included 845 patients with fibromyalgia reported increased occurrence of “neurodermatoses,” including pruritus, neurotic excoriations, prurigo nodules, and lichen simplex chronicus (LSC), among other cutaneous comorbidities.¹⁵ Another small study demonstrated an increased incidence of xerosis and neurotic excoriations in females with fibromyalgia.¹⁶ A paucity of large epidemiologic studies demonstrating the fibromyalgia-pruritus connection may lead to misdiagnosis, misinterpretation, and undertreatment of these patients.

Up to 49% of fibromyalgia patients experience small-fiber neuropathy.¹⁷ Electrophysiologic measurements, quantitative sensory testing, pain-related evoked potentials, and skin biopsies showed that patients with fibromyalgia have compromised small-fiber function, impaired pathways carrying fiber pain signals, and reduced skin innervation and regenerating fibers.^18,19 Accordingly, pruritus that has been reported in fibromyalgia is believed to be of neuropathic origin.¹⁵ Overall, it is suspected that the same mechanism that causes hypersensitivity and pain in fibromyalgia patients also predisposes them to pruritus. Similar systemic treatments (eg, analgesics, antidepressants, anticonvulsants) prescribed for both conditions support this theory.^20-25

Our large cross-sectional study sought to establish the association between fibromyalgia and pruritus as well as related pruritic conditions.

Methods

Study Design and Setting—We conducted a cross-­sectional retrospective study using data-mining techniques to access information from the Clalit Health Services (CHS) database. Clalit Health Services is the largest health maintenance organization in Israel. It encompasses an extensive database with continuous real-time input from medical, administrative, and pharmaceutical computerized operating systems, which helps facilitate data collection for epidemiologic studies. A chronic disease register is gathered from these data sources and continuously updated and validated through logistic checks. The current study was approved by the institutional review board of the CHS (approval #0212-17-com2). Informed consent was not required because the data were de-identified and this was a noninterventional observational study.

Study Population and Covariates—Medical records of CHS enrollees were screened for the diagnosis of fibromyalgia, and data on prevalent cases of fibromyalgia were retrieved. The diagnosis of fibromyalgia was based on the documentation of a fibromyalgia-specific diagnostic code registered by a board-certified rheumatologist. A control group of individuals without fibromyalgia was selected through 1:2 matching based on age, sex, and primary care clinic. The control group was randomly selected from the list of CHS members frequency-matched to cases, excluding case patients with fibromyalgia. Age matching was grounded on the exact year of birth (1-year strata).

Other covariates in the analysis included pruritus-related skin disorders, including prurigo nodularis, neurotic excoriations, and LSC. There were 3 socioeconomic status categories according to patients' poverty index: low, intermediate, and high.²⁶

Statistical Analysis—The distribution of sociodemographic and clinical features was compared between patients with fibromyalgia and controls using the χ² test for sex and socioeconomic status and the t test for age. Conditional logistic regression then was used to calculate adjusted odds ratio (OR) and 95% CI to compare patients with fibromyalgia and controls with respect to the presence of pruritic comorbidities. All statistical analyses were performed using SPSS software (version 26). P<.05 was considered statistically significant in all tests.

Results

Our study population comprised 4971 patients with fibromyalgia and 9896 age- and sex-matched controls. Proportional to the reported female predominance among patients with fibromyalgia,²⁷ 4479 (90.1%) patients with fibromyalgia were females and a similar proportion was documented among controls (P=.99). There was a slightly higher proportion of unmarried patients among those with fibromyalgia compared with controls (41.9% vs 39.4%; P=.004). Socioeconomic status was matched between patients and controls (P=.99). Descriptive characteristics of the study population are presented in Table 1.

We assessed the presence of pruritus as well as 3 other pruritus-related skin disorders—prurigo nodularis, neurotic excoriations, and LSC—among patients with fibromyalgia and controls. Logistic regression was used to evaluate the independent association between fibromyalgia and pruritus. Table 2 presents the results of multivariate logistic regression models and summarizes the adjusted ORs for pruritic conditions in patients with fibromyalgia and different demographic features across the entire study sample. Fibromyalgia demonstrated strong independent associations with pruritus (OR, 1.8; 95% CI, 1.8-2.4; P<.001), prurigo nodularis (OR, 2.9; 95% CI, 1.1-8.4; P=.038), and LSC (OR, 1.5; 95% CI, 1.1-2.1; P=.01); the association with neurotic excoriations was not significant. Female sex significantly increased the risk for pruritus (OR 1.3; 95% CI, 1.0-1.6; P=.039), while age slightly increased the odds for pruritus (OR, 1.0; 95% CI, 1.0-1.04; P<.001), neurotic excoriations (OR, 1.0; 95% CI, 1.0-1.1; P=.046), and LSC (OR, 1.0; 95% CI, 1.01-1.04; P=.006). Finally, socioeconomic status was inversely correlated with pruritus (OR, 1.1; 95% CI, 1.1-1.5; P=.002).

Comment

A wide range of skin manifestations have been associated with fibromyalgia, but the exact mechanisms remain unclear. Nevertheless, it is conceivable that autonomic nervous system dysfunction,^28-31 amplified cutaneous opioid receptor activity,³² and an elevated presence of cutaneous mast cells with excessive degranulation may partially explain the frequent occurrence of pruritus and related skin disorders such as neurotic excoriations, prurigo nodularis, and LSC in individuals with fibromyalgia.^15,16 In line with these findings, our study—which was based on data from the largest health maintenance organization in Israel—demonstrated an increased prevalence of pruritus and related pruritic disorders among individuals diagnosed with fibromyalgia.

This cross-sectional study links pruritus with fibromyalgia. Few preliminary epidemiologic studies have shown an increased occurrence of cutaneous manifestations in patients with fibromyalgia. One chart review that looked at skin findings in patients with fibromyalgia revealed 32 distinct cutaneous manifestations, and pruritus was the major concern in 3.3% of 845 patients.¹⁵

A focused cross-sectional study involving only women (66 with fibromyalgia and 79 healthy controls) discovered 14 skin conditions that were more common in those with fibromyalgia. Notably, xerosis and neurotic excoriations were more prevalent compared to the control group.¹⁶

The brain and the skin—both derivatives of the embryonic ectoderm^33,34—are linked by pruritus. Although itch has its dedicated neurons, there is a wide-ranging overlap of brain-activated areas between pain and itch,⁶ and the neural anatomy of pain and itch are closely related in both the peripheral and central nervous systems^35-37; for example, diseases of the central nervous system are accompanied by pruritus in as many as 15% of cases, while postherpetic neuralgia can result in chronic pain, itching, or a combination of both.^38,39 Other instances include notalgia paresthetica and brachioradial pruritus.³⁸ Additionally, there is a noteworthy psychologic impact associated with both itch and pain,^40,41 with both psychosomatic and psychologic factors implicated in chronic pruritus and in fibromyalgia.⁴² Lastly, the hypothalamic-pituitary-adrenal axis and the sympathetic nervous system are altered in both fibromyalgia and pruritus.^43-45

Tey et al⁴⁵ characterized the itch experienced in fibromyalgia as functional, which is described as pruritus associated with a somatoform disorder. In our study, we found a higher prevalence of pruritus among patients with fibromyalgia, and this association remained significant (P<.05) even when excluding other pruritic skin conditions and systemic diseases that can trigger itching. In addition, our logistic regression analyses revealed independent associations between fibromyalgia and pruritus, prurigo nodularis, and LSC.

According to Twycross et al,⁴⁶ there are 4 clinical categories of itch, which may coexist⁷: pruritoceptive (originating in the skin), neuropathic (originating in pathology located along the afferent pathway), neurogenic (central origin but lacks a neural pathology), and psychogenic.⁴⁷ Skin biopsy findings in patients with fibromyalgia include increased mast cell counts¹¹ and degranulation,⁴⁸ increased expression of δ and κ opioid receptors,³² vasoconstriction within tender points,⁴⁹ and elevated IL-1β, IL-6, or tumor necrosis factor α by reverse transcriptase-polymerase chain reaction.¹² A case recently was presented by Görg et al⁵⁰ involving a female patient with fibromyalgia who had been experiencing chronic pruritus, which the authors attributed to small-fiber neuropathy based on evidence from a skin biopsy indicating a reduced number of intraepidermal nerves and the fact that the itching originated around tender points. Altogether, the observed alterations may work together to make patients with fibromyalgia more susceptible to various skin-related comorbidities in general, especially those related to pruritus. Eventually, it might be the case that several itch categories and related pathomechanisms are involved in the pruritus phenotype of patients with fibromyalgia.

Age-related alterations in nerve fibers, lower immune function, xerosis, polypharmacy, and increased frequency of systemic diseases with age are just a few of the factors that may predispose older individuals to pruritus.^51,52 Indeed, our logistic regression model showed that age was significantly and independently associated with ­pruritus (P<.001), neurotic excoriations (P=.046), and LSC (P=.006). Female sex also was significantly linked with pruritus (P=.039). Intriguingly, high socioeconomic status was significantly associated with the diagnosis of ­pruritus (P=.002), possibly due to easier access to medical care.

There is a considerable overlap between the therapeutic approaches used in pruritus, pruritus-related skin disorders, and fibromyalgia. Antidepressants, anxiolytics, analgesics, and antiepileptics have been used to address both conditions.⁴⁵ The association between these conditions advocates for a multidisciplinary approach in patients with fibromyalgia and potentially supports the rationale for unified therapeutics for both conditions.

Conclusion

Our findings indicate an association between fibromyalgia and pruritus as well as associated pruritic skin disorders. Given the convoluted and largely undiscovered mechanisms underlying fibromyalgia, managing patients with this condition may present substantial challenges.⁵³ The data presented here support the implementation of a multidisciplinary treatment approach for patients with fibromyalgia. This approach should focus on managing fibromyalgia pain as well as addressing its concurrent skin-related conditions. It is advisable to consider treatments such as antiepileptics (eg, pregabalin, gabapentin) that specifically target neuropathic disorders in affected patients. These treatments may hold promise for alleviating fibromyalgia-related pain⁵⁴ and mitigating its related cutaneous comorbidities, especially pruritus.

Pruritus, which is defined as an itching sensation that elicits a desire to scratch, is the most common cutaneous condition. Pruritus is considered chronic when it lasts for more than 6 weeks.¹ Etiologies implicated in chronic pruritus include but are not limited to primary skin diseases such as atopic dermatitis, systemic causes, neuropathic disorders, and psychogenic reasons.² In approximately 8% to 35% of patients, the cause of pruritus remains elusive despite intensive investigation.³ The mechanisms of itch are multifaceted and include complex neural pathways.⁴ Although itch and pain share many similarities, they have distinct pathways based on their spinal connections.⁵ Nevertheless, both conditions show a wide overlap of receptors on peripheral nerve endings and activated brain parts.^6,7 Fibromyalgia, the third most common musculoskeletal condition, affects 2% to 3% of the population worldwide and is at least 7 times more common in females.^8,9 Its pathogenesis is not entirely clear but is thought to involve neurogenic inflammation, aberrations in peripheral nerves, and central pain mechanisms. Fibromyalgia is characterized by a plethora of symptoms including chronic widespread pain, autonomic disturbances, persistent fatigue and sleep disturbances, and hyperalgesia, as well as somatic and psychiatric symptoms.¹⁰

Fibromyalgia is accompanied by altered skin features including increased counts of mast cells and excessive degranulation,¹¹ neurogenic inflammation with elevated cytokine expression,¹² disrupted collagen metabolism,¹³ and microcirculation abnormalities.¹⁴ There has been limited research exploring the dermatologic manifestations of fibromyalgia. One retrospective study that included 845 patients with fibromyalgia reported increased occurrence of “neurodermatoses,” including pruritus, neurotic excoriations, prurigo nodules, and lichen simplex chronicus (LSC), among other cutaneous comorbidities.¹⁵ Another small study demonstrated an increased incidence of xerosis and neurotic excoriations in females with fibromyalgia.¹⁶ A paucity of large epidemiologic studies demonstrating the fibromyalgia-pruritus connection may lead to misdiagnosis, misinterpretation, and undertreatment of these patients.

Up to 49% of fibromyalgia patients experience small-fiber neuropathy.¹⁷ Electrophysiologic measurements, quantitative sensory testing, pain-related evoked potentials, and skin biopsies showed that patients with fibromyalgia have compromised small-fiber function, impaired pathways carrying fiber pain signals, and reduced skin innervation and regenerating fibers.^18,19 Accordingly, pruritus that has been reported in fibromyalgia is believed to be of neuropathic origin.¹⁵ Overall, it is suspected that the same mechanism that causes hypersensitivity and pain in fibromyalgia patients also predisposes them to pruritus. Similar systemic treatments (eg, analgesics, antidepressants, anticonvulsants) prescribed for both conditions support this theory.^20-25

Our large cross-sectional study sought to establish the association between fibromyalgia and pruritus as well as related pruritic conditions.

Methods

Study Design and Setting—We conducted a cross-­sectional retrospective study using data-mining techniques to access information from the Clalit Health Services (CHS) database. Clalit Health Services is the largest health maintenance organization in Israel. It encompasses an extensive database with continuous real-time input from medical, administrative, and pharmaceutical computerized operating systems, which helps facilitate data collection for epidemiologic studies. A chronic disease register is gathered from these data sources and continuously updated and validated through logistic checks. The current study was approved by the institutional review board of the CHS (approval #0212-17-com2). Informed consent was not required because the data were de-identified and this was a noninterventional observational study.

Study Population and Covariates—Medical records of CHS enrollees were screened for the diagnosis of fibromyalgia, and data on prevalent cases of fibromyalgia were retrieved. The diagnosis of fibromyalgia was based on the documentation of a fibromyalgia-specific diagnostic code registered by a board-certified rheumatologist. A control group of individuals without fibromyalgia was selected through 1:2 matching based on age, sex, and primary care clinic. The control group was randomly selected from the list of CHS members frequency-matched to cases, excluding case patients with fibromyalgia. Age matching was grounded on the exact year of birth (1-year strata).

Other covariates in the analysis included pruritus-related skin disorders, including prurigo nodularis, neurotic excoriations, and LSC. There were 3 socioeconomic status categories according to patients' poverty index: low, intermediate, and high.²⁶

Statistical Analysis—The distribution of sociodemographic and clinical features was compared between patients with fibromyalgia and controls using the χ² test for sex and socioeconomic status and the t test for age. Conditional logistic regression then was used to calculate adjusted odds ratio (OR) and 95% CI to compare patients with fibromyalgia and controls with respect to the presence of pruritic comorbidities. All statistical analyses were performed using SPSS software (version 26). P<.05 was considered statistically significant in all tests.

Results

Our study population comprised 4971 patients with fibromyalgia and 9896 age- and sex-matched controls. Proportional to the reported female predominance among patients with fibromyalgia,²⁷ 4479 (90.1%) patients with fibromyalgia were females and a similar proportion was documented among controls (P=.99). There was a slightly higher proportion of unmarried patients among those with fibromyalgia compared with controls (41.9% vs 39.4%; P=.004). Socioeconomic status was matched between patients and controls (P=.99). Descriptive characteristics of the study population are presented in Table 1.

We assessed the presence of pruritus as well as 3 other pruritus-related skin disorders—prurigo nodularis, neurotic excoriations, and LSC—among patients with fibromyalgia and controls. Logistic regression was used to evaluate the independent association between fibromyalgia and pruritus. Table 2 presents the results of multivariate logistic regression models and summarizes the adjusted ORs for pruritic conditions in patients with fibromyalgia and different demographic features across the entire study sample. Fibromyalgia demonstrated strong independent associations with pruritus (OR, 1.8; 95% CI, 1.8-2.4; P<.001), prurigo nodularis (OR, 2.9; 95% CI, 1.1-8.4; P=.038), and LSC (OR, 1.5; 95% CI, 1.1-2.1; P=.01); the association with neurotic excoriations was not significant. Female sex significantly increased the risk for pruritus (OR 1.3; 95% CI, 1.0-1.6; P=.039), while age slightly increased the odds for pruritus (OR, 1.0; 95% CI, 1.0-1.04; P<.001), neurotic excoriations (OR, 1.0; 95% CI, 1.0-1.1; P=.046), and LSC (OR, 1.0; 95% CI, 1.01-1.04; P=.006). Finally, socioeconomic status was inversely correlated with pruritus (OR, 1.1; 95% CI, 1.1-1.5; P=.002).

Comment

A wide range of skin manifestations have been associated with fibromyalgia, but the exact mechanisms remain unclear. Nevertheless, it is conceivable that autonomic nervous system dysfunction,^28-31 amplified cutaneous opioid receptor activity,³² and an elevated presence of cutaneous mast cells with excessive degranulation may partially explain the frequent occurrence of pruritus and related skin disorders such as neurotic excoriations, prurigo nodularis, and LSC in individuals with fibromyalgia.^15,16 In line with these findings, our study—which was based on data from the largest health maintenance organization in Israel—demonstrated an increased prevalence of pruritus and related pruritic disorders among individuals diagnosed with fibromyalgia.

This cross-sectional study links pruritus with fibromyalgia. Few preliminary epidemiologic studies have shown an increased occurrence of cutaneous manifestations in patients with fibromyalgia. One chart review that looked at skin findings in patients with fibromyalgia revealed 32 distinct cutaneous manifestations, and pruritus was the major concern in 3.3% of 845 patients.¹⁵

A focused cross-sectional study involving only women (66 with fibromyalgia and 79 healthy controls) discovered 14 skin conditions that were more common in those with fibromyalgia. Notably, xerosis and neurotic excoriations were more prevalent compared to the control group.¹⁶

The brain and the skin—both derivatives of the embryonic ectoderm^33,34—are linked by pruritus. Although itch has its dedicated neurons, there is a wide-ranging overlap of brain-activated areas between pain and itch,⁶ and the neural anatomy of pain and itch are closely related in both the peripheral and central nervous systems^35-37; for example, diseases of the central nervous system are accompanied by pruritus in as many as 15% of cases, while postherpetic neuralgia can result in chronic pain, itching, or a combination of both.^38,39 Other instances include notalgia paresthetica and brachioradial pruritus.³⁸ Additionally, there is a noteworthy psychologic impact associated with both itch and pain,^40,41 with both psychosomatic and psychologic factors implicated in chronic pruritus and in fibromyalgia.⁴² Lastly, the hypothalamic-pituitary-adrenal axis and the sympathetic nervous system are altered in both fibromyalgia and pruritus.^43-45

Tey et al⁴⁵ characterized the itch experienced in fibromyalgia as functional, which is described as pruritus associated with a somatoform disorder. In our study, we found a higher prevalence of pruritus among patients with fibromyalgia, and this association remained significant (P<.05) even when excluding other pruritic skin conditions and systemic diseases that can trigger itching. In addition, our logistic regression analyses revealed independent associations between fibromyalgia and pruritus, prurigo nodularis, and LSC.

According to Twycross et al,⁴⁶ there are 4 clinical categories of itch, which may coexist⁷: pruritoceptive (originating in the skin), neuropathic (originating in pathology located along the afferent pathway), neurogenic (central origin but lacks a neural pathology), and psychogenic.⁴⁷ Skin biopsy findings in patients with fibromyalgia include increased mast cell counts¹¹ and degranulation,⁴⁸ increased expression of δ and κ opioid receptors,³² vasoconstriction within tender points,⁴⁹ and elevated IL-1β, IL-6, or tumor necrosis factor α by reverse transcriptase-polymerase chain reaction.¹² A case recently was presented by Görg et al⁵⁰ involving a female patient with fibromyalgia who had been experiencing chronic pruritus, which the authors attributed to small-fiber neuropathy based on evidence from a skin biopsy indicating a reduced number of intraepidermal nerves and the fact that the itching originated around tender points. Altogether, the observed alterations may work together to make patients with fibromyalgia more susceptible to various skin-related comorbidities in general, especially those related to pruritus. Eventually, it might be the case that several itch categories and related pathomechanisms are involved in the pruritus phenotype of patients with fibromyalgia.

Age-related alterations in nerve fibers, lower immune function, xerosis, polypharmacy, and increased frequency of systemic diseases with age are just a few of the factors that may predispose older individuals to pruritus.^51,52 Indeed, our logistic regression model showed that age was significantly and independently associated with ­pruritus (P<.001), neurotic excoriations (P=.046), and LSC (P=.006). Female sex also was significantly linked with pruritus (P=.039). Intriguingly, high socioeconomic status was significantly associated with the diagnosis of ­pruritus (P=.002), possibly due to easier access to medical care.

There is a considerable overlap between the therapeutic approaches used in pruritus, pruritus-related skin disorders, and fibromyalgia. Antidepressants, anxiolytics, analgesics, and antiepileptics have been used to address both conditions.⁴⁵ The association between these conditions advocates for a multidisciplinary approach in patients with fibromyalgia and potentially supports the rationale for unified therapeutics for both conditions.

Conclusion

Our findings indicate an association between fibromyalgia and pruritus as well as associated pruritic skin disorders. Given the convoluted and largely undiscovered mechanisms underlying fibromyalgia, managing patients with this condition may present substantial challenges.⁵³ The data presented here support the implementation of a multidisciplinary treatment approach for patients with fibromyalgia. This approach should focus on managing fibromyalgia pain as well as addressing its concurrent skin-related conditions. It is advisable to consider treatments such as antiepileptics (eg, pregabalin, gabapentin) that specifically target neuropathic disorders in affected patients. These treatments may hold promise for alleviating fibromyalgia-related pain⁵⁴ and mitigating its related cutaneous comorbidities, especially pruritus.

Pruritus, which is defined as an itching sensation that elicits a desire to scratch, is the most common cutaneous condition. Pruritus is considered chronic when it lasts for more than 6 weeks.¹ Etiologies implicated in chronic pruritus include but are not limited to primary skin diseases such as atopic dermatitis, systemic causes, neuropathic disorders, and psychogenic reasons.² In approximately 8% to 35% of patients, the cause of pruritus remains elusive despite intensive investigation.³ The mechanisms of itch are multifaceted and include complex neural pathways.⁴ Although itch and pain share many similarities, they have distinct pathways based on their spinal connections.⁵ Nevertheless, both conditions show a wide overlap of receptors on peripheral nerve endings and activated brain parts.^6,7 Fibromyalgia, the third most common musculoskeletal condition, affects 2% to 3% of the population worldwide and is at least 7 times more common in females.^8,9 Its pathogenesis is not entirely clear but is thought to involve neurogenic inflammation, aberrations in peripheral nerves, and central pain mechanisms. Fibromyalgia is characterized by a plethora of symptoms including chronic widespread pain, autonomic disturbances, persistent fatigue and sleep disturbances, and hyperalgesia, as well as somatic and psychiatric symptoms.¹⁰

Fibromyalgia is accompanied by altered skin features including increased counts of mast cells and excessive degranulation,¹¹ neurogenic inflammation with elevated cytokine expression,¹² disrupted collagen metabolism,¹³ and microcirculation abnormalities.¹⁴ There has been limited research exploring the dermatologic manifestations of fibromyalgia. One retrospective study that included 845 patients with fibromyalgia reported increased occurrence of “neurodermatoses,” including pruritus, neurotic excoriations, prurigo nodules, and lichen simplex chronicus (LSC), among other cutaneous comorbidities.¹⁵ Another small study demonstrated an increased incidence of xerosis and neurotic excoriations in females with fibromyalgia.¹⁶ A paucity of large epidemiologic studies demonstrating the fibromyalgia-pruritus connection may lead to misdiagnosis, misinterpretation, and undertreatment of these patients.

Up to 49% of fibromyalgia patients experience small-fiber neuropathy.¹⁷ Electrophysiologic measurements, quantitative sensory testing, pain-related evoked potentials, and skin biopsies showed that patients with fibromyalgia have compromised small-fiber function, impaired pathways carrying fiber pain signals, and reduced skin innervation and regenerating fibers.^18,19 Accordingly, pruritus that has been reported in fibromyalgia is believed to be of neuropathic origin.¹⁵ Overall, it is suspected that the same mechanism that causes hypersensitivity and pain in fibromyalgia patients also predisposes them to pruritus. Similar systemic treatments (eg, analgesics, antidepressants, anticonvulsants) prescribed for both conditions support this theory.^20-25

Our large cross-sectional study sought to establish the association between fibromyalgia and pruritus as well as related pruritic conditions.

Methods

Study Design and Setting—We conducted a cross-­sectional retrospective study using data-mining techniques to access information from the Clalit Health Services (CHS) database. Clalit Health Services is the largest health maintenance organization in Israel. It encompasses an extensive database with continuous real-time input from medical, administrative, and pharmaceutical computerized operating systems, which helps facilitate data collection for epidemiologic studies. A chronic disease register is gathered from these data sources and continuously updated and validated through logistic checks. The current study was approved by the institutional review board of the CHS (approval #0212-17-com2). Informed consent was not required because the data were de-identified and this was a noninterventional observational study.

Study Population and Covariates—Medical records of CHS enrollees were screened for the diagnosis of fibromyalgia, and data on prevalent cases of fibromyalgia were retrieved. The diagnosis of fibromyalgia was based on the documentation of a fibromyalgia-specific diagnostic code registered by a board-certified rheumatologist. A control group of individuals without fibromyalgia was selected through 1:2 matching based on age, sex, and primary care clinic. The control group was randomly selected from the list of CHS members frequency-matched to cases, excluding case patients with fibromyalgia. Age matching was grounded on the exact year of birth (1-year strata).

Other covariates in the analysis included pruritus-related skin disorders, including prurigo nodularis, neurotic excoriations, and LSC. There were 3 socioeconomic status categories according to patients' poverty index: low, intermediate, and high.²⁶

Statistical Analysis—The distribution of sociodemographic and clinical features was compared between patients with fibromyalgia and controls using the χ² test for sex and socioeconomic status and the t test for age. Conditional logistic regression then was used to calculate adjusted odds ratio (OR) and 95% CI to compare patients with fibromyalgia and controls with respect to the presence of pruritic comorbidities. All statistical analyses were performed using SPSS software (version 26). P<.05 was considered statistically significant in all tests.

Results

Our study population comprised 4971 patients with fibromyalgia and 9896 age- and sex-matched controls. Proportional to the reported female predominance among patients with fibromyalgia,²⁷ 4479 (90.1%) patients with fibromyalgia were females and a similar proportion was documented among controls (P=.99). There was a slightly higher proportion of unmarried patients among those with fibromyalgia compared with controls (41.9% vs 39.4%; P=.004). Socioeconomic status was matched between patients and controls (P=.99). Descriptive characteristics of the study population are presented in Table 1.

We assessed the presence of pruritus as well as 3 other pruritus-related skin disorders—prurigo nodularis, neurotic excoriations, and LSC—among patients with fibromyalgia and controls. Logistic regression was used to evaluate the independent association between fibromyalgia and pruritus. Table 2 presents the results of multivariate logistic regression models and summarizes the adjusted ORs for pruritic conditions in patients with fibromyalgia and different demographic features across the entire study sample. Fibromyalgia demonstrated strong independent associations with pruritus (OR, 1.8; 95% CI, 1.8-2.4; P<.001), prurigo nodularis (OR, 2.9; 95% CI, 1.1-8.4; P=.038), and LSC (OR, 1.5; 95% CI, 1.1-2.1; P=.01); the association with neurotic excoriations was not significant. Female sex significantly increased the risk for pruritus (OR 1.3; 95% CI, 1.0-1.6; P=.039), while age slightly increased the odds for pruritus (OR, 1.0; 95% CI, 1.0-1.04; P<.001), neurotic excoriations (OR, 1.0; 95% CI, 1.0-1.1; P=.046), and LSC (OR, 1.0; 95% CI, 1.01-1.04; P=.006). Finally, socioeconomic status was inversely correlated with pruritus (OR, 1.1; 95% CI, 1.1-1.5; P=.002).

Comment

A wide range of skin manifestations have been associated with fibromyalgia, but the exact mechanisms remain unclear. Nevertheless, it is conceivable that autonomic nervous system dysfunction,^28-31 amplified cutaneous opioid receptor activity,³² and an elevated presence of cutaneous mast cells with excessive degranulation may partially explain the frequent occurrence of pruritus and related skin disorders such as neurotic excoriations, prurigo nodularis, and LSC in individuals with fibromyalgia.^15,16 In line with these findings, our study—which was based on data from the largest health maintenance organization in Israel—demonstrated an increased prevalence of pruritus and related pruritic disorders among individuals diagnosed with fibromyalgia.

This cross-sectional study links pruritus with fibromyalgia. Few preliminary epidemiologic studies have shown an increased occurrence of cutaneous manifestations in patients with fibromyalgia. One chart review that looked at skin findings in patients with fibromyalgia revealed 32 distinct cutaneous manifestations, and pruritus was the major concern in 3.3% of 845 patients.¹⁵

A focused cross-sectional study involving only women (66 with fibromyalgia and 79 healthy controls) discovered 14 skin conditions that were more common in those with fibromyalgia. Notably, xerosis and neurotic excoriations were more prevalent compared to the control group.¹⁶

The brain and the skin—both derivatives of the embryonic ectoderm^33,34—are linked by pruritus. Although itch has its dedicated neurons, there is a wide-ranging overlap of brain-activated areas between pain and itch,⁶ and the neural anatomy of pain and itch are closely related in both the peripheral and central nervous systems^35-37; for example, diseases of the central nervous system are accompanied by pruritus in as many as 15% of cases, while postherpetic neuralgia can result in chronic pain, itching, or a combination of both.^38,39 Other instances include notalgia paresthetica and brachioradial pruritus.³⁸ Additionally, there is a noteworthy psychologic impact associated with both itch and pain,^40,41 with both psychosomatic and psychologic factors implicated in chronic pruritus and in fibromyalgia.⁴² Lastly, the hypothalamic-pituitary-adrenal axis and the sympathetic nervous system are altered in both fibromyalgia and pruritus.^43-45

Tey et al⁴⁵ characterized the itch experienced in fibromyalgia as functional, which is described as pruritus associated with a somatoform disorder. In our study, we found a higher prevalence of pruritus among patients with fibromyalgia, and this association remained significant (P<.05) even when excluding other pruritic skin conditions and systemic diseases that can trigger itching. In addition, our logistic regression analyses revealed independent associations between fibromyalgia and pruritus, prurigo nodularis, and LSC.

According to Twycross et al,⁴⁶ there are 4 clinical categories of itch, which may coexist⁷: pruritoceptive (originating in the skin), neuropathic (originating in pathology located along the afferent pathway), neurogenic (central origin but lacks a neural pathology), and psychogenic.⁴⁷ Skin biopsy findings in patients with fibromyalgia include increased mast cell counts¹¹ and degranulation,⁴⁸ increased expression of δ and κ opioid receptors,³² vasoconstriction within tender points,⁴⁹ and elevated IL-1β, IL-6, or tumor necrosis factor α by reverse transcriptase-polymerase chain reaction.¹² A case recently was presented by Görg et al⁵⁰ involving a female patient with fibromyalgia who had been experiencing chronic pruritus, which the authors attributed to small-fiber neuropathy based on evidence from a skin biopsy indicating a reduced number of intraepidermal nerves and the fact that the itching originated around tender points. Altogether, the observed alterations may work together to make patients with fibromyalgia more susceptible to various skin-related comorbidities in general, especially those related to pruritus. Eventually, it might be the case that several itch categories and related pathomechanisms are involved in the pruritus phenotype of patients with fibromyalgia.

Age-related alterations in nerve fibers, lower immune function, xerosis, polypharmacy, and increased frequency of systemic diseases with age are just a few of the factors that may predispose older individuals to pruritus.^51,52 Indeed, our logistic regression model showed that age was significantly and independently associated with ­pruritus (P<.001), neurotic excoriations (P=.046), and LSC (P=.006). Female sex also was significantly linked with pruritus (P=.039). Intriguingly, high socioeconomic status was significantly associated with the diagnosis of ­pruritus (P=.002), possibly due to easier access to medical care.

There is a considerable overlap between the therapeutic approaches used in pruritus, pruritus-related skin disorders, and fibromyalgia. Antidepressants, anxiolytics, analgesics, and antiepileptics have been used to address both conditions.⁴⁵ The association between these conditions advocates for a multidisciplinary approach in patients with fibromyalgia and potentially supports the rationale for unified therapeutics for both conditions.

Conclusion

Our findings indicate an association between fibromyalgia and pruritus as well as associated pruritic skin disorders. Given the convoluted and largely undiscovered mechanisms underlying fibromyalgia, managing patients with this condition may present substantial challenges.⁵³ The data presented here support the implementation of a multidisciplinary treatment approach for patients with fibromyalgia. This approach should focus on managing fibromyalgia pain as well as addressing its concurrent skin-related conditions. It is advisable to consider treatments such as antiepileptics (eg, pregabalin, gabapentin) that specifically target neuropathic disorders in affected patients. These treatments may hold promise for alleviating fibromyalgia-related pain⁵⁴ and mitigating its related cutaneous comorbidities, especially pruritus.

TOPLINE:

The estimated number of US adults who consumed at least one of the six most frequently reported hepatotoxic botanicals in the last 30 days is similar to the number of patients prescribed potentially hepatotoxic drugs, including nonsteroidal anti-inflammatory drugs (NSAIDs) and simvastatin.

METHODOLOGY:

• Herbal and dietary supplements (HDS) are an increasingly common source of drug hepatotoxicity cases, but their prevalence and the reasons for their use among the general population are uncertain.
• This survey study evaluated nationally representative data from 9685 adults (mean age, 47.5 years; 51.8% women) enrolled in the National Health and Nutrition Examination Survey (NHANES) between January 2017 and March 2020.
• Participants reported their use of HDS and prescription drugs through personal interviews for a 30-day period prior to the survey date.
• Researchers compared the clinical features and baseline demographic characteristics of users of six potentially hepatotoxic botanicals (ie, turmeric, green tea, Garcinia cambogia, black cohosh, red yeast rice, and ashwagandha) with those of nonusers.
• The prevalence of use of these at-risk botanicals was compared with that of widely prescribed potentially hepatotoxic medications, including NSAIDs, simvastatin, and sertraline.

TAKEAWAY:

• In the cohort of 9685 participants, 4.7% of individuals reported consumption of at least one of the six potentially hepatotoxic botanicals in the past 30 days, with turmeric being the most common, followed by green tea.
• Extrapolating the survey data, researchers estimated that 15.6 million US adults use at least one of these six botanicals, which is comparable to the number of those prescribed potentially hepatotoxic drugs, including NSAIDs (14.8 million) and simvastatin (14.0 million). Sertraline use was lower (7.7 million).
• Most individuals used these botanicals without the recommendation of their healthcare provider.
• Those using botanicals were more likely to be older (adjusted odds ratio [aOR], 2.36; P = .04 for 40-59 years; aOR, 3.96; P = .001 for ≥ 60 years), to have some college education (aOR, 4.78; P < .001), and to have arthritis (aOR, 2.27; P < .001) than nonusers.
• The most common reasons for using any of these six potential hepatotoxic botanicals were to improve or maintain health or to prevent health problems or boost immunity.

IN PRACTICE:

“In light of the lack of regulatory oversight on the manufacturing and testing of botanical products, it is recommended that clinicians obtain a full medication and HDS use history when evaluating patients with unexplained symptoms or liver test abnormalities,” the authors wrote.

SOURCE:

The study, led by Alisa Likhitsup, MD, MPH, Division of Gastroenterology and Hepatology, University of Michigan, Ann Arbor, Michigan, was published online in JAMA Network Open. 

LIMITATIONS:

The survey response rate was low at 43.9% for adults aged ≥ 20 years. As NHANES is a cross-sectional study, the causal relationship between consumption of the six botanicals of interest and the development of liver injury could not be determined. The use of HDS products and medications was self-reported in NHANES and not independently verified using source documents. 

DISCLOSURES:

This study did not report any source of funding. Two authors declared receiving grants from pharmaceutical companies outside the submitted work.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.

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

TOPLINE:

The estimated number of US adults who consumed at least one of the six most frequently reported hepatotoxic botanicals in the last 30 days is similar to the number of patients prescribed potentially hepatotoxic drugs, including nonsteroidal anti-inflammatory drugs (NSAIDs) and simvastatin.

METHODOLOGY:

• Herbal and dietary supplements (HDS) are an increasingly common source of drug hepatotoxicity cases, but their prevalence and the reasons for their use among the general population are uncertain.
• This survey study evaluated nationally representative data from 9685 adults (mean age, 47.5 years; 51.8% women) enrolled in the National Health and Nutrition Examination Survey (NHANES) between January 2017 and March 2020.
• Participants reported their use of HDS and prescription drugs through personal interviews for a 30-day period prior to the survey date.
• Researchers compared the clinical features and baseline demographic characteristics of users of six potentially hepatotoxic botanicals (ie, turmeric, green tea, Garcinia cambogia, black cohosh, red yeast rice, and ashwagandha) with those of nonusers.
• The prevalence of use of these at-risk botanicals was compared with that of widely prescribed potentially hepatotoxic medications, including NSAIDs, simvastatin, and sertraline.

TAKEAWAY:

• In the cohort of 9685 participants, 4.7% of individuals reported consumption of at least one of the six potentially hepatotoxic botanicals in the past 30 days, with turmeric being the most common, followed by green tea.
• Extrapolating the survey data, researchers estimated that 15.6 million US adults use at least one of these six botanicals, which is comparable to the number of those prescribed potentially hepatotoxic drugs, including NSAIDs (14.8 million) and simvastatin (14.0 million). Sertraline use was lower (7.7 million).
• Most individuals used these botanicals without the recommendation of their healthcare provider.
• Those using botanicals were more likely to be older (adjusted odds ratio [aOR], 2.36; P = .04 for 40-59 years; aOR, 3.96; P = .001 for ≥ 60 years), to have some college education (aOR, 4.78; P < .001), and to have arthritis (aOR, 2.27; P < .001) than nonusers.
• The most common reasons for using any of these six potential hepatotoxic botanicals were to improve or maintain health or to prevent health problems or boost immunity.

IN PRACTICE:

“In light of the lack of regulatory oversight on the manufacturing and testing of botanical products, it is recommended that clinicians obtain a full medication and HDS use history when evaluating patients with unexplained symptoms or liver test abnormalities,” the authors wrote.

SOURCE:

The study, led by Alisa Likhitsup, MD, MPH, Division of Gastroenterology and Hepatology, University of Michigan, Ann Arbor, Michigan, was published online in JAMA Network Open. 

LIMITATIONS:

The survey response rate was low at 43.9% for adults aged ≥ 20 years. As NHANES is a cross-sectional study, the causal relationship between consumption of the six botanicals of interest and the development of liver injury could not be determined. The use of HDS products and medications was self-reported in NHANES and not independently verified using source documents. 

DISCLOSURES:

This study did not report any source of funding. Two authors declared receiving grants from pharmaceutical companies outside the submitted work.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.

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

TOPLINE:

The estimated number of US adults who consumed at least one of the six most frequently reported hepatotoxic botanicals in the last 30 days is similar to the number of patients prescribed potentially hepatotoxic drugs, including nonsteroidal anti-inflammatory drugs (NSAIDs) and simvastatin.

METHODOLOGY:

• Herbal and dietary supplements (HDS) are an increasingly common source of drug hepatotoxicity cases, but their prevalence and the reasons for their use among the general population are uncertain.
• This survey study evaluated nationally representative data from 9685 adults (mean age, 47.5 years; 51.8% women) enrolled in the National Health and Nutrition Examination Survey (NHANES) between January 2017 and March 2020.
• Participants reported their use of HDS and prescription drugs through personal interviews for a 30-day period prior to the survey date.
• Researchers compared the clinical features and baseline demographic characteristics of users of six potentially hepatotoxic botanicals (ie, turmeric, green tea, Garcinia cambogia, black cohosh, red yeast rice, and ashwagandha) with those of nonusers.
• The prevalence of use of these at-risk botanicals was compared with that of widely prescribed potentially hepatotoxic medications, including NSAIDs, simvastatin, and sertraline.

TAKEAWAY:

• In the cohort of 9685 participants, 4.7% of individuals reported consumption of at least one of the six potentially hepatotoxic botanicals in the past 30 days, with turmeric being the most common, followed by green tea.
• Extrapolating the survey data, researchers estimated that 15.6 million US adults use at least one of these six botanicals, which is comparable to the number of those prescribed potentially hepatotoxic drugs, including NSAIDs (14.8 million) and simvastatin (14.0 million). Sertraline use was lower (7.7 million).
• Most individuals used these botanicals without the recommendation of their healthcare provider.
• Those using botanicals were more likely to be older (adjusted odds ratio [aOR], 2.36; P = .04 for 40-59 years; aOR, 3.96; P = .001 for ≥ 60 years), to have some college education (aOR, 4.78; P < .001), and to have arthritis (aOR, 2.27; P < .001) than nonusers.
• The most common reasons for using any of these six potential hepatotoxic botanicals were to improve or maintain health or to prevent health problems or boost immunity.

IN PRACTICE:

“In light of the lack of regulatory oversight on the manufacturing and testing of botanical products, it is recommended that clinicians obtain a full medication and HDS use history when evaluating patients with unexplained symptoms or liver test abnormalities,” the authors wrote.

SOURCE:

The study, led by Alisa Likhitsup, MD, MPH, Division of Gastroenterology and Hepatology, University of Michigan, Ann Arbor, Michigan, was published online in JAMA Network Open. 

LIMITATIONS:

The survey response rate was low at 43.9% for adults aged ≥ 20 years. As NHANES is a cross-sectional study, the causal relationship between consumption of the six botanicals of interest and the development of liver injury could not be determined. The use of HDS products and medications was self-reported in NHANES and not independently verified using source documents. 

DISCLOSURES:

This study did not report any source of funding. Two authors declared receiving grants from pharmaceutical companies outside the submitted work.

This article was created using several editorial tools, including AI, as part of the process. Human editors reviewed this content before publication.

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

Is going sugar free really good advice for patients with cardiometabolic risk factors? 

That’s the question raised by new Cleveland Clinic research, which suggests that consuming erythritol, a sweetener widely found in sugar-free and keto food products, could spur a prothrombotic response. 

In the study, published in Arteriosclerosis, Thrombosis, and Vascular Biology, 10 healthy participants ate 30 grams of erythritol. Thirty minutes later, their blood showed enhanced platelet aggregation and increased markers of platelet responsiveness and activation. 

Specifically, the researchers saw enhanced stimulus-dependent release of serotonin (a marker of platelet dense granules) and CXCL4 (a platelet alpha-granule marker). 

“ With every single person, you see a prothrombotic effect with every single test that we did,” said study author Stanley Hazen, MD, PhD, chair of the Department of Cardiovascular & Metabolic Sciences at Cleveland Clinic in Ohio. By contrast, participants who ate 30 grams of glucose saw no such effect. 

The erythritol itself does not activate the platelets, Dr. Hazen said, rather it lowers the threshold for triggering a response. This could make someone more prone to clotting, raising heart attack and stroke risk over time.

Though the mechanism is unknown, Dr. Hazen has an idea. 

“There appears to be a receptor on platelets that is recognizing and sensing these sugar alcohols,” Dr. Hazen said, “much in the same way your taste bud for sweet is a receptor for recognizing a glucose or sugar molecule.” 

“We’re very interested in trying to figure out what the receptor is,” Dr. Hazen said, “because I think that then becomes a very interesting potential target for further investigation and study into how this is linked to causing heart disease.”
 

The Past and Future of Erythritol Research

In 2001, the Food and Drug Administration classified erythritol as a “generally recognized as safe” food additive. A sugar alcohol that occurs naturally in foods like melon and grapes, erythritol is also manufactured by fermenting sugars. It’s about 70% as sweet as table sugar. Humans also produce small amounts of erythritol naturally: Our blood cells make it from glucose via the pentose phosphate pathway. 

Previous research from Dr. Hazen’s group linked erythritol to a risk for major adverse cardiovascular events and clotting. 

“Based on their previous study, I think this was a really important study to do in healthy individuals,” said Martha Field, PhD, assistant professor in the Division of Nutritional Sciences at Cornell University, Ithaca, New York, who was not involved in the study.

The earlier paper analyzed blood samples from participants with unknown erythritol intake, including some taken before the sweetener, and it was as widespread as it is today. That made disentangling the effects of eating erythritol vs naturally producing it more difficult. 

By showing that eating erythritol raises markers associated with thrombosis, the new paper reinforces the importance of thinking about and developing a deeper understanding of what we put into our bodies. 

“This paper was conducted in healthy individuals — might this be particularly dangerous for individuals who are at increased risk of clotting?” asked Dr. Field. “There are lots of genetic polymorphisms that increase your risk for clotting disorders or your propensity to form thrombosis.” 

Field would like to see similar analyses of xylitol and sorbitol, other sugar alcohols found in sugar-free foods. And she called for more studies on erythritol that look at lower erythritol consumption over longer time periods. 

Registered dietitian nutritionist Valisa E. Hedrick, PhD, agreed: Much more work is needed in this area, particularly in higher-risk groups, such as those with prediabetes and diabetes, said Dr. Hedrick, an associate professor in the Department of Human Nutrition, Foods, and Exercise at Virginia Tech, Blacksburg, who was not involved in the study. 

“Because this study was conducted in healthy individuals, the impact of a small dose of glucose was negligible, as their body can effectively regulate blood glucose levels,” she said. “Because high blood glucose concentrations have also been shown to increase platelet reactivity, and consequently increase thrombosis potential, individuals who are not able to regulate their blood glucose levels, such as those with prediabetes and diabetes, could potentially see a similar effect on the body as erythritol when consuming large amounts of sugar.” 

At the same time, “individuals with diabetes or prediabetes may be more inclined to consume erythritol as an alternative to sugar,” Dr. Hedrick added. “It will be important to design studies that include these individuals to determine if erythritol has an additive adverse effect on cardiac event risk.”
 

Criticism and Impact 

Critics have suggested the 30-gram dose of erythritol ingested by study participants is unrealistic. Dr. Hazen said that it’s not. 

Erythritol is often recommended as a one-to-one sugar replacement. And you could top 30 grams with a few servings of erythritol-sweetened ice cream or soda, Dr. Hazen said. 

“The dose that we used, it’s on the high end, but it’s well within a physiologically relevant level,” he said. 

Still others say the results are only relevant for people with preexisting heart trouble. But Dr. Hazen said they matter for the masses. 

“I think there’s a significant health concern at a population level that this work is underscoring,” he said. 

After all, heart disease risk factors like obesity, hypertension, diabetes, and smoking are common and quickly add up. 

“If you look at middle-aged America, most people who experience a heart attack or stroke do not know that they have coronary artery disease, and the first recognition of it is that event,” Dr. Hazen said. 

For now, Dr. Hazen recommends eating real sugar in moderation. He hopes future research will reveal a nonnutritive sweetener that doesn’t activate platelets. 
 

The Bigger Picture

The new research adds yet another piece to the puzzle of whether nonnutritive sweeteners are better than sugar. 

“I think these results are concerning,” said JoAnn E. Manson, MD, chief of the Division of Preventive Medicine at Brigham and Women’s Hospital and a professor of medicine at Harvard Medical School, both in Boston, Massachusetts. They “ may help explain the surprising results in some observational studies that artificial sweeteners are linked to an increased risk of cardiovascular disease.”

Dr. Manson, who was not involved in the new study, has conducted other research linking artificial sweetener use with stroke risk.

In an upcoming randomized clinical study, her team is comparing head-to-head sugar-sweetened beverages, drinks sweetened with calorie-free substitutes, and water to determine which is best for a range of cardiometabolic outcomes. 

“We need more research on this question,” she said, “because these artificial sweeteners are commonly used, and many people are assuming that their health outcomes will be better with the artificial sweeteners than with sugar-sweetened products.”

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

Is going sugar free really good advice for patients with cardiometabolic risk factors? 

That’s the question raised by new Cleveland Clinic research, which suggests that consuming erythritol, a sweetener widely found in sugar-free and keto food products, could spur a prothrombotic response. 

In the study, published in Arteriosclerosis, Thrombosis, and Vascular Biology, 10 healthy participants ate 30 grams of erythritol. Thirty minutes later, their blood showed enhanced platelet aggregation and increased markers of platelet responsiveness and activation. 

Specifically, the researchers saw enhanced stimulus-dependent release of serotonin (a marker of platelet dense granules) and CXCL4 (a platelet alpha-granule marker). 

“ With every single person, you see a prothrombotic effect with every single test that we did,” said study author Stanley Hazen, MD, PhD, chair of the Department of Cardiovascular & Metabolic Sciences at Cleveland Clinic in Ohio. By contrast, participants who ate 30 grams of glucose saw no such effect. 

The erythritol itself does not activate the platelets, Dr. Hazen said, rather it lowers the threshold for triggering a response. This could make someone more prone to clotting, raising heart attack and stroke risk over time.

Though the mechanism is unknown, Dr. Hazen has an idea. 

“There appears to be a receptor on platelets that is recognizing and sensing these sugar alcohols,” Dr. Hazen said, “much in the same way your taste bud for sweet is a receptor for recognizing a glucose or sugar molecule.” 

“We’re very interested in trying to figure out what the receptor is,” Dr. Hazen said, “because I think that then becomes a very interesting potential target for further investigation and study into how this is linked to causing heart disease.”
 

The Past and Future of Erythritol Research

In 2001, the Food and Drug Administration classified erythritol as a “generally recognized as safe” food additive. A sugar alcohol that occurs naturally in foods like melon and grapes, erythritol is also manufactured by fermenting sugars. It’s about 70% as sweet as table sugar. Humans also produce small amounts of erythritol naturally: Our blood cells make it from glucose via the pentose phosphate pathway. 

Previous research from Dr. Hazen’s group linked erythritol to a risk for major adverse cardiovascular events and clotting. 

“Based on their previous study, I think this was a really important study to do in healthy individuals,” said Martha Field, PhD, assistant professor in the Division of Nutritional Sciences at Cornell University, Ithaca, New York, who was not involved in the study.

The earlier paper analyzed blood samples from participants with unknown erythritol intake, including some taken before the sweetener, and it was as widespread as it is today. That made disentangling the effects of eating erythritol vs naturally producing it more difficult. 

By showing that eating erythritol raises markers associated with thrombosis, the new paper reinforces the importance of thinking about and developing a deeper understanding of what we put into our bodies. 

“This paper was conducted in healthy individuals — might this be particularly dangerous for individuals who are at increased risk of clotting?” asked Dr. Field. “There are lots of genetic polymorphisms that increase your risk for clotting disorders or your propensity to form thrombosis.” 

Field would like to see similar analyses of xylitol and sorbitol, other sugar alcohols found in sugar-free foods. And she called for more studies on erythritol that look at lower erythritol consumption over longer time periods. 

Registered dietitian nutritionist Valisa E. Hedrick, PhD, agreed: Much more work is needed in this area, particularly in higher-risk groups, such as those with prediabetes and diabetes, said Dr. Hedrick, an associate professor in the Department of Human Nutrition, Foods, and Exercise at Virginia Tech, Blacksburg, who was not involved in the study. 

“Because this study was conducted in healthy individuals, the impact of a small dose of glucose was negligible, as their body can effectively regulate blood glucose levels,” she said. “Because high blood glucose concentrations have also been shown to increase platelet reactivity, and consequently increase thrombosis potential, individuals who are not able to regulate their blood glucose levels, such as those with prediabetes and diabetes, could potentially see a similar effect on the body as erythritol when consuming large amounts of sugar.” 

At the same time, “individuals with diabetes or prediabetes may be more inclined to consume erythritol as an alternative to sugar,” Dr. Hedrick added. “It will be important to design studies that include these individuals to determine if erythritol has an additive adverse effect on cardiac event risk.”
 

Criticism and Impact 

Critics have suggested the 30-gram dose of erythritol ingested by study participants is unrealistic. Dr. Hazen said that it’s not. 

Erythritol is often recommended as a one-to-one sugar replacement. And you could top 30 grams with a few servings of erythritol-sweetened ice cream or soda, Dr. Hazen said. 

“The dose that we used, it’s on the high end, but it’s well within a physiologically relevant level,” he said. 

Still others say the results are only relevant for people with preexisting heart trouble. But Dr. Hazen said they matter for the masses. 

“I think there’s a significant health concern at a population level that this work is underscoring,” he said. 

After all, heart disease risk factors like obesity, hypertension, diabetes, and smoking are common and quickly add up. 

“If you look at middle-aged America, most people who experience a heart attack or stroke do not know that they have coronary artery disease, and the first recognition of it is that event,” Dr. Hazen said. 

For now, Dr. Hazen recommends eating real sugar in moderation. He hopes future research will reveal a nonnutritive sweetener that doesn’t activate platelets. 
 

The Bigger Picture

The new research adds yet another piece to the puzzle of whether nonnutritive sweeteners are better than sugar. 

“I think these results are concerning,” said JoAnn E. Manson, MD, chief of the Division of Preventive Medicine at Brigham and Women’s Hospital and a professor of medicine at Harvard Medical School, both in Boston, Massachusetts. They “ may help explain the surprising results in some observational studies that artificial sweeteners are linked to an increased risk of cardiovascular disease.”

Dr. Manson, who was not involved in the new study, has conducted other research linking artificial sweetener use with stroke risk.

In an upcoming randomized clinical study, her team is comparing head-to-head sugar-sweetened beverages, drinks sweetened with calorie-free substitutes, and water to determine which is best for a range of cardiometabolic outcomes. 

“We need more research on this question,” she said, “because these artificial sweeteners are commonly used, and many people are assuming that their health outcomes will be better with the artificial sweeteners than with sugar-sweetened products.”

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

Is going sugar free really good advice for patients with cardiometabolic risk factors? 

That’s the question raised by new Cleveland Clinic research, which suggests that consuming erythritol, a sweetener widely found in sugar-free and keto food products, could spur a prothrombotic response. 

In the study, published in Arteriosclerosis, Thrombosis, and Vascular Biology, 10 healthy participants ate 30 grams of erythritol. Thirty minutes later, their blood showed enhanced platelet aggregation and increased markers of platelet responsiveness and activation. 

Specifically, the researchers saw enhanced stimulus-dependent release of serotonin (a marker of platelet dense granules) and CXCL4 (a platelet alpha-granule marker). 

“ With every single person, you see a prothrombotic effect with every single test that we did,” said study author Stanley Hazen, MD, PhD, chair of the Department of Cardiovascular & Metabolic Sciences at Cleveland Clinic in Ohio. By contrast, participants who ate 30 grams of glucose saw no such effect. 

The erythritol itself does not activate the platelets, Dr. Hazen said, rather it lowers the threshold for triggering a response. This could make someone more prone to clotting, raising heart attack and stroke risk over time.

Though the mechanism is unknown, Dr. Hazen has an idea. 

“There appears to be a receptor on platelets that is recognizing and sensing these sugar alcohols,” Dr. Hazen said, “much in the same way your taste bud for sweet is a receptor for recognizing a glucose or sugar molecule.” 

“We’re very interested in trying to figure out what the receptor is,” Dr. Hazen said, “because I think that then becomes a very interesting potential target for further investigation and study into how this is linked to causing heart disease.”
 

The Past and Future of Erythritol Research

In 2001, the Food and Drug Administration classified erythritol as a “generally recognized as safe” food additive. A sugar alcohol that occurs naturally in foods like melon and grapes, erythritol is also manufactured by fermenting sugars. It’s about 70% as sweet as table sugar. Humans also produce small amounts of erythritol naturally: Our blood cells make it from glucose via the pentose phosphate pathway. 

Previous research from Dr. Hazen’s group linked erythritol to a risk for major adverse cardiovascular events and clotting. 

“Based on their previous study, I think this was a really important study to do in healthy individuals,” said Martha Field, PhD, assistant professor in the Division of Nutritional Sciences at Cornell University, Ithaca, New York, who was not involved in the study.

The earlier paper analyzed blood samples from participants with unknown erythritol intake, including some taken before the sweetener, and it was as widespread as it is today. That made disentangling the effects of eating erythritol vs naturally producing it more difficult. 

By showing that eating erythritol raises markers associated with thrombosis, the new paper reinforces the importance of thinking about and developing a deeper understanding of what we put into our bodies. 

“This paper was conducted in healthy individuals — might this be particularly dangerous for individuals who are at increased risk of clotting?” asked Dr. Field. “There are lots of genetic polymorphisms that increase your risk for clotting disorders or your propensity to form thrombosis.” 

Field would like to see similar analyses of xylitol and sorbitol, other sugar alcohols found in sugar-free foods. And she called for more studies on erythritol that look at lower erythritol consumption over longer time periods. 

Registered dietitian nutritionist Valisa E. Hedrick, PhD, agreed: Much more work is needed in this area, particularly in higher-risk groups, such as those with prediabetes and diabetes, said Dr. Hedrick, an associate professor in the Department of Human Nutrition, Foods, and Exercise at Virginia Tech, Blacksburg, who was not involved in the study. 

“Because this study was conducted in healthy individuals, the impact of a small dose of glucose was negligible, as their body can effectively regulate blood glucose levels,” she said. “Because high blood glucose concentrations have also been shown to increase platelet reactivity, and consequently increase thrombosis potential, individuals who are not able to regulate their blood glucose levels, such as those with prediabetes and diabetes, could potentially see a similar effect on the body as erythritol when consuming large amounts of sugar.” 

At the same time, “individuals with diabetes or prediabetes may be more inclined to consume erythritol as an alternative to sugar,” Dr. Hedrick added. “It will be important to design studies that include these individuals to determine if erythritol has an additive adverse effect on cardiac event risk.”
 

Criticism and Impact 

Critics have suggested the 30-gram dose of erythritol ingested by study participants is unrealistic. Dr. Hazen said that it’s not. 

Erythritol is often recommended as a one-to-one sugar replacement. And you could top 30 grams with a few servings of erythritol-sweetened ice cream or soda, Dr. Hazen said. 

“The dose that we used, it’s on the high end, but it’s well within a physiologically relevant level,” he said. 

Still others say the results are only relevant for people with preexisting heart trouble. But Dr. Hazen said they matter for the masses. 

“I think there’s a significant health concern at a population level that this work is underscoring,” he said. 

After all, heart disease risk factors like obesity, hypertension, diabetes, and smoking are common and quickly add up. 

“If you look at middle-aged America, most people who experience a heart attack or stroke do not know that they have coronary artery disease, and the first recognition of it is that event,” Dr. Hazen said. 

For now, Dr. Hazen recommends eating real sugar in moderation. He hopes future research will reveal a nonnutritive sweetener that doesn’t activate platelets. 
 

The Bigger Picture

The new research adds yet another piece to the puzzle of whether nonnutritive sweeteners are better than sugar. 

“I think these results are concerning,” said JoAnn E. Manson, MD, chief of the Division of Preventive Medicine at Brigham and Women’s Hospital and a professor of medicine at Harvard Medical School, both in Boston, Massachusetts. They “ may help explain the surprising results in some observational studies that artificial sweeteners are linked to an increased risk of cardiovascular disease.”

Dr. Manson, who was not involved in the new study, has conducted other research linking artificial sweetener use with stroke risk.

In an upcoming randomized clinical study, her team is comparing head-to-head sugar-sweetened beverages, drinks sweetened with calorie-free substitutes, and water to determine which is best for a range of cardiometabolic outcomes. 

“We need more research on this question,” she said, “because these artificial sweeteners are commonly used, and many people are assuming that their health outcomes will be better with the artificial sweeteners than with sugar-sweetened products.”

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

The Diagnosis: Mycobacterium marinum Infection

A repeat excisional biopsy showed suppurative granulomatous dermatitis with negative stains for infectious organisms; however, tissue culture grew Mycobacterium marinum. The patient had a history of exposure to fish tanks, which are a potential habitat for nontuberculous mycobacteria. These bacteria can enter the body through a minor laceration or cut in the skin, which was likely due to her occupation and pet care activities.¹ Her fish tank exposure combined with the cutaneous findings of a long-standing indurated plaque with proximal nodular lymphangitis made M marinum infection the most likely diagnosis.²

Due to the limited specificity and sensitivity of patient symptoms, histologic staining, and direct microscopy, the gold standard for diagnosing acid-fast bacilli is tissue culture. ³ Tissue polymerase chain reaction testing is most useful in identifying the species of mycobacteria when histologic stains identify acid-fast bacilli but repeated tissue cultures are negative.⁴ With M marinum, a high clinical suspicion is needed to acquire a positive tissue culture because it needs to be grown for several weeks and at a temperature of 30 °C.⁵ Therefore, the physician should inform the laboratory if there is any suspicion for M marinum to increase the likelihood of obtaining a positive culture.

The differential diagnosis for M marinum infection includes other skin diseases that can cause nodular lymphangitis (also known as sporotrichoid spread) such as sporotrichosis, leishmaniasis, and certain bacterial and fungal infections. Although cat scratch disease, which is caused by Bartonella henselae, can appear similar to M marinum on histopathology, it clinically manifests with a single papulovesicular lesion at the site of inoculation that then forms a central eschar and resolves within a few weeks. Cat scratch disease typically causes painful lymphadenopathy, but it does not cause nodular lymphangitis or sporotrichoid spread.⁶ Sporotrichosis can have a similar clinical and histologic manifestation to M marinum infection, but the patient history typically includes exposure to Sporothrix schenckii through gardening or other contact with thorns, plants, or soil.² Cutaneous sarcoidosis can have a similar clinical appearance to M marinum infection, but nodular lymphangitis does not occur and histopathology would demonstrate noncaseating epithelioid cell granulomas.⁷ Lastly, although vegetative pyoderma gangrenosum can have some of the same histologic findings as M marinum, it typically also demonstrates sinus tract formation, which was not present in our case. Additionally, vegetative pyoderma gangrenosum manifests with a verrucous and pustular plaque that would not have lymphocutaneous spread.⁸

Treatment of cutaneous M marinum infection is guided by antibiotic susceptibility testing. One regimen is clarithromycin (500 mg twice daily⁹) plus ethambutol. ¹⁰ Treatment often entails a multidrug combination due to the high rates of antibiotic resistance. Other antibiotics that potentially can be used include rifampin, trimethoprim-sulfamethoxazole, minocycline, and quinolones. The treatment duration typically is more than 3 months, and therapy is continued for 4 to 6 weeks after the skin lesions resolve.¹¹ Excision of the lesion is reserved for patients with M marinum infection that fails to respond to antibiotic therapy.⁵

The Diagnosis: Mycobacterium marinum Infection

A repeat excisional biopsy showed suppurative granulomatous dermatitis with negative stains for infectious organisms; however, tissue culture grew Mycobacterium marinum. The patient had a history of exposure to fish tanks, which are a potential habitat for nontuberculous mycobacteria. These bacteria can enter the body through a minor laceration or cut in the skin, which was likely due to her occupation and pet care activities.¹ Her fish tank exposure combined with the cutaneous findings of a long-standing indurated plaque with proximal nodular lymphangitis made M marinum infection the most likely diagnosis.²

Due to the limited specificity and sensitivity of patient symptoms, histologic staining, and direct microscopy, the gold standard for diagnosing acid-fast bacilli is tissue culture. ³ Tissue polymerase chain reaction testing is most useful in identifying the species of mycobacteria when histologic stains identify acid-fast bacilli but repeated tissue cultures are negative.⁴ With M marinum, a high clinical suspicion is needed to acquire a positive tissue culture because it needs to be grown for several weeks and at a temperature of 30 °C.⁵ Therefore, the physician should inform the laboratory if there is any suspicion for M marinum to increase the likelihood of obtaining a positive culture.

The differential diagnosis for M marinum infection includes other skin diseases that can cause nodular lymphangitis (also known as sporotrichoid spread) such as sporotrichosis, leishmaniasis, and certain bacterial and fungal infections. Although cat scratch disease, which is caused by Bartonella henselae, can appear similar to M marinum on histopathology, it clinically manifests with a single papulovesicular lesion at the site of inoculation that then forms a central eschar and resolves within a few weeks. Cat scratch disease typically causes painful lymphadenopathy, but it does not cause nodular lymphangitis or sporotrichoid spread.⁶ Sporotrichosis can have a similar clinical and histologic manifestation to M marinum infection, but the patient history typically includes exposure to Sporothrix schenckii through gardening or other contact with thorns, plants, or soil.² Cutaneous sarcoidosis can have a similar clinical appearance to M marinum infection, but nodular lymphangitis does not occur and histopathology would demonstrate noncaseating epithelioid cell granulomas.⁷ Lastly, although vegetative pyoderma gangrenosum can have some of the same histologic findings as M marinum, it typically also demonstrates sinus tract formation, which was not present in our case. Additionally, vegetative pyoderma gangrenosum manifests with a verrucous and pustular plaque that would not have lymphocutaneous spread.⁸

Treatment of cutaneous M marinum infection is guided by antibiotic susceptibility testing. One regimen is clarithromycin (500 mg twice daily⁹) plus ethambutol. ¹⁰ Treatment often entails a multidrug combination due to the high rates of antibiotic resistance. Other antibiotics that potentially can be used include rifampin, trimethoprim-sulfamethoxazole, minocycline, and quinolones. The treatment duration typically is more than 3 months, and therapy is continued for 4 to 6 weeks after the skin lesions resolve.¹¹ Excision of the lesion is reserved for patients with M marinum infection that fails to respond to antibiotic therapy.⁵

The Diagnosis: Mycobacterium marinum Infection

A repeat excisional biopsy showed suppurative granulomatous dermatitis with negative stains for infectious organisms; however, tissue culture grew Mycobacterium marinum. The patient had a history of exposure to fish tanks, which are a potential habitat for nontuberculous mycobacteria. These bacteria can enter the body through a minor laceration or cut in the skin, which was likely due to her occupation and pet care activities.¹ Her fish tank exposure combined with the cutaneous findings of a long-standing indurated plaque with proximal nodular lymphangitis made M marinum infection the most likely diagnosis.²

Due to the limited specificity and sensitivity of patient symptoms, histologic staining, and direct microscopy, the gold standard for diagnosing acid-fast bacilli is tissue culture. ³ Tissue polymerase chain reaction testing is most useful in identifying the species of mycobacteria when histologic stains identify acid-fast bacilli but repeated tissue cultures are negative.⁴ With M marinum, a high clinical suspicion is needed to acquire a positive tissue culture because it needs to be grown for several weeks and at a temperature of 30 °C.⁵ Therefore, the physician should inform the laboratory if there is any suspicion for M marinum to increase the likelihood of obtaining a positive culture.

The differential diagnosis for M marinum infection includes other skin diseases that can cause nodular lymphangitis (also known as sporotrichoid spread) such as sporotrichosis, leishmaniasis, and certain bacterial and fungal infections. Although cat scratch disease, which is caused by Bartonella henselae, can appear similar to M marinum on histopathology, it clinically manifests with a single papulovesicular lesion at the site of inoculation that then forms a central eschar and resolves within a few weeks. Cat scratch disease typically causes painful lymphadenopathy, but it does not cause nodular lymphangitis or sporotrichoid spread.⁶ Sporotrichosis can have a similar clinical and histologic manifestation to M marinum infection, but the patient history typically includes exposure to Sporothrix schenckii through gardening or other contact with thorns, plants, or soil.² Cutaneous sarcoidosis can have a similar clinical appearance to M marinum infection, but nodular lymphangitis does not occur and histopathology would demonstrate noncaseating epithelioid cell granulomas.⁷ Lastly, although vegetative pyoderma gangrenosum can have some of the same histologic findings as M marinum, it typically also demonstrates sinus tract formation, which was not present in our case. Additionally, vegetative pyoderma gangrenosum manifests with a verrucous and pustular plaque that would not have lymphocutaneous spread.⁸

Treatment of cutaneous M marinum infection is guided by antibiotic susceptibility testing. One regimen is clarithromycin (500 mg twice daily⁹) plus ethambutol. ¹⁰ Treatment often entails a multidrug combination due to the high rates of antibiotic resistance. Other antibiotics that potentially can be used include rifampin, trimethoprim-sulfamethoxazole, minocycline, and quinolones. The treatment duration typically is more than 3 months, and therapy is continued for 4 to 6 weeks after the skin lesions resolve.¹¹ Excision of the lesion is reserved for patients with M marinum infection that fails to respond to antibiotic therapy.⁵

TOPLINE:

Cannabis-related disorders are associated with a more than a threefold increased risk for head and neck cancer. The study analyzed data from over four million patients, highlighting the potential carcinogenic effects of the substance.

METHODOLOGY:

• Researchers analyzed data from a globally federated health research network TriNetX, which included over 90 million men and women from 64 health care organizations in the United States.
• More than 4.1 million patients were included in the analysis, including 116,076 individuals diagnosed with cannabis-related disorder and 3.9 million without the disorder. Cannabis-related disorders involve the excessive use of cannabis with associated psychosocial symptoms, such as impaired social and/or occupational functioning.
• Patients with cannabis-related disorder were matched with those without the disorder based on demographic characteristics, alcohol-related disorders, and tobacco use.
• The primary outcome was the diagnosis of head and neck cancer, including subsites such as oral, oropharyngeal, nasopharyngeal, laryngeal, hypopharyngeal, and salivary gland malignancies.
• Propensity score matching and Poisson regression analysis were used to compare the incidence of head and neck cancers between the groups.

TAKEAWAY:

• According to the researchers, patients with a cannabis-related disorder had a higher risk for any head and neck cancer (relative risk [RR], 3.49; 95% CI, 2.78-4.39) than those without the disorder.
• The risk for specific cancers was also higher in the group with cannabis-related disorders, including oral (RR, 2.51; 95% CI, 1.81-3.47) and oropharyngeal malignancies (RR, 4.90; 95% CI, 2.99-8.02).
• The RR for laryngeal cancer was significantly higher in the patients with a cannabis-related disorder (RR, 8.39; 95% CI, 4.72-14.90).
• The findings suggest that cannabis use disorder is associated with an increased risk for head and neck cancers, highlighting the need for further research to understand the mechanisms involved.

IN PRACTICE:

“In this cohort study, cannabis disorder diagnosis was independently associated with greater risk of subsequent development of any [head or neck cancer] as well as cancers in various subsites of the head and neck among US adults. When limited to cases of [such cancers] occurring greater than 1 year after cannabis use disorder diagnosis, many of the associations increased, demonstrating additional strength in the association,” the authors of the study wrote. 

“The association of cannabis and head and neck cancer in this study spanned 2 decades during a rapid growth in use. If this association is causative, the burden of [head and neck cancers] attributable to cannabis will continue to increase, and perhaps dramatically,” said the authors of an editorial accompanying the journal article. “Given that cannabis is now a $20 billion industry in the US alone with expanding availability, use, and popularity, this may be “déjà vu, all over again” without appropriate research to understand the potential carcinogenic and salutatory effects of cannabis. Or, in the words of Yogi Berra, “If you don’t know where you are going, you might wind up someplace else.”
 

SOURCE:

The study was led by Tyler J. Gallagher and Niels C. Kokot, MD, at the Keck School of Medicine of the University of Southern California in Los Angeles. It was published online in JAMA Otolaryngology–Head & Neck Surgery.

LIMITATIONS:

The study had limited information about cohort composition and length of follow-up, which may affect the generalizability of the findings. The lack of direct exposure duration, intensity, and dosage information limits the ability to analyze dose-response relationships. Potential inconsistency of diagnosis and reliance on medical record codes may introduce bias. Cannabis use is likely underreported, which could decrease the relative risks discovered. The study was further limited by the lack of information on dosage and frequency of cannabis use, as well as some controls, including alcohol and tobacco use.

DISCLOSURES:

Gallagher disclosed receiving grants from the Keck School of Medicine of the University of Southern California, Los Angeles. Additional disclosures are noted in the original article.

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

TOPLINE:

Cannabis-related disorders are associated with a more than a threefold increased risk for head and neck cancer. The study analyzed data from over four million patients, highlighting the potential carcinogenic effects of the substance.

METHODOLOGY:

• Researchers analyzed data from a globally federated health research network TriNetX, which included over 90 million men and women from 64 health care organizations in the United States.
• More than 4.1 million patients were included in the analysis, including 116,076 individuals diagnosed with cannabis-related disorder and 3.9 million without the disorder. Cannabis-related disorders involve the excessive use of cannabis with associated psychosocial symptoms, such as impaired social and/or occupational functioning.
• Patients with cannabis-related disorder were matched with those without the disorder based on demographic characteristics, alcohol-related disorders, and tobacco use.
• The primary outcome was the diagnosis of head and neck cancer, including subsites such as oral, oropharyngeal, nasopharyngeal, laryngeal, hypopharyngeal, and salivary gland malignancies.
• Propensity score matching and Poisson regression analysis were used to compare the incidence of head and neck cancers between the groups.

TAKEAWAY:

• According to the researchers, patients with a cannabis-related disorder had a higher risk for any head and neck cancer (relative risk [RR], 3.49; 95% CI, 2.78-4.39) than those without the disorder.
• The risk for specific cancers was also higher in the group with cannabis-related disorders, including oral (RR, 2.51; 95% CI, 1.81-3.47) and oropharyngeal malignancies (RR, 4.90; 95% CI, 2.99-8.02).
• The RR for laryngeal cancer was significantly higher in the patients with a cannabis-related disorder (RR, 8.39; 95% CI, 4.72-14.90).
• The findings suggest that cannabis use disorder is associated with an increased risk for head and neck cancers, highlighting the need for further research to understand the mechanisms involved.

IN PRACTICE:

“In this cohort study, cannabis disorder diagnosis was independently associated with greater risk of subsequent development of any [head or neck cancer] as well as cancers in various subsites of the head and neck among US adults. When limited to cases of [such cancers] occurring greater than 1 year after cannabis use disorder diagnosis, many of the associations increased, demonstrating additional strength in the association,” the authors of the study wrote. 

“The association of cannabis and head and neck cancer in this study spanned 2 decades during a rapid growth in use. If this association is causative, the burden of [head and neck cancers] attributable to cannabis will continue to increase, and perhaps dramatically,” said the authors of an editorial accompanying the journal article. “Given that cannabis is now a $20 billion industry in the US alone with expanding availability, use, and popularity, this may be “déjà vu, all over again” without appropriate research to understand the potential carcinogenic and salutatory effects of cannabis. Or, in the words of Yogi Berra, “If you don’t know where you are going, you might wind up someplace else.”
 

SOURCE:

The study was led by Tyler J. Gallagher and Niels C. Kokot, MD, at the Keck School of Medicine of the University of Southern California in Los Angeles. It was published online in JAMA Otolaryngology–Head & Neck Surgery.

LIMITATIONS:

The study had limited information about cohort composition and length of follow-up, which may affect the generalizability of the findings. The lack of direct exposure duration, intensity, and dosage information limits the ability to analyze dose-response relationships. Potential inconsistency of diagnosis and reliance on medical record codes may introduce bias. Cannabis use is likely underreported, which could decrease the relative risks discovered. The study was further limited by the lack of information on dosage and frequency of cannabis use, as well as some controls, including alcohol and tobacco use.

DISCLOSURES:

Gallagher disclosed receiving grants from the Keck School of Medicine of the University of Southern California, Los Angeles. Additional disclosures are noted in the original article.

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

TOPLINE:

Cannabis-related disorders are associated with a more than a threefold increased risk for head and neck cancer. The study analyzed data from over four million patients, highlighting the potential carcinogenic effects of the substance.

METHODOLOGY:

• Researchers analyzed data from a globally federated health research network TriNetX, which included over 90 million men and women from 64 health care organizations in the United States.
• More than 4.1 million patients were included in the analysis, including 116,076 individuals diagnosed with cannabis-related disorder and 3.9 million without the disorder. Cannabis-related disorders involve the excessive use of cannabis with associated psychosocial symptoms, such as impaired social and/or occupational functioning.
• Patients with cannabis-related disorder were matched with those without the disorder based on demographic characteristics, alcohol-related disorders, and tobacco use.
• The primary outcome was the diagnosis of head and neck cancer, including subsites such as oral, oropharyngeal, nasopharyngeal, laryngeal, hypopharyngeal, and salivary gland malignancies.
• Propensity score matching and Poisson regression analysis were used to compare the incidence of head and neck cancers between the groups.

TAKEAWAY:

• According to the researchers, patients with a cannabis-related disorder had a higher risk for any head and neck cancer (relative risk [RR], 3.49; 95% CI, 2.78-4.39) than those without the disorder.
• The risk for specific cancers was also higher in the group with cannabis-related disorders, including oral (RR, 2.51; 95% CI, 1.81-3.47) and oropharyngeal malignancies (RR, 4.90; 95% CI, 2.99-8.02).
• The RR for laryngeal cancer was significantly higher in the patients with a cannabis-related disorder (RR, 8.39; 95% CI, 4.72-14.90).
• The findings suggest that cannabis use disorder is associated with an increased risk for head and neck cancers, highlighting the need for further research to understand the mechanisms involved.

IN PRACTICE:

“In this cohort study, cannabis disorder diagnosis was independently associated with greater risk of subsequent development of any [head or neck cancer] as well as cancers in various subsites of the head and neck among US adults. When limited to cases of [such cancers] occurring greater than 1 year after cannabis use disorder diagnosis, many of the associations increased, demonstrating additional strength in the association,” the authors of the study wrote. 

“The association of cannabis and head and neck cancer in this study spanned 2 decades during a rapid growth in use. If this association is causative, the burden of [head and neck cancers] attributable to cannabis will continue to increase, and perhaps dramatically,” said the authors of an editorial accompanying the journal article. “Given that cannabis is now a $20 billion industry in the US alone with expanding availability, use, and popularity, this may be “déjà vu, all over again” without appropriate research to understand the potential carcinogenic and salutatory effects of cannabis. Or, in the words of Yogi Berra, “If you don’t know where you are going, you might wind up someplace else.”
 

SOURCE:

The study was led by Tyler J. Gallagher and Niels C. Kokot, MD, at the Keck School of Medicine of the University of Southern California in Los Angeles. It was published online in JAMA Otolaryngology–Head & Neck Surgery.

LIMITATIONS:

The study had limited information about cohort composition and length of follow-up, which may affect the generalizability of the findings. The lack of direct exposure duration, intensity, and dosage information limits the ability to analyze dose-response relationships. Potential inconsistency of diagnosis and reliance on medical record codes may introduce bias. Cannabis use is likely underreported, which could decrease the relative risks discovered. The study was further limited by the lack of information on dosage and frequency of cannabis use, as well as some controls, including alcohol and tobacco use.

DISCLOSURES:

Gallagher disclosed receiving grants from the Keck School of Medicine of the University of Southern California, Los Angeles. Additional disclosures are noted in the original article.

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