Lucy Hicks

TOPLINE: 

Men with an inflammatory arthritis (IA) diagnosis are less likely to be childless than healthy comparators, according to an epidemiological study.

METHODS:

• 10,865 men in the Norwegian Arthritis Registry were compared with 54,325 men without IA, matched by age and location.
• In the arthritis group, 37% had rheumatoid arthritis, 33% had psoriatic arthritis, and 30% had spondyloarthritis.
• Researchers used childlessness and number of children as proxies for male fertility.

TAKEAWAY:

• 21% of men with IA were childless compared with 27% in the healthy cohort (P < .001).
• On an average, a man with IA had 1.80 children whereas a man in the control group had 1.69 children (P < .001).
• These findings were consistent over time, but the most pronounced difference between groups was seen in men diagnosed after the year 2000.

IN PRACTICE:

The finding “is novel and generates new hypotheses regarding associations between fertility, inflammatory rheumatic diseases, and immune-modulating drugs,” the authors wrote.

SOURCE:

First author Gudrun David Sigmo, of the department of rheumatology at Stavanger (Norway) University Hospital, and colleagues had their work published online on January 23, 2024, in Annals of the Rheumatic Diseases.

LIMITATIONS:

The analysis relied on administrative data, and researchers did not have data on confounding factors.

DISCLOSURES:

The study was funded by the nonprofit organizations Aslaug Anders fond, Astri og Edvard Riisøens legat, Det alminnelige medisinske forskningsfond, Pahles legat, and Fagsenter for medisins-ke kvalitetsregistre i Helse Vest. The authors declared no relevant conflicts of interest.

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

TOPLINE: 

Men with an inflammatory arthritis (IA) diagnosis are less likely to be childless than healthy comparators, according to an epidemiological study.

METHODS:

• 10,865 men in the Norwegian Arthritis Registry were compared with 54,325 men without IA, matched by age and location.
• In the arthritis group, 37% had rheumatoid arthritis, 33% had psoriatic arthritis, and 30% had spondyloarthritis.
• Researchers used childlessness and number of children as proxies for male fertility.

TAKEAWAY:

• 21% of men with IA were childless compared with 27% in the healthy cohort (P < .001).
• On an average, a man with IA had 1.80 children whereas a man in the control group had 1.69 children (P < .001).
• These findings were consistent over time, but the most pronounced difference between groups was seen in men diagnosed after the year 2000.

IN PRACTICE:

The finding “is novel and generates new hypotheses regarding associations between fertility, inflammatory rheumatic diseases, and immune-modulating drugs,” the authors wrote.

SOURCE:

First author Gudrun David Sigmo, of the department of rheumatology at Stavanger (Norway) University Hospital, and colleagues had their work published online on January 23, 2024, in Annals of the Rheumatic Diseases.

LIMITATIONS:

The analysis relied on administrative data, and researchers did not have data on confounding factors.

DISCLOSURES:

The study was funded by the nonprofit organizations Aslaug Anders fond, Astri og Edvard Riisøens legat, Det alminnelige medisinske forskningsfond, Pahles legat, and Fagsenter for medisins-ke kvalitetsregistre i Helse Vest. The authors declared no relevant conflicts of interest.

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

TOPLINE: 

Men with an inflammatory arthritis (IA) diagnosis are less likely to be childless than healthy comparators, according to an epidemiological study.

METHODS:

• 10,865 men in the Norwegian Arthritis Registry were compared with 54,325 men without IA, matched by age and location.
• In the arthritis group, 37% had rheumatoid arthritis, 33% had psoriatic arthritis, and 30% had spondyloarthritis.
• Researchers used childlessness and number of children as proxies for male fertility.

TAKEAWAY:

• 21% of men with IA were childless compared with 27% in the healthy cohort (P < .001).
• On an average, a man with IA had 1.80 children whereas a man in the control group had 1.69 children (P < .001).
• These findings were consistent over time, but the most pronounced difference between groups was seen in men diagnosed after the year 2000.

IN PRACTICE:

The finding “is novel and generates new hypotheses regarding associations between fertility, inflammatory rheumatic diseases, and immune-modulating drugs,” the authors wrote.

SOURCE:

First author Gudrun David Sigmo, of the department of rheumatology at Stavanger (Norway) University Hospital, and colleagues had their work published online on January 23, 2024, in Annals of the Rheumatic Diseases.

LIMITATIONS:

The analysis relied on administrative data, and researchers did not have data on confounding factors.

DISCLOSURES:

The study was funded by the nonprofit organizations Aslaug Anders fond, Astri og Edvard Riisøens legat, Det alminnelige medisinske forskningsfond, Pahles legat, and Fagsenter for medisins-ke kvalitetsregistre i Helse Vest. The authors declared no relevant conflicts of interest.

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

A new diagnostic tool can effectively discriminate different rheumatologic conditions and could potentially aid in the diagnosis of early inflammatory arthritis.

The algorithm — called Genetic Probability tool (G-PROB) — uses genetic information to calculate the probability of certain diseases.

University of Manchester

“At such an early stage of disease, it’s not always easy to determine what the final outcome will be with respect to final diagnosis,” said John Bowes, PhD, a senior lecturer in the division of musculoskeletal & dermatological sciences at the University of Manchester in the United Kingdom. He was a senior author of the newest study of G-PROB. “What we are hoping for here is that genetics can help [clinicians] with the decision-making process and hopefully accelerate the correct diagnosis and get individuals onto the correct treatment as early as possible.”
 

Creating the Algorithm

G-PROB was first developed by an international group of scientists with the goal of using genetic risk scores to predict the probabilities of common diagnoses for patients with early signs of arthritis, such as synovitis and joint swelling. According to the study authors, about 80% of these types of patients are eventually diagnosed with the following conditions: Rheumatoid arthritis (RA), systemic lupus erythematosus (SLE), psoriatic arthritis (PsA), ankylosing spondylitis (AS), and gout.

The algorithm combines existing knowledge about single-nucleotide polymorphisms from prior genomic studies to create genetic risk scores — also called polygenic risk score (PRS) — for multiple diseases. Using these scores, the program then calculates the probabilities of certain diagnoses for a patient, based on the assumption that at least one disease was present.

In this first study, researchers trained the tool on simulated data and then tested it in three patient cohorts totaling about 1700 individuals from the Electronic Medical Records and Genomics database and Mass General Brigham Biobank. In the initial study, G-PROB identified a likely diagnosis in 45% of patients, with a positive predictive value (PPV) of 64%. Adding these genetic scores to clinical data improved diagnostic accuracy from 39% to 51%.
 

Validating G-PROB

But data from these biobanks may not necessarily be representative of early arthritis in patients appearing in outpatient clinics, noted Dr. Bowes. In this new study, researchers sought to independently validate the original study’s findings using data from the Norfolk Arthritis Register, a community-based, long-term observational study on inflammatory polyarthritis. The team applied G-PROB in this cohort and then compared the tool’s probabilities for common rheumatic conditions to the final clinician diagnosis.

The study ultimately included 1047 individuals with early inflammatory arthritis with genotype data. In the cohort, more than 70% (756 individuals) were diagnosed with RA. Of the remaining patients, 104 had PsA, 18 had SLE, 16 had AS, and 12 had gout. The research team also added an “other diseases” category to the algorithm. A total of 141 patients fell into this category and were diagnosed with diseases including chronic pain syndrome (52 individuals), polymyalgia rheumatica (29 individuals), and Sjögren’s syndrome (9 individuals).

G-PROB was best at excluding diagnoses: Probabilities under 5% for a single disease corresponded to a negative predictive value (NPV) of 96%. If probabilities for two diseases were both < 5%, the NPV was 94%.

For patients with a single probability above 50%, the tool had a PPV of 70.3%. In 55.7% of all patients, the disease with the highest probability ended up being the final diagnosis.

Generally, PRSs, as well as tests using biomarkers, were better at excluding diagnoses than affirming them, noted Matthew Brown, MBBS, MD, a professor of medicine at King’s College London, who was not involved with the research. If disease prevalence is low, then a test aimed at diagnosis of that disease would be better at excluding a diagnosis than affirming it, he explained.

Queensland University of Technology

Can G-PROB Improve Diagnosis?

The new study’s key contribution was that it independently validated findings from a previous study, noted Katherine Liao, MD, a rheumatologist at Brigham and Women’s Hospital in Boston, Massachusetts. She coauthored an accompanying editorial to the newest study and coauthored the original G-PROB paper.

Dr. Liao

This new study also brought up an important question about G-PROB that has yet to be tested: Will this tool help clinicians make more efficient and accurate diagnoses in practice?

A prospective trial would be necessary to begin answering this question, both Dr. Bowes and Dr. Liao agreed. For example, one clinician group would have access to G-PROB data, while another would not, and “see if that helps [the first group] make the diagnosis faster or more accurately,” Dr. Liao said.

Dr. Bowes was also interested in exploring if combining G-PROB with other clinical data would improve diagnostic performance.

“Genetics isn’t the full story,” he said. Dr. Bowes saw genetics as one additional, complementary tool in a clinician’s toolbox.

Future studies were needed to understand the clinical utility of genetic information in conjunction with current diagnostic practices, such as imaging, physical exams, and lab results, Dr. Liao and her editorial coauthors argued. 

“For example, in cardiovascular disease, the clinical utility of polygenic risk scores has been defined by their ability to improve risk stratification beyond what is already achieved with more common risk factors and measures such as cholesterol levels, smoking status, and coronary calcium scores,” Dr. Liao and her coauthors wrote. “Similarly, a polygenic risk score for breast cancer would not be clinically implemented alone for risk prediction but rather as one risk factor among others, such as hormonal and reproductive factors and prior mammographic data.”
 

Future of Genetics in Rheumatology

An additional hurdle for using tools like G-PROB was that a patient must have undergone DNA sequencing, and these data must be available to clinicians. Even a decade ago, this type of testing may have seemed unrealistic to incorporate in daily practice, Dr. Liao noted, but technological advancements continue to make genetic sequencing more accessible to the public.

There are already efforts in the United Kingdom to incorporate genetics into healthcare, including trials for PRSs and heart disease, noted Dr. Bowes, as well as large-scale studies such as Our Future Health.

“As these population-based studies expand more, a high proportion of individuals should hopefully have access to this kind of data,” he said.

Brown added that genetic testing is already used to make rheumatology diagnoses.

“[HLA] B-27 testing, for example, is an extremely commonly used test to assist in the diagnosis of ankylosing spondylitis. Is it that different to change to a PRS as opposed to a straight HLA testing? I don’t think it is,” he said.

While there would need to be systematic training for clinicians to understand how to calculate and use PRSs in daily practice, Dr. Brown did not think this adjustment would be too difficult.

“There is a lot of exceptionalism about genetics, which is actually inappropriate,” he said. “This is actually just a quantitative score that should be easy for people to interpret.”

Dr. Bowes and Dr. Brown reported no relevant financial relationships. Dr. Liao worked as a consultant for UCB.

A version of this article appeared on Medscape.com.

A new diagnostic tool can effectively discriminate different rheumatologic conditions and could potentially aid in the diagnosis of early inflammatory arthritis.

The algorithm — called Genetic Probability tool (G-PROB) — uses genetic information to calculate the probability of certain diseases.

University of Manchester

“At such an early stage of disease, it’s not always easy to determine what the final outcome will be with respect to final diagnosis,” said John Bowes, PhD, a senior lecturer in the division of musculoskeletal & dermatological sciences at the University of Manchester in the United Kingdom. He was a senior author of the newest study of G-PROB. “What we are hoping for here is that genetics can help [clinicians] with the decision-making process and hopefully accelerate the correct diagnosis and get individuals onto the correct treatment as early as possible.”
 

Creating the Algorithm

G-PROB was first developed by an international group of scientists with the goal of using genetic risk scores to predict the probabilities of common diagnoses for patients with early signs of arthritis, such as synovitis and joint swelling. According to the study authors, about 80% of these types of patients are eventually diagnosed with the following conditions: Rheumatoid arthritis (RA), systemic lupus erythematosus (SLE), psoriatic arthritis (PsA), ankylosing spondylitis (AS), and gout.

The algorithm combines existing knowledge about single-nucleotide polymorphisms from prior genomic studies to create genetic risk scores — also called polygenic risk score (PRS) — for multiple diseases. Using these scores, the program then calculates the probabilities of certain diagnoses for a patient, based on the assumption that at least one disease was present.

In this first study, researchers trained the tool on simulated data and then tested it in three patient cohorts totaling about 1700 individuals from the Electronic Medical Records and Genomics database and Mass General Brigham Biobank. In the initial study, G-PROB identified a likely diagnosis in 45% of patients, with a positive predictive value (PPV) of 64%. Adding these genetic scores to clinical data improved diagnostic accuracy from 39% to 51%.
 

Validating G-PROB

But data from these biobanks may not necessarily be representative of early arthritis in patients appearing in outpatient clinics, noted Dr. Bowes. In this new study, researchers sought to independently validate the original study’s findings using data from the Norfolk Arthritis Register, a community-based, long-term observational study on inflammatory polyarthritis. The team applied G-PROB in this cohort and then compared the tool’s probabilities for common rheumatic conditions to the final clinician diagnosis.

The study ultimately included 1047 individuals with early inflammatory arthritis with genotype data. In the cohort, more than 70% (756 individuals) were diagnosed with RA. Of the remaining patients, 104 had PsA, 18 had SLE, 16 had AS, and 12 had gout. The research team also added an “other diseases” category to the algorithm. A total of 141 patients fell into this category and were diagnosed with diseases including chronic pain syndrome (52 individuals), polymyalgia rheumatica (29 individuals), and Sjögren’s syndrome (9 individuals).

G-PROB was best at excluding diagnoses: Probabilities under 5% for a single disease corresponded to a negative predictive value (NPV) of 96%. If probabilities for two diseases were both < 5%, the NPV was 94%.

For patients with a single probability above 50%, the tool had a PPV of 70.3%. In 55.7% of all patients, the disease with the highest probability ended up being the final diagnosis.

Generally, PRSs, as well as tests using biomarkers, were better at excluding diagnoses than affirming them, noted Matthew Brown, MBBS, MD, a professor of medicine at King’s College London, who was not involved with the research. If disease prevalence is low, then a test aimed at diagnosis of that disease would be better at excluding a diagnosis than affirming it, he explained.

Queensland University of Technology

Can G-PROB Improve Diagnosis?

The new study’s key contribution was that it independently validated findings from a previous study, noted Katherine Liao, MD, a rheumatologist at Brigham and Women’s Hospital in Boston, Massachusetts. She coauthored an accompanying editorial to the newest study and coauthored the original G-PROB paper.

Dr. Liao

This new study also brought up an important question about G-PROB that has yet to be tested: Will this tool help clinicians make more efficient and accurate diagnoses in practice?

A prospective trial would be necessary to begin answering this question, both Dr. Bowes and Dr. Liao agreed. For example, one clinician group would have access to G-PROB data, while another would not, and “see if that helps [the first group] make the diagnosis faster or more accurately,” Dr. Liao said.

Dr. Bowes was also interested in exploring if combining G-PROB with other clinical data would improve diagnostic performance.

“Genetics isn’t the full story,” he said. Dr. Bowes saw genetics as one additional, complementary tool in a clinician’s toolbox.

Future studies were needed to understand the clinical utility of genetic information in conjunction with current diagnostic practices, such as imaging, physical exams, and lab results, Dr. Liao and her editorial coauthors argued. 

“For example, in cardiovascular disease, the clinical utility of polygenic risk scores has been defined by their ability to improve risk stratification beyond what is already achieved with more common risk factors and measures such as cholesterol levels, smoking status, and coronary calcium scores,” Dr. Liao and her coauthors wrote. “Similarly, a polygenic risk score for breast cancer would not be clinically implemented alone for risk prediction but rather as one risk factor among others, such as hormonal and reproductive factors and prior mammographic data.”
 

Future of Genetics in Rheumatology

An additional hurdle for using tools like G-PROB was that a patient must have undergone DNA sequencing, and these data must be available to clinicians. Even a decade ago, this type of testing may have seemed unrealistic to incorporate in daily practice, Dr. Liao noted, but technological advancements continue to make genetic sequencing more accessible to the public.

There are already efforts in the United Kingdom to incorporate genetics into healthcare, including trials for PRSs and heart disease, noted Dr. Bowes, as well as large-scale studies such as Our Future Health.

“As these population-based studies expand more, a high proportion of individuals should hopefully have access to this kind of data,” he said.

Brown added that genetic testing is already used to make rheumatology diagnoses.

“[HLA] B-27 testing, for example, is an extremely commonly used test to assist in the diagnosis of ankylosing spondylitis. Is it that different to change to a PRS as opposed to a straight HLA testing? I don’t think it is,” he said.

While there would need to be systematic training for clinicians to understand how to calculate and use PRSs in daily practice, Dr. Brown did not think this adjustment would be too difficult.

“There is a lot of exceptionalism about genetics, which is actually inappropriate,” he said. “This is actually just a quantitative score that should be easy for people to interpret.”

Dr. Bowes and Dr. Brown reported no relevant financial relationships. Dr. Liao worked as a consultant for UCB.

A version of this article appeared on Medscape.com.

A new diagnostic tool can effectively discriminate different rheumatologic conditions and could potentially aid in the diagnosis of early inflammatory arthritis.

The algorithm — called Genetic Probability tool (G-PROB) — uses genetic information to calculate the probability of certain diseases.

University of Manchester

“At such an early stage of disease, it’s not always easy to determine what the final outcome will be with respect to final diagnosis,” said John Bowes, PhD, a senior lecturer in the division of musculoskeletal & dermatological sciences at the University of Manchester in the United Kingdom. He was a senior author of the newest study of G-PROB. “What we are hoping for here is that genetics can help [clinicians] with the decision-making process and hopefully accelerate the correct diagnosis and get individuals onto the correct treatment as early as possible.”
 

Creating the Algorithm

G-PROB was first developed by an international group of scientists with the goal of using genetic risk scores to predict the probabilities of common diagnoses for patients with early signs of arthritis, such as synovitis and joint swelling. According to the study authors, about 80% of these types of patients are eventually diagnosed with the following conditions: Rheumatoid arthritis (RA), systemic lupus erythematosus (SLE), psoriatic arthritis (PsA), ankylosing spondylitis (AS), and gout.

The algorithm combines existing knowledge about single-nucleotide polymorphisms from prior genomic studies to create genetic risk scores — also called polygenic risk score (PRS) — for multiple diseases. Using these scores, the program then calculates the probabilities of certain diagnoses for a patient, based on the assumption that at least one disease was present.

In this first study, researchers trained the tool on simulated data and then tested it in three patient cohorts totaling about 1700 individuals from the Electronic Medical Records and Genomics database and Mass General Brigham Biobank. In the initial study, G-PROB identified a likely diagnosis in 45% of patients, with a positive predictive value (PPV) of 64%. Adding these genetic scores to clinical data improved diagnostic accuracy from 39% to 51%.
 

Validating G-PROB

But data from these biobanks may not necessarily be representative of early arthritis in patients appearing in outpatient clinics, noted Dr. Bowes. In this new study, researchers sought to independently validate the original study’s findings using data from the Norfolk Arthritis Register, a community-based, long-term observational study on inflammatory polyarthritis. The team applied G-PROB in this cohort and then compared the tool’s probabilities for common rheumatic conditions to the final clinician diagnosis.

The study ultimately included 1047 individuals with early inflammatory arthritis with genotype data. In the cohort, more than 70% (756 individuals) were diagnosed with RA. Of the remaining patients, 104 had PsA, 18 had SLE, 16 had AS, and 12 had gout. The research team also added an “other diseases” category to the algorithm. A total of 141 patients fell into this category and were diagnosed with diseases including chronic pain syndrome (52 individuals), polymyalgia rheumatica (29 individuals), and Sjögren’s syndrome (9 individuals).

G-PROB was best at excluding diagnoses: Probabilities under 5% for a single disease corresponded to a negative predictive value (NPV) of 96%. If probabilities for two diseases were both < 5%, the NPV was 94%.

For patients with a single probability above 50%, the tool had a PPV of 70.3%. In 55.7% of all patients, the disease with the highest probability ended up being the final diagnosis.

Generally, PRSs, as well as tests using biomarkers, were better at excluding diagnoses than affirming them, noted Matthew Brown, MBBS, MD, a professor of medicine at King’s College London, who was not involved with the research. If disease prevalence is low, then a test aimed at diagnosis of that disease would be better at excluding a diagnosis than affirming it, he explained.

Queensland University of Technology

Can G-PROB Improve Diagnosis?

The new study’s key contribution was that it independently validated findings from a previous study, noted Katherine Liao, MD, a rheumatologist at Brigham and Women’s Hospital in Boston, Massachusetts. She coauthored an accompanying editorial to the newest study and coauthored the original G-PROB paper.

Dr. Liao

This new study also brought up an important question about G-PROB that has yet to be tested: Will this tool help clinicians make more efficient and accurate diagnoses in practice?

A prospective trial would be necessary to begin answering this question, both Dr. Bowes and Dr. Liao agreed. For example, one clinician group would have access to G-PROB data, while another would not, and “see if that helps [the first group] make the diagnosis faster or more accurately,” Dr. Liao said.

Dr. Bowes was also interested in exploring if combining G-PROB with other clinical data would improve diagnostic performance.

“Genetics isn’t the full story,” he said. Dr. Bowes saw genetics as one additional, complementary tool in a clinician’s toolbox.

Future studies were needed to understand the clinical utility of genetic information in conjunction with current diagnostic practices, such as imaging, physical exams, and lab results, Dr. Liao and her editorial coauthors argued. 

“For example, in cardiovascular disease, the clinical utility of polygenic risk scores has been defined by their ability to improve risk stratification beyond what is already achieved with more common risk factors and measures such as cholesterol levels, smoking status, and coronary calcium scores,” Dr. Liao and her coauthors wrote. “Similarly, a polygenic risk score for breast cancer would not be clinically implemented alone for risk prediction but rather as one risk factor among others, such as hormonal and reproductive factors and prior mammographic data.”
 

Future of Genetics in Rheumatology

An additional hurdle for using tools like G-PROB was that a patient must have undergone DNA sequencing, and these data must be available to clinicians. Even a decade ago, this type of testing may have seemed unrealistic to incorporate in daily practice, Dr. Liao noted, but technological advancements continue to make genetic sequencing more accessible to the public.

There are already efforts in the United Kingdom to incorporate genetics into healthcare, including trials for PRSs and heart disease, noted Dr. Bowes, as well as large-scale studies such as Our Future Health.

“As these population-based studies expand more, a high proportion of individuals should hopefully have access to this kind of data,” he said.

Brown added that genetic testing is already used to make rheumatology diagnoses.

“[HLA] B-27 testing, for example, is an extremely commonly used test to assist in the diagnosis of ankylosing spondylitis. Is it that different to change to a PRS as opposed to a straight HLA testing? I don’t think it is,” he said.

While there would need to be systematic training for clinicians to understand how to calculate and use PRSs in daily practice, Dr. Brown did not think this adjustment would be too difficult.

“There is a lot of exceptionalism about genetics, which is actually inappropriate,” he said. “This is actually just a quantitative score that should be easy for people to interpret.”

Dr. Bowes and Dr. Brown reported no relevant financial relationships. Dr. Liao worked as a consultant for UCB.

A version of this article appeared on Medscape.com.

Prophylactic treatment with zoledronic acid (ZA) in individuals at high genetic risk for Paget disease of the bone (PDB) can prevent the development or progression of the condition, according to a new study. The authors argued that the positive results from the trial suggest that individuals with a familial history of PDB should undergo genetic screening.

“If it’s positive, you should be able to have a bone scan and take it from there,” senior author Stuart Ralston, MBChB, MD, professor of rheumatology at the University of Edinburgh (Scotland), said in an interview.

Dr. Ralston

PDB is a chronic skeletal growth disorder that affects an estimated 1-3 million people in the United States and is most prevalent in individuals over 65 years old. Symptoms of the disease may not present until later stages when there is already skeletal damage that cannot be resolved by medications. Earlier intervention in individuals who have not yet shown signs of the condition could potentially halt disease progression, Dr. Ralston said.

Genetics plays a substantial role in PDB, especially pathogenic variants of the gene SQSTM1. An estimated 40%-50% of people with a familial history of PDB have these variants, according to the study, which are associated with earlier PDB onset and more severe disease.

However, it was unclear if early interventions in these higher-risk individuals may result in better health outcomes.

In this new study, published on December 20, 2023, in Annals of the Rheumatic Diseases, researchers recruited participants through family members already diagnosed with PDB who received treatment at outpatient clinics. Over 1400 individuals with PDB underwent genetic testing for pathogenic SQSTM1 variants. If they tested positive, their first-degree relatives — primarily children — were offered the same genetic test. In total, 350 relatives tested positive for these pathogenic SQSTM1 variants, and of these individuals, 222 agreed to participate in the trial.

At the beginning of the study, all participants received a radionuclide bone scan to screen for bone lesions. They also underwent testing for the bone resorption marker type I collagen C-terminal telopeptides (CTX) and the bone formation marker procollagen type I amino-terminal propeptide (P1NP).

Participants were then randomized to receive either a single intravenous infusion of 5 mg of ZA or placebo treatment. Researchers followed up with participants annually for a median of 84 months (7 years), and then baseline assessments were repeated.

A total of 90 individuals in the ZA treatment group and 90 individuals in the placebo group completed the trial.

Participants were, on average, 50 years old at the beginning of the study. In the ZA group, nine individuals had lesions detected in bone scans at baseline, compared with just one at the study’s end. In the placebo group, 12 individuals had detectable lesions at baseline, compared with 11 individuals at the study’s end.

While the proportion of individuals with lesions was similar between the two groups, there were about twice as many lesions overall in the placebo group, compared with the ZA group (29 vs 15), which researchers said was by chance. All but two lesions disappeared in the ZA group, compared with 26 lesions remaining in the placebo group (P < .0001).

“The bone scan reversal of abnormalities was amazing,” said Ralston, where eight of nine patients with lesions in the ZA group “had their bone scan evidence completely wiped out,” he said. “That’s a very powerful result.”

Both CTX and P1NP concentrations fell in the ZA group at 12 months and remained significantly lower than the placebo group throughout the study (P < .0001 for each).

Overall, the researchers reported that eight individuals in the placebo group and no individuals in the ZA group had a poor outcome, defined as new bone lesions or lesions that were unchanged or progressed (odds ratio, 0.08; P = .003). Two individuals in the placebo group developed lesions during the study, compared with none in the ZA group, but this difference was not statistically significant.

Importantly, there were no differences in adverse events between the two groups.

While only a small number of people in the study had legions — around 9% of participants — the effect of ZA is “dramatic,” Linda A. Russell, MD, director of the Osteoporosis and Metabolic Bone Health Center at the Hospital for Special Surgery in New York City, told this news organization.

While clinicians primarily diagnose PDB with X-rays or an alkaline phosphatase blood test, testing for SQSTM1 is a new way to understand if someone is at higher risk for the disease, she said.

“Now, it seems like [the test] is fairly easily available, so probably it’s something we can begin to incorporate into our armamentarium,” Dr. Russell said.

Individuals who test positive for pathogenic variants of SQSTM1 could then get a bone scan, while those who tested negative may not need any additional testing, she added.

Dr. Ralston and coauthors noted that the effect size shown in this study is similar to that of studies examining adjuvant bisphosphonate therapy for postmenopausal women with early breast cancer. That practice, they write, is now a part of the standard of care.

“We believe that a similar approach is now justified in people with a family history of PDB who test positive for SQSTM1 mutations,” they wrote.

However, it is not clear if all individuals with pathogenic SQSTM1 should receive ZA treatment or if treatment should be given to only those with bone lesions.

“Future research to gather the views of people with a family history of PDB will help to inform the most appropriate way forward,” the authors wrote.

The UK Medical Research Council and Arthritis Research UK funded the trial. Zoledronic acid and a placebo were supplied by Novartis. Dr. Ralston reported funding to his institution from Kyowa Kirin, UCB, the Paget’s Association, and the Royal Osteoporosis Society. Some coauthors reported financial relationships with pharmaceutical companies outside the trial. Dr. Russell had no relevant financial relationships.
 

A version of this article appeared on Medscape.com.

Prophylactic treatment with zoledronic acid (ZA) in individuals at high genetic risk for Paget disease of the bone (PDB) can prevent the development or progression of the condition, according to a new study. The authors argued that the positive results from the trial suggest that individuals with a familial history of PDB should undergo genetic screening.

“If it’s positive, you should be able to have a bone scan and take it from there,” senior author Stuart Ralston, MBChB, MD, professor of rheumatology at the University of Edinburgh (Scotland), said in an interview.

Dr. Ralston

PDB is a chronic skeletal growth disorder that affects an estimated 1-3 million people in the United States and is most prevalent in individuals over 65 years old. Symptoms of the disease may not present until later stages when there is already skeletal damage that cannot be resolved by medications. Earlier intervention in individuals who have not yet shown signs of the condition could potentially halt disease progression, Dr. Ralston said.

Genetics plays a substantial role in PDB, especially pathogenic variants of the gene SQSTM1. An estimated 40%-50% of people with a familial history of PDB have these variants, according to the study, which are associated with earlier PDB onset and more severe disease.

However, it was unclear if early interventions in these higher-risk individuals may result in better health outcomes.

In this new study, published on December 20, 2023, in Annals of the Rheumatic Diseases, researchers recruited participants through family members already diagnosed with PDB who received treatment at outpatient clinics. Over 1400 individuals with PDB underwent genetic testing for pathogenic SQSTM1 variants. If they tested positive, their first-degree relatives — primarily children — were offered the same genetic test. In total, 350 relatives tested positive for these pathogenic SQSTM1 variants, and of these individuals, 222 agreed to participate in the trial.

At the beginning of the study, all participants received a radionuclide bone scan to screen for bone lesions. They also underwent testing for the bone resorption marker type I collagen C-terminal telopeptides (CTX) and the bone formation marker procollagen type I amino-terminal propeptide (P1NP).

Participants were then randomized to receive either a single intravenous infusion of 5 mg of ZA or placebo treatment. Researchers followed up with participants annually for a median of 84 months (7 years), and then baseline assessments were repeated.

A total of 90 individuals in the ZA treatment group and 90 individuals in the placebo group completed the trial.

Participants were, on average, 50 years old at the beginning of the study. In the ZA group, nine individuals had lesions detected in bone scans at baseline, compared with just one at the study’s end. In the placebo group, 12 individuals had detectable lesions at baseline, compared with 11 individuals at the study’s end.

While the proportion of individuals with lesions was similar between the two groups, there were about twice as many lesions overall in the placebo group, compared with the ZA group (29 vs 15), which researchers said was by chance. All but two lesions disappeared in the ZA group, compared with 26 lesions remaining in the placebo group (P < .0001).

“The bone scan reversal of abnormalities was amazing,” said Ralston, where eight of nine patients with lesions in the ZA group “had their bone scan evidence completely wiped out,” he said. “That’s a very powerful result.”

Both CTX and P1NP concentrations fell in the ZA group at 12 months and remained significantly lower than the placebo group throughout the study (P < .0001 for each).

Overall, the researchers reported that eight individuals in the placebo group and no individuals in the ZA group had a poor outcome, defined as new bone lesions or lesions that were unchanged or progressed (odds ratio, 0.08; P = .003). Two individuals in the placebo group developed lesions during the study, compared with none in the ZA group, but this difference was not statistically significant.

Importantly, there were no differences in adverse events between the two groups.

While only a small number of people in the study had legions — around 9% of participants — the effect of ZA is “dramatic,” Linda A. Russell, MD, director of the Osteoporosis and Metabolic Bone Health Center at the Hospital for Special Surgery in New York City, told this news organization.

While clinicians primarily diagnose PDB with X-rays or an alkaline phosphatase blood test, testing for SQSTM1 is a new way to understand if someone is at higher risk for the disease, she said.

“Now, it seems like [the test] is fairly easily available, so probably it’s something we can begin to incorporate into our armamentarium,” Dr. Russell said.

Individuals who test positive for pathogenic variants of SQSTM1 could then get a bone scan, while those who tested negative may not need any additional testing, she added.

Dr. Ralston and coauthors noted that the effect size shown in this study is similar to that of studies examining adjuvant bisphosphonate therapy for postmenopausal women with early breast cancer. That practice, they write, is now a part of the standard of care.

“We believe that a similar approach is now justified in people with a family history of PDB who test positive for SQSTM1 mutations,” they wrote.

However, it is not clear if all individuals with pathogenic SQSTM1 should receive ZA treatment or if treatment should be given to only those with bone lesions.

“Future research to gather the views of people with a family history of PDB will help to inform the most appropriate way forward,” the authors wrote.

The UK Medical Research Council and Arthritis Research UK funded the trial. Zoledronic acid and a placebo were supplied by Novartis. Dr. Ralston reported funding to his institution from Kyowa Kirin, UCB, the Paget’s Association, and the Royal Osteoporosis Society. Some coauthors reported financial relationships with pharmaceutical companies outside the trial. Dr. Russell had no relevant financial relationships.
 

A version of this article appeared on Medscape.com.

Prophylactic treatment with zoledronic acid (ZA) in individuals at high genetic risk for Paget disease of the bone (PDB) can prevent the development or progression of the condition, according to a new study. The authors argued that the positive results from the trial suggest that individuals with a familial history of PDB should undergo genetic screening.

“If it’s positive, you should be able to have a bone scan and take it from there,” senior author Stuart Ralston, MBChB, MD, professor of rheumatology at the University of Edinburgh (Scotland), said in an interview.

Dr. Ralston

PDB is a chronic skeletal growth disorder that affects an estimated 1-3 million people in the United States and is most prevalent in individuals over 65 years old. Symptoms of the disease may not present until later stages when there is already skeletal damage that cannot be resolved by medications. Earlier intervention in individuals who have not yet shown signs of the condition could potentially halt disease progression, Dr. Ralston said.

Genetics plays a substantial role in PDB, especially pathogenic variants of the gene SQSTM1. An estimated 40%-50% of people with a familial history of PDB have these variants, according to the study, which are associated with earlier PDB onset and more severe disease.

However, it was unclear if early interventions in these higher-risk individuals may result in better health outcomes.

In this new study, published on December 20, 2023, in Annals of the Rheumatic Diseases, researchers recruited participants through family members already diagnosed with PDB who received treatment at outpatient clinics. Over 1400 individuals with PDB underwent genetic testing for pathogenic SQSTM1 variants. If they tested positive, their first-degree relatives — primarily children — were offered the same genetic test. In total, 350 relatives tested positive for these pathogenic SQSTM1 variants, and of these individuals, 222 agreed to participate in the trial.

At the beginning of the study, all participants received a radionuclide bone scan to screen for bone lesions. They also underwent testing for the bone resorption marker type I collagen C-terminal telopeptides (CTX) and the bone formation marker procollagen type I amino-terminal propeptide (P1NP).

Participants were then randomized to receive either a single intravenous infusion of 5 mg of ZA or placebo treatment. Researchers followed up with participants annually for a median of 84 months (7 years), and then baseline assessments were repeated.

A total of 90 individuals in the ZA treatment group and 90 individuals in the placebo group completed the trial.

Participants were, on average, 50 years old at the beginning of the study. In the ZA group, nine individuals had lesions detected in bone scans at baseline, compared with just one at the study’s end. In the placebo group, 12 individuals had detectable lesions at baseline, compared with 11 individuals at the study’s end.

While the proportion of individuals with lesions was similar between the two groups, there were about twice as many lesions overall in the placebo group, compared with the ZA group (29 vs 15), which researchers said was by chance. All but two lesions disappeared in the ZA group, compared with 26 lesions remaining in the placebo group (P < .0001).

“The bone scan reversal of abnormalities was amazing,” said Ralston, where eight of nine patients with lesions in the ZA group “had their bone scan evidence completely wiped out,” he said. “That’s a very powerful result.”

Both CTX and P1NP concentrations fell in the ZA group at 12 months and remained significantly lower than the placebo group throughout the study (P < .0001 for each).

Overall, the researchers reported that eight individuals in the placebo group and no individuals in the ZA group had a poor outcome, defined as new bone lesions or lesions that were unchanged or progressed (odds ratio, 0.08; P = .003). Two individuals in the placebo group developed lesions during the study, compared with none in the ZA group, but this difference was not statistically significant.

Importantly, there were no differences in adverse events between the two groups.

While only a small number of people in the study had legions — around 9% of participants — the effect of ZA is “dramatic,” Linda A. Russell, MD, director of the Osteoporosis and Metabolic Bone Health Center at the Hospital for Special Surgery in New York City, told this news organization.

While clinicians primarily diagnose PDB with X-rays or an alkaline phosphatase blood test, testing for SQSTM1 is a new way to understand if someone is at higher risk for the disease, she said.

“Now, it seems like [the test] is fairly easily available, so probably it’s something we can begin to incorporate into our armamentarium,” Dr. Russell said.

Individuals who test positive for pathogenic variants of SQSTM1 could then get a bone scan, while those who tested negative may not need any additional testing, she added.

Dr. Ralston and coauthors noted that the effect size shown in this study is similar to that of studies examining adjuvant bisphosphonate therapy for postmenopausal women with early breast cancer. That practice, they write, is now a part of the standard of care.

“We believe that a similar approach is now justified in people with a family history of PDB who test positive for SQSTM1 mutations,” they wrote.

However, it is not clear if all individuals with pathogenic SQSTM1 should receive ZA treatment or if treatment should be given to only those with bone lesions.

“Future research to gather the views of people with a family history of PDB will help to inform the most appropriate way forward,” the authors wrote.

The UK Medical Research Council and Arthritis Research UK funded the trial. Zoledronic acid and a placebo were supplied by Novartis. Dr. Ralston reported funding to his institution from Kyowa Kirin, UCB, the Paget’s Association, and the Royal Osteoporosis Society. Some coauthors reported financial relationships with pharmaceutical companies outside the trial. Dr. Russell had no relevant financial relationships.
 

A version of this article appeared on Medscape.com.

TOPLINE:

An intensive weight loss program is safe for individuals with gout and obesity but does not ease gout symptoms compared with a “control diet” with basic nutritional counseling.

METHODOLOGY:

• Weight loss is recommended as a gout management strategy, despite little clinical evidence.
• Researchers recruited 61 patients with gout and obesity to participate in a 16-week, randomized, nonblinded, parallel-group trial in Denmark.
• A total of 29 participants were assigned to an intensive, low-calorie diet with provided meal replacements.
• Another 32 participants were assigned to the “control diet” with basic nutritional counseling.

TAKEAWAY:

• Patients in the intensive group lost more weight (−15.4 kg/34 lbs) than those the control group (−7.7 kg/17 lbs).
• There were no differences in pain, fatigue, or gout flares between the two groups.
• Weight loss was associated with reduction in serum urate (SU).
• Patients in the intervention group had a numerically larger mean SU change (−0.6 mg/dL) than the control group (−0.3 mg/dL), but this difference was not statistically significant.

IN PRACTICE:

Weight loss can lower SU levels, but this did not translate to improved gout symptoms.

SOURCE:

Robin Christensen, PhD, and Kristian Zobbe, MD, PhD, of the Parker Institute at Bispebjerg and Frederiksberg Hospital in Copenhagen, Denmark, were co-first authors of the study, published on January 2, 2024, in Arthritis & Rheumatology.

LIMITATIONS:

The study had a relatively small sample size and short-term intervention period, which may have made it difficult to detect differences between the intervention and control groups. Patients in the control group lost a significant amount of weight, which also affected comparisons between the two groups.

DISCLOSURES:

Several of the authors disclosed financial relationships with pharmaceutical companies. The Parker Institute, which funded the study, is supported by grants from the Oak Foundation and the Danish Rheumatism Association.

A version of this article appeared on Medscape.com.

TOPLINE:

An intensive weight loss program is safe for individuals with gout and obesity but does not ease gout symptoms compared with a “control diet” with basic nutritional counseling.

METHODOLOGY:

• Weight loss is recommended as a gout management strategy, despite little clinical evidence.
• Researchers recruited 61 patients with gout and obesity to participate in a 16-week, randomized, nonblinded, parallel-group trial in Denmark.
• A total of 29 participants were assigned to an intensive, low-calorie diet with provided meal replacements.
• Another 32 participants were assigned to the “control diet” with basic nutritional counseling.

TAKEAWAY:

• Patients in the intensive group lost more weight (−15.4 kg/34 lbs) than those the control group (−7.7 kg/17 lbs).
• There were no differences in pain, fatigue, or gout flares between the two groups.
• Weight loss was associated with reduction in serum urate (SU).
• Patients in the intervention group had a numerically larger mean SU change (−0.6 mg/dL) than the control group (−0.3 mg/dL), but this difference was not statistically significant.

IN PRACTICE:

Weight loss can lower SU levels, but this did not translate to improved gout symptoms.

SOURCE:

Robin Christensen, PhD, and Kristian Zobbe, MD, PhD, of the Parker Institute at Bispebjerg and Frederiksberg Hospital in Copenhagen, Denmark, were co-first authors of the study, published on January 2, 2024, in Arthritis & Rheumatology.

LIMITATIONS:

The study had a relatively small sample size and short-term intervention period, which may have made it difficult to detect differences between the intervention and control groups. Patients in the control group lost a significant amount of weight, which also affected comparisons between the two groups.

DISCLOSURES:

Several of the authors disclosed financial relationships with pharmaceutical companies. The Parker Institute, which funded the study, is supported by grants from the Oak Foundation and the Danish Rheumatism Association.

A version of this article appeared on Medscape.com.

TOPLINE:

An intensive weight loss program is safe for individuals with gout and obesity but does not ease gout symptoms compared with a “control diet” with basic nutritional counseling.

METHODOLOGY:

• Weight loss is recommended as a gout management strategy, despite little clinical evidence.
• Researchers recruited 61 patients with gout and obesity to participate in a 16-week, randomized, nonblinded, parallel-group trial in Denmark.
• A total of 29 participants were assigned to an intensive, low-calorie diet with provided meal replacements.
• Another 32 participants were assigned to the “control diet” with basic nutritional counseling.

TAKEAWAY:

• Patients in the intensive group lost more weight (−15.4 kg/34 lbs) than those the control group (−7.7 kg/17 lbs).
• There were no differences in pain, fatigue, or gout flares between the two groups.
• Weight loss was associated with reduction in serum urate (SU).
• Patients in the intervention group had a numerically larger mean SU change (−0.6 mg/dL) than the control group (−0.3 mg/dL), but this difference was not statistically significant.

IN PRACTICE:

Weight loss can lower SU levels, but this did not translate to improved gout symptoms.

SOURCE:

Robin Christensen, PhD, and Kristian Zobbe, MD, PhD, of the Parker Institute at Bispebjerg and Frederiksberg Hospital in Copenhagen, Denmark, were co-first authors of the study, published on January 2, 2024, in Arthritis & Rheumatology.

LIMITATIONS:

The study had a relatively small sample size and short-term intervention period, which may have made it difficult to detect differences between the intervention and control groups. Patients in the control group lost a significant amount of weight, which also affected comparisons between the two groups.

DISCLOSURES:

Several of the authors disclosed financial relationships with pharmaceutical companies. The Parker Institute, which funded the study, is supported by grants from the Oak Foundation and the Danish Rheumatism Association.

A version of this article appeared on Medscape.com.

Pediatric rheumatologists are calling a “Code (p)RED” — a pediatric rheumatology educational deficit.

There are too few pediatric rheumatologists to meet patient demand in the United States, and projections suggest that gap will continue to widen. Disappointing match trends also reflect issues with recruitment: Since 2019, only 50%-75% of pediatric rheumatology fellowship positions have been filled each year. For 2024, the subspecialty filled 32 of 52 positions.

University of Minnesota

Lack of exposure during medical school and residency, financial concerns, and a lengthy, research-focused fellowship are seen as major contributors to the workforce shortage, and novel solutions are needed to close the gap, experts argued in a recent presentation at the annual meeting of the American College of Rheumatology.

“It’s so important now to get ahead of this because what I’m afraid of is in 10-20 years, we’re not going to have a field,” Colleen Correll, MD, MPH, an associate professor in the division of pediatric rheumatology at the University of Minnesota Medical School in Minneapolis, told this news organization.
 

Growing Demand, Falling Supply

Because the subspecialty was officially recognized by the American Board of Pediatrics in 1991, “it’s always been a small group of providers,” Dr. Correll said. “It’s honestly always been a recognized issue in our field.”

But a 2022 report by the ACR on the pediatric workforce has brought more attention to the issue. Dr. Correll led the study and is the chair of ACR›s Pediatric Rheumatology Committee. According to the report, an estimated 287 pediatric rheumatologists were working as full-time clinicians in 2015, while the estimated demand was 382 providers. By 2030, this projected supply of pediatric rheumatologists fell to 261, while demand rose to 461 full-time providers.

The distribution of pediatric rheumatologists is also an issue. It’s generally thought that there should be at least one pediatric rheumatologist per 100,000 children, Dr. Correll explained. According to ACR estimates, the northeast region had approximately 0.83 pediatric rheumatologists per 100,000 in 2015, while the south central and southwest regions had 0.17 and 0.20 providers per 100,000 children, respectively. Projected estimates for 2030 dipped to 0.04 or lower for the south central, southwest, and southeast regions.

A separate study from the American Board of Pediatrics, also led by Dr. Correll, that is still under review offered more optimistic projections, suggesting that there would be a 75% increase in pediatric rheumatologists from 0.27 per 100,000 children in 2020 to 0.47 per 100,000 children in 2040.

“This does look better than the ACR study, though 0.47 is still a really small number and an inadequate number to treat our children in need,” she said during her presentation at the annual meeting of the American College of Rheumatology.
 

Lack of Exposure During Medical Education

Few medical schools have pediatric rheumatology built into their curriculum, whether that is a whole course or a single lecture, said Jay Mehta, MD, who directs the pediatric rheumatology fellowship at the Children’s Hospital of Philadelphia. Dr. Mehta, for example, did not know that pediatric rheumatology was a field before entering residency, he said. But residencies can also lack exposure: An estimated one third of residencies do not have a single pediatric rheumatologist on staff, he said.

Children&#039;s Hospital of Philadelphia

“Those are places where people aren’t necessarily getting exposure to pediatric rheumatology,” he told this news organization, “and we know that if you’re not exposed to a field, it’s very, very unlikely that you will go into that field.”

The ACR’s Pediatric Rheumatology Residency Program is one way that the organization is working to address this issue. The program sends pediatric residents with an interest in rheumatology to the ACR annual meeting. The Rheumatology Research Foundation also runs a visiting professorship program, where a pediatric rheumatologist conducts a rheumatology education forum at an institution with no pediatric rheumatology program.

“I’ve done it a couple of times,” Dr. Mehta said during his presentation at the annual meeting. “It’s one of the most rewarding things I’ve done.”
 

Financial Concerns

Additionally, although pediatric rheumatology requires more training, these subspecialists will likely make less than their general pediatric colleagues over their career. According to one study in Pediatrics, a pediatric resident pursuing rheumatology is projected to make $1.2 million dollars less over the course of their career compared with someone who started their career in general pediatrics immediately after residency. (Negative financial returns were also found for all pediatric subspecialities except for cardiology, critical care, and neonatology.)

This lower earning potential is likely a deterrent, especially for those with educational debt. In one analysis published in October, medical students with at least $200,000 in education debt were 43% more likely to go into higher-paying pediatric subspecialities than those with no debt. Nearly three out of four medical graduates have education debt, according to the American Association of Medical Colleges, with a median debt of $200,000.

While the Pediatric Specialty Loan Repayment Program was specifically designed to aid pediatric subspecialists with their educational debt, qualifying for the program is difficult for pediatric rheumatologists, explained Kristen N. Hayward, MD, of Seattle Children’s in Washington. The program provides up to $100,000 in loan forgiveness in exchange for 3 years of practicing in an underserved area; however, the program stipulates that providers must provide full-time (40 hours per week) clinical care. At academic institutions, where most pediatric rheumatologists practice, there is usually a research component to their position, and even if a provider works the equivalent of 40 hours per week in a clinic in addition to their research, they don’t qualify for the program, Dr. Hayward said.

“It’s very difficult to find someone who’s actually only doing clinical work,” she said.

The ACR has worked to combat some of these economic constraints by demonstrating the direct and downstream value of rheumatologic care, Dr. Hayward said. In a recent white paper, it was estimated that including office visits, consultations, lab testing, and radiology services, one full-time equivalent rheumatologist generates $3.5 million in revenue every year and saves health systems more than $2700 per patient per year.

In addition to placing greater value on rheumatologic care, the healthcare system also needs to recognize the current nonbillable hours that pediatric rheumatologists spend taking care of patients, Dr. Hayward noted.

Especially with electronic medical records (EMRs) and online communication with patients, “there is increasingly a lot of patient care that happens outside of clinic and that takes a lot of time,” Dr. Hayward said. For example, she spends between 1 and 2 hours every day in the EMR refilling medications and responding to patient concerns, and “that all is done in my spare time,” she said. “That’s not billed to the patient in anyway.”
 

Length of Fellowship

The pediatric rheumatology fellowship is a 3-year program — like other pediatric subspecialities — with a research requirement. By comparison, adult rheumatology fellowships are 2 years, and fellows can pursue additional research training if they have a strong interest.

“It sounds like just 1 more year, but I think it’s coming at a really pivotal point in people’s lives, and that 1 year can make a huge difference,” Dr. Hayward explained.

The 2 years of research might also be a deterrent for individuals who know they are only interested in clinical work, she added. About half of pediatric subspecialists only pursue clinical work after graduation, according to a recent report by the National Academies of Sciences, Engineering, and Medicine (NASEM) focused on the future pediatric physician workforce.

Additionally, only 17% of pediatric rheumatologists spend more than half of their time in research, said Fred Rivara, MD, MPH, chair of the NASEM report, in a statement included in Dr. Hayward’s ACR presentation. The report, which recommended strategies to bolster the pediatric workforce, argued that the American Board of Pediatrics should develop alternative training pathways, including 2-year, clinically heavy fellowships.

The ACR workforce team is also exploring alternative training models like competency-based education, Dr. Hayward said. The Education in Pediatrics Across the Continuum project is already using this approach from medical school to pediatric residency. While this type of outcome-based program has not been tried at the fellowship level, «this has been done, it could be done, and I think we could learn from our colleagues about how they have done this successfully,» she noted.

Ultimately, Dr. Hayward emphasized that there needs to be a “sea change” to close the workforce gap — with multiple interventions addressing these individual challenges.

“Unless we all pitch in and find one way that we can all move this issue forward, we are going to be drowning in a sea of Epic inbox messages,” she said, “and never get to see the patients we want to see.”

Dr. Hayward previously owned stock/stock options for AbbVie/Abbott, Cigna/Express Scripts, Merck, and Teva and has received an educational grant from Pfizer. Dr. Correll and Dr. Mehta had no relevant disclosures.

A version of this article appeared on Medscape.com.

Pediatric rheumatologists are calling a “Code (p)RED” — a pediatric rheumatology educational deficit.

There are too few pediatric rheumatologists to meet patient demand in the United States, and projections suggest that gap will continue to widen. Disappointing match trends also reflect issues with recruitment: Since 2019, only 50%-75% of pediatric rheumatology fellowship positions have been filled each year. For 2024, the subspecialty filled 32 of 52 positions.

University of Minnesota

Lack of exposure during medical school and residency, financial concerns, and a lengthy, research-focused fellowship are seen as major contributors to the workforce shortage, and novel solutions are needed to close the gap, experts argued in a recent presentation at the annual meeting of the American College of Rheumatology.

“It’s so important now to get ahead of this because what I’m afraid of is in 10-20 years, we’re not going to have a field,” Colleen Correll, MD, MPH, an associate professor in the division of pediatric rheumatology at the University of Minnesota Medical School in Minneapolis, told this news organization.
 

Growing Demand, Falling Supply

Because the subspecialty was officially recognized by the American Board of Pediatrics in 1991, “it’s always been a small group of providers,” Dr. Correll said. “It’s honestly always been a recognized issue in our field.”

But a 2022 report by the ACR on the pediatric workforce has brought more attention to the issue. Dr. Correll led the study and is the chair of ACR›s Pediatric Rheumatology Committee. According to the report, an estimated 287 pediatric rheumatologists were working as full-time clinicians in 2015, while the estimated demand was 382 providers. By 2030, this projected supply of pediatric rheumatologists fell to 261, while demand rose to 461 full-time providers.

The distribution of pediatric rheumatologists is also an issue. It’s generally thought that there should be at least one pediatric rheumatologist per 100,000 children, Dr. Correll explained. According to ACR estimates, the northeast region had approximately 0.83 pediatric rheumatologists per 100,000 in 2015, while the south central and southwest regions had 0.17 and 0.20 providers per 100,000 children, respectively. Projected estimates for 2030 dipped to 0.04 or lower for the south central, southwest, and southeast regions.

A separate study from the American Board of Pediatrics, also led by Dr. Correll, that is still under review offered more optimistic projections, suggesting that there would be a 75% increase in pediatric rheumatologists from 0.27 per 100,000 children in 2020 to 0.47 per 100,000 children in 2040.

“This does look better than the ACR study, though 0.47 is still a really small number and an inadequate number to treat our children in need,” she said during her presentation at the annual meeting of the American College of Rheumatology.
 

Lack of Exposure During Medical Education

Few medical schools have pediatric rheumatology built into their curriculum, whether that is a whole course or a single lecture, said Jay Mehta, MD, who directs the pediatric rheumatology fellowship at the Children’s Hospital of Philadelphia. Dr. Mehta, for example, did not know that pediatric rheumatology was a field before entering residency, he said. But residencies can also lack exposure: An estimated one third of residencies do not have a single pediatric rheumatologist on staff, he said.

Children&#039;s Hospital of Philadelphia

“Those are places where people aren’t necessarily getting exposure to pediatric rheumatology,” he told this news organization, “and we know that if you’re not exposed to a field, it’s very, very unlikely that you will go into that field.”

The ACR’s Pediatric Rheumatology Residency Program is one way that the organization is working to address this issue. The program sends pediatric residents with an interest in rheumatology to the ACR annual meeting. The Rheumatology Research Foundation also runs a visiting professorship program, where a pediatric rheumatologist conducts a rheumatology education forum at an institution with no pediatric rheumatology program.

“I’ve done it a couple of times,” Dr. Mehta said during his presentation at the annual meeting. “It’s one of the most rewarding things I’ve done.”
 

Financial Concerns

Additionally, although pediatric rheumatology requires more training, these subspecialists will likely make less than their general pediatric colleagues over their career. According to one study in Pediatrics, a pediatric resident pursuing rheumatology is projected to make $1.2 million dollars less over the course of their career compared with someone who started their career in general pediatrics immediately after residency. (Negative financial returns were also found for all pediatric subspecialities except for cardiology, critical care, and neonatology.)

This lower earning potential is likely a deterrent, especially for those with educational debt. In one analysis published in October, medical students with at least $200,000 in education debt were 43% more likely to go into higher-paying pediatric subspecialities than those with no debt. Nearly three out of four medical graduates have education debt, according to the American Association of Medical Colleges, with a median debt of $200,000.

While the Pediatric Specialty Loan Repayment Program was specifically designed to aid pediatric subspecialists with their educational debt, qualifying for the program is difficult for pediatric rheumatologists, explained Kristen N. Hayward, MD, of Seattle Children’s in Washington. The program provides up to $100,000 in loan forgiveness in exchange for 3 years of practicing in an underserved area; however, the program stipulates that providers must provide full-time (40 hours per week) clinical care. At academic institutions, where most pediatric rheumatologists practice, there is usually a research component to their position, and even if a provider works the equivalent of 40 hours per week in a clinic in addition to their research, they don’t qualify for the program, Dr. Hayward said.

“It’s very difficult to find someone who’s actually only doing clinical work,” she said.

The ACR has worked to combat some of these economic constraints by demonstrating the direct and downstream value of rheumatologic care, Dr. Hayward said. In a recent white paper, it was estimated that including office visits, consultations, lab testing, and radiology services, one full-time equivalent rheumatologist generates $3.5 million in revenue every year and saves health systems more than $2700 per patient per year.

In addition to placing greater value on rheumatologic care, the healthcare system also needs to recognize the current nonbillable hours that pediatric rheumatologists spend taking care of patients, Dr. Hayward noted.

Especially with electronic medical records (EMRs) and online communication with patients, “there is increasingly a lot of patient care that happens outside of clinic and that takes a lot of time,” Dr. Hayward said. For example, she spends between 1 and 2 hours every day in the EMR refilling medications and responding to patient concerns, and “that all is done in my spare time,” she said. “That’s not billed to the patient in anyway.”
 

Length of Fellowship

The pediatric rheumatology fellowship is a 3-year program — like other pediatric subspecialities — with a research requirement. By comparison, adult rheumatology fellowships are 2 years, and fellows can pursue additional research training if they have a strong interest.

“It sounds like just 1 more year, but I think it’s coming at a really pivotal point in people’s lives, and that 1 year can make a huge difference,” Dr. Hayward explained.

The 2 years of research might also be a deterrent for individuals who know they are only interested in clinical work, she added. About half of pediatric subspecialists only pursue clinical work after graduation, according to a recent report by the National Academies of Sciences, Engineering, and Medicine (NASEM) focused on the future pediatric physician workforce.

Additionally, only 17% of pediatric rheumatologists spend more than half of their time in research, said Fred Rivara, MD, MPH, chair of the NASEM report, in a statement included in Dr. Hayward’s ACR presentation. The report, which recommended strategies to bolster the pediatric workforce, argued that the American Board of Pediatrics should develop alternative training pathways, including 2-year, clinically heavy fellowships.

The ACR workforce team is also exploring alternative training models like competency-based education, Dr. Hayward said. The Education in Pediatrics Across the Continuum project is already using this approach from medical school to pediatric residency. While this type of outcome-based program has not been tried at the fellowship level, «this has been done, it could be done, and I think we could learn from our colleagues about how they have done this successfully,» she noted.

Ultimately, Dr. Hayward emphasized that there needs to be a “sea change” to close the workforce gap — with multiple interventions addressing these individual challenges.

“Unless we all pitch in and find one way that we can all move this issue forward, we are going to be drowning in a sea of Epic inbox messages,” she said, “and never get to see the patients we want to see.”

Dr. Hayward previously owned stock/stock options for AbbVie/Abbott, Cigna/Express Scripts, Merck, and Teva and has received an educational grant from Pfizer. Dr. Correll and Dr. Mehta had no relevant disclosures.

A version of this article appeared on Medscape.com.

Pediatric rheumatologists are calling a “Code (p)RED” — a pediatric rheumatology educational deficit.

There are too few pediatric rheumatologists to meet patient demand in the United States, and projections suggest that gap will continue to widen. Disappointing match trends also reflect issues with recruitment: Since 2019, only 50%-75% of pediatric rheumatology fellowship positions have been filled each year. For 2024, the subspecialty filled 32 of 52 positions.

University of Minnesota

Lack of exposure during medical school and residency, financial concerns, and a lengthy, research-focused fellowship are seen as major contributors to the workforce shortage, and novel solutions are needed to close the gap, experts argued in a recent presentation at the annual meeting of the American College of Rheumatology.

“It’s so important now to get ahead of this because what I’m afraid of is in 10-20 years, we’re not going to have a field,” Colleen Correll, MD, MPH, an associate professor in the division of pediatric rheumatology at the University of Minnesota Medical School in Minneapolis, told this news organization.
 

Growing Demand, Falling Supply

Because the subspecialty was officially recognized by the American Board of Pediatrics in 1991, “it’s always been a small group of providers,” Dr. Correll said. “It’s honestly always been a recognized issue in our field.”

But a 2022 report by the ACR on the pediatric workforce has brought more attention to the issue. Dr. Correll led the study and is the chair of ACR›s Pediatric Rheumatology Committee. According to the report, an estimated 287 pediatric rheumatologists were working as full-time clinicians in 2015, while the estimated demand was 382 providers. By 2030, this projected supply of pediatric rheumatologists fell to 261, while demand rose to 461 full-time providers.

The distribution of pediatric rheumatologists is also an issue. It’s generally thought that there should be at least one pediatric rheumatologist per 100,000 children, Dr. Correll explained. According to ACR estimates, the northeast region had approximately 0.83 pediatric rheumatologists per 100,000 in 2015, while the south central and southwest regions had 0.17 and 0.20 providers per 100,000 children, respectively. Projected estimates for 2030 dipped to 0.04 or lower for the south central, southwest, and southeast regions.

A separate study from the American Board of Pediatrics, also led by Dr. Correll, that is still under review offered more optimistic projections, suggesting that there would be a 75% increase in pediatric rheumatologists from 0.27 per 100,000 children in 2020 to 0.47 per 100,000 children in 2040.

“This does look better than the ACR study, though 0.47 is still a really small number and an inadequate number to treat our children in need,” she said during her presentation at the annual meeting of the American College of Rheumatology.
 

Lack of Exposure During Medical Education

Few medical schools have pediatric rheumatology built into their curriculum, whether that is a whole course or a single lecture, said Jay Mehta, MD, who directs the pediatric rheumatology fellowship at the Children’s Hospital of Philadelphia. Dr. Mehta, for example, did not know that pediatric rheumatology was a field before entering residency, he said. But residencies can also lack exposure: An estimated one third of residencies do not have a single pediatric rheumatologist on staff, he said.

Children&#039;s Hospital of Philadelphia

“Those are places where people aren’t necessarily getting exposure to pediatric rheumatology,” he told this news organization, “and we know that if you’re not exposed to a field, it’s very, very unlikely that you will go into that field.”

The ACR’s Pediatric Rheumatology Residency Program is one way that the organization is working to address this issue. The program sends pediatric residents with an interest in rheumatology to the ACR annual meeting. The Rheumatology Research Foundation also runs a visiting professorship program, where a pediatric rheumatologist conducts a rheumatology education forum at an institution with no pediatric rheumatology program.

“I’ve done it a couple of times,” Dr. Mehta said during his presentation at the annual meeting. “It’s one of the most rewarding things I’ve done.”
 

Financial Concerns

Additionally, although pediatric rheumatology requires more training, these subspecialists will likely make less than their general pediatric colleagues over their career. According to one study in Pediatrics, a pediatric resident pursuing rheumatology is projected to make $1.2 million dollars less over the course of their career compared with someone who started their career in general pediatrics immediately after residency. (Negative financial returns were also found for all pediatric subspecialities except for cardiology, critical care, and neonatology.)

This lower earning potential is likely a deterrent, especially for those with educational debt. In one analysis published in October, medical students with at least $200,000 in education debt were 43% more likely to go into higher-paying pediatric subspecialities than those with no debt. Nearly three out of four medical graduates have education debt, according to the American Association of Medical Colleges, with a median debt of $200,000.

While the Pediatric Specialty Loan Repayment Program was specifically designed to aid pediatric subspecialists with their educational debt, qualifying for the program is difficult for pediatric rheumatologists, explained Kristen N. Hayward, MD, of Seattle Children’s in Washington. The program provides up to $100,000 in loan forgiveness in exchange for 3 years of practicing in an underserved area; however, the program stipulates that providers must provide full-time (40 hours per week) clinical care. At academic institutions, where most pediatric rheumatologists practice, there is usually a research component to their position, and even if a provider works the equivalent of 40 hours per week in a clinic in addition to their research, they don’t qualify for the program, Dr. Hayward said.

“It’s very difficult to find someone who’s actually only doing clinical work,” she said.

The ACR has worked to combat some of these economic constraints by demonstrating the direct and downstream value of rheumatologic care, Dr. Hayward said. In a recent white paper, it was estimated that including office visits, consultations, lab testing, and radiology services, one full-time equivalent rheumatologist generates $3.5 million in revenue every year and saves health systems more than $2700 per patient per year.

In addition to placing greater value on rheumatologic care, the healthcare system also needs to recognize the current nonbillable hours that pediatric rheumatologists spend taking care of patients, Dr. Hayward noted.

Especially with electronic medical records (EMRs) and online communication with patients, “there is increasingly a lot of patient care that happens outside of clinic and that takes a lot of time,” Dr. Hayward said. For example, she spends between 1 and 2 hours every day in the EMR refilling medications and responding to patient concerns, and “that all is done in my spare time,” she said. “That’s not billed to the patient in anyway.”
 

Length of Fellowship

The pediatric rheumatology fellowship is a 3-year program — like other pediatric subspecialities — with a research requirement. By comparison, adult rheumatology fellowships are 2 years, and fellows can pursue additional research training if they have a strong interest.

“It sounds like just 1 more year, but I think it’s coming at a really pivotal point in people’s lives, and that 1 year can make a huge difference,” Dr. Hayward explained.

The 2 years of research might also be a deterrent for individuals who know they are only interested in clinical work, she added. About half of pediatric subspecialists only pursue clinical work after graduation, according to a recent report by the National Academies of Sciences, Engineering, and Medicine (NASEM) focused on the future pediatric physician workforce.

Additionally, only 17% of pediatric rheumatologists spend more than half of their time in research, said Fred Rivara, MD, MPH, chair of the NASEM report, in a statement included in Dr. Hayward’s ACR presentation. The report, which recommended strategies to bolster the pediatric workforce, argued that the American Board of Pediatrics should develop alternative training pathways, including 2-year, clinically heavy fellowships.

The ACR workforce team is also exploring alternative training models like competency-based education, Dr. Hayward said. The Education in Pediatrics Across the Continuum project is already using this approach from medical school to pediatric residency. While this type of outcome-based program has not been tried at the fellowship level, «this has been done, it could be done, and I think we could learn from our colleagues about how they have done this successfully,» she noted.

Ultimately, Dr. Hayward emphasized that there needs to be a “sea change” to close the workforce gap — with multiple interventions addressing these individual challenges.

“Unless we all pitch in and find one way that we can all move this issue forward, we are going to be drowning in a sea of Epic inbox messages,” she said, “and never get to see the patients we want to see.”

Dr. Hayward previously owned stock/stock options for AbbVie/Abbott, Cigna/Express Scripts, Merck, and Teva and has received an educational grant from Pfizer. Dr. Correll and Dr. Mehta had no relevant disclosures.

A version of this article appeared on Medscape.com.

SAN DIEGO — Only half of teens and young adults on teratogenic medication report being asked about sexual activity by their rheumatologist, and 38% did not know that their medication would be harmful to a fetus, according to a new survey.

While pediatric rheumatology providers may think that health screenings and contraceptive counseling are happening elsewhere, “this study suggests that a lot of patients are being missed, including those on teratogens,” noted Brittany M. Huynh, MD, MPH, a pediatric rheumatology fellow at the Indiana University School of Medicine in Indianapolis. She led the study and presented the findings at the American College of Rheumatology annual meeting.

Indiana University

For the study, Dr. Huynh and colleagues recruited patients aged 14-23 years who were assigned female at birth and were followed at pediatric rheumatology clinics affiliated with Indiana University. Participants completed a one-time survey between October 2020 and July 2022 and were asked about their sexual reproductive health experience and knowledge. Notably, all but four surveys were completed prior to the US Supreme Court Dobbs decision overturning Roe v. Wade.

Of responses from 108 participants, the most common diagnoses were juvenile idiopathic arthritis (52%) and systemic lupus erythematosus (16%). About one third (36%) of patients were on teratogenic medication, with the most common being methotrexate. About three fourths (76%) were White, and the average age of respondents was 16.7.

Most participants (82%) said they had been asked about sexual activity by a health care provider, but only 38% said their pediatric rheumatologist discussed this topic with them. Of the 39 patients on teratogenic medication, 54% said they had been asked about sexual activity by their pediatric rheumatologist, and only 51% said they had received teratogenicity counseling.

A larger percentage (85%) of this group reported receiving sexual activity screenings by any provider, but there was little difference in counseling about teratogenic medication.

This suggests that this type of risk counseling “is almost exclusively done by (pediatric rheumatologists), if at all,” Dr. Huynh noted during her presentation.

In total, 56% of all patients said a provider had talked to them about how to prevent pregnancy, and 20% said they had been counseled about how to get and use emergency contraception. Only 6% of patients said their pediatric rheumatologist had discussed emergency contraception during appointments.

Although sexual activity screenings were associated with current teratogen use, pregnancy prevention counseling and emergency contraceptive counseling were not associated with teratogen use or reported sexual activity.

The survey also revealed that there were gaps in knowledge about the health effects of rheumatic medication. Of the patients on teratogens, 38% did not know that their medication could harm a fetus if they became pregnant. Only 9% of patients not on teratogens correctly answered that their medication would not harm a fetus.

Previous studies have also shown that rheumatology patients do not know that their medications can be teratogenic, noted Cuoghi Edens, MD, a rheumatologist at the University of Chicago, who sees both adult and pediatric patients. She was not involved with the study. The larger challenge is how to best educate patients, she said.

While hopefully a patient’s primary care provider is discussing these issues with them, these patients often see their rheumatologist more frequently and more consistently than other providers, Dr. Edens said.

UChicago Medicine

“We are sometimes the continuity of care for the patient versus their primary care, even though it should be a group effort of trying to some of these questions,” she said.

Conducting reproductive health screenings in pediatric rheumatology clinics can be difficult though, Dr. Edens noted, not only because of time constraints but also because parents often attend appointments with their child and likely have been for years. These screenings are most accurate when done one-on-one, so pivoting and removing the parents from the room can be awkward for providers, Dr. Edens said.

She advised that starting these conversations early on can be one way to ease into talking about reproductive health. In her own practice, Dr. Huynh sets aside time during appointments to speak with adolescent patients privately.

“We always discuss teratogenic medication. I always talk to them about the fact that I’m going to be doing pregnancy testing with their other screening labs because of the risks associated,” she said. “I also specifically set time aside for patients on teratogens to talk about emergency contraception and offer a prescription, if they’re interested.”

Dr. Huynh emphasized that providing easy access to emergency contraception is key. The ACR reproductive health guidelines — although geared toward adults — recommend discussing emergency contraception with patients, and Dr. Huynh advocates writing prescriptions for interested patients.

“They can fill it and have it easily accessible, so that there are no additional barriers, particularly for people who have these higher risks,” she said.

While emergency contraceptives are also available over the counter, it can be awkward for young people to ask for them, she said, and they can be expensive if not covered under insurance. Providing a prescription is one way to avoid those issues, Dr. Huynh said.

“Certainly, you have to have some parent buy-in, because if there is going to be a script, it’s probably going to be under insurance,” she said. “But in my experience, parents are happy to have it around as long as you’re talking it through with them as well as the young person.”

Dr. Huynh and Dr. Edens had no disclosures.

A version of this article appeared on Medscape.com.

SAN DIEGO — Only half of teens and young adults on teratogenic medication report being asked about sexual activity by their rheumatologist, and 38% did not know that their medication would be harmful to a fetus, according to a new survey.

While pediatric rheumatology providers may think that health screenings and contraceptive counseling are happening elsewhere, “this study suggests that a lot of patients are being missed, including those on teratogens,” noted Brittany M. Huynh, MD, MPH, a pediatric rheumatology fellow at the Indiana University School of Medicine in Indianapolis. She led the study and presented the findings at the American College of Rheumatology annual meeting.

Indiana University

For the study, Dr. Huynh and colleagues recruited patients aged 14-23 years who were assigned female at birth and were followed at pediatric rheumatology clinics affiliated with Indiana University. Participants completed a one-time survey between October 2020 and July 2022 and were asked about their sexual reproductive health experience and knowledge. Notably, all but four surveys were completed prior to the US Supreme Court Dobbs decision overturning Roe v. Wade.

Of responses from 108 participants, the most common diagnoses were juvenile idiopathic arthritis (52%) and systemic lupus erythematosus (16%). About one third (36%) of patients were on teratogenic medication, with the most common being methotrexate. About three fourths (76%) were White, and the average age of respondents was 16.7.

Most participants (82%) said they had been asked about sexual activity by a health care provider, but only 38% said their pediatric rheumatologist discussed this topic with them. Of the 39 patients on teratogenic medication, 54% said they had been asked about sexual activity by their pediatric rheumatologist, and only 51% said they had received teratogenicity counseling.

A larger percentage (85%) of this group reported receiving sexual activity screenings by any provider, but there was little difference in counseling about teratogenic medication.

This suggests that this type of risk counseling “is almost exclusively done by (pediatric rheumatologists), if at all,” Dr. Huynh noted during her presentation.

In total, 56% of all patients said a provider had talked to them about how to prevent pregnancy, and 20% said they had been counseled about how to get and use emergency contraception. Only 6% of patients said their pediatric rheumatologist had discussed emergency contraception during appointments.

Although sexual activity screenings were associated with current teratogen use, pregnancy prevention counseling and emergency contraceptive counseling were not associated with teratogen use or reported sexual activity.

The survey also revealed that there were gaps in knowledge about the health effects of rheumatic medication. Of the patients on teratogens, 38% did not know that their medication could harm a fetus if they became pregnant. Only 9% of patients not on teratogens correctly answered that their medication would not harm a fetus.

Previous studies have also shown that rheumatology patients do not know that their medications can be teratogenic, noted Cuoghi Edens, MD, a rheumatologist at the University of Chicago, who sees both adult and pediatric patients. She was not involved with the study. The larger challenge is how to best educate patients, she said.

While hopefully a patient’s primary care provider is discussing these issues with them, these patients often see their rheumatologist more frequently and more consistently than other providers, Dr. Edens said.

UChicago Medicine

“We are sometimes the continuity of care for the patient versus their primary care, even though it should be a group effort of trying to some of these questions,” she said.

Conducting reproductive health screenings in pediatric rheumatology clinics can be difficult though, Dr. Edens noted, not only because of time constraints but also because parents often attend appointments with their child and likely have been for years. These screenings are most accurate when done one-on-one, so pivoting and removing the parents from the room can be awkward for providers, Dr. Edens said.

She advised that starting these conversations early on can be one way to ease into talking about reproductive health. In her own practice, Dr. Huynh sets aside time during appointments to speak with adolescent patients privately.

“We always discuss teratogenic medication. I always talk to them about the fact that I’m going to be doing pregnancy testing with their other screening labs because of the risks associated,” she said. “I also specifically set time aside for patients on teratogens to talk about emergency contraception and offer a prescription, if they’re interested.”

Dr. Huynh emphasized that providing easy access to emergency contraception is key. The ACR reproductive health guidelines — although geared toward adults — recommend discussing emergency contraception with patients, and Dr. Huynh advocates writing prescriptions for interested patients.

“They can fill it and have it easily accessible, so that there are no additional barriers, particularly for people who have these higher risks,” she said.

While emergency contraceptives are also available over the counter, it can be awkward for young people to ask for them, she said, and they can be expensive if not covered under insurance. Providing a prescription is one way to avoid those issues, Dr. Huynh said.

“Certainly, you have to have some parent buy-in, because if there is going to be a script, it’s probably going to be under insurance,” she said. “But in my experience, parents are happy to have it around as long as you’re talking it through with them as well as the young person.”

Dr. Huynh and Dr. Edens had no disclosures.

A version of this article appeared on Medscape.com.

SAN DIEGO — Only half of teens and young adults on teratogenic medication report being asked about sexual activity by their rheumatologist, and 38% did not know that their medication would be harmful to a fetus, according to a new survey.

While pediatric rheumatology providers may think that health screenings and contraceptive counseling are happening elsewhere, “this study suggests that a lot of patients are being missed, including those on teratogens,” noted Brittany M. Huynh, MD, MPH, a pediatric rheumatology fellow at the Indiana University School of Medicine in Indianapolis. She led the study and presented the findings at the American College of Rheumatology annual meeting.

Indiana University

For the study, Dr. Huynh and colleagues recruited patients aged 14-23 years who were assigned female at birth and were followed at pediatric rheumatology clinics affiliated with Indiana University. Participants completed a one-time survey between October 2020 and July 2022 and were asked about their sexual reproductive health experience and knowledge. Notably, all but four surveys were completed prior to the US Supreme Court Dobbs decision overturning Roe v. Wade.

Of responses from 108 participants, the most common diagnoses were juvenile idiopathic arthritis (52%) and systemic lupus erythematosus (16%). About one third (36%) of patients were on teratogenic medication, with the most common being methotrexate. About three fourths (76%) were White, and the average age of respondents was 16.7.

Most participants (82%) said they had been asked about sexual activity by a health care provider, but only 38% said their pediatric rheumatologist discussed this topic with them. Of the 39 patients on teratogenic medication, 54% said they had been asked about sexual activity by their pediatric rheumatologist, and only 51% said they had received teratogenicity counseling.

A larger percentage (85%) of this group reported receiving sexual activity screenings by any provider, but there was little difference in counseling about teratogenic medication.

This suggests that this type of risk counseling “is almost exclusively done by (pediatric rheumatologists), if at all,” Dr. Huynh noted during her presentation.

In total, 56% of all patients said a provider had talked to them about how to prevent pregnancy, and 20% said they had been counseled about how to get and use emergency contraception. Only 6% of patients said their pediatric rheumatologist had discussed emergency contraception during appointments.

Although sexual activity screenings were associated with current teratogen use, pregnancy prevention counseling and emergency contraceptive counseling were not associated with teratogen use or reported sexual activity.

The survey also revealed that there were gaps in knowledge about the health effects of rheumatic medication. Of the patients on teratogens, 38% did not know that their medication could harm a fetus if they became pregnant. Only 9% of patients not on teratogens correctly answered that their medication would not harm a fetus.

Previous studies have also shown that rheumatology patients do not know that their medications can be teratogenic, noted Cuoghi Edens, MD, a rheumatologist at the University of Chicago, who sees both adult and pediatric patients. She was not involved with the study. The larger challenge is how to best educate patients, she said.

While hopefully a patient’s primary care provider is discussing these issues with them, these patients often see their rheumatologist more frequently and more consistently than other providers, Dr. Edens said.

UChicago Medicine

“We are sometimes the continuity of care for the patient versus their primary care, even though it should be a group effort of trying to some of these questions,” she said.

Conducting reproductive health screenings in pediatric rheumatology clinics can be difficult though, Dr. Edens noted, not only because of time constraints but also because parents often attend appointments with their child and likely have been for years. These screenings are most accurate when done one-on-one, so pivoting and removing the parents from the room can be awkward for providers, Dr. Edens said.

She advised that starting these conversations early on can be one way to ease into talking about reproductive health. In her own practice, Dr. Huynh sets aside time during appointments to speak with adolescent patients privately.

“We always discuss teratogenic medication. I always talk to them about the fact that I’m going to be doing pregnancy testing with their other screening labs because of the risks associated,” she said. “I also specifically set time aside for patients on teratogens to talk about emergency contraception and offer a prescription, if they’re interested.”

Dr. Huynh emphasized that providing easy access to emergency contraception is key. The ACR reproductive health guidelines — although geared toward adults — recommend discussing emergency contraception with patients, and Dr. Huynh advocates writing prescriptions for interested patients.

“They can fill it and have it easily accessible, so that there are no additional barriers, particularly for people who have these higher risks,” she said.

While emergency contraceptives are also available over the counter, it can be awkward for young people to ask for them, she said, and they can be expensive if not covered under insurance. Providing a prescription is one way to avoid those issues, Dr. Huynh said.

“Certainly, you have to have some parent buy-in, because if there is going to be a script, it’s probably going to be under insurance,” she said. “But in my experience, parents are happy to have it around as long as you’re talking it through with them as well as the young person.”

Dr. Huynh and Dr. Edens had no disclosures.

A version of this article appeared on Medscape.com.

TOPLINE:

In individuals with low B-cell counts, T cells have enhanced responses to COVID-19 vaccination and may help prevent severe disease after infection.

METHODOLOGY:

• How the immune systems of B cell–deficient patients respond to SARS-CoV-2 infection and vaccination is not fully understood.
• Researchers evaluated anti–SARS-CoV-2 T-cell responses in 33 patients treated with rituximab (RTX), 12 patients with common variable immune deficiency, and 44 controls.
• The study analyzed effector and memory CD4+ and CD8+ T-cell responses to SARS-CoV-2 after infection and vaccination.

TAKEAWAY: 

• All B cell–deficient individuals (those treated with RTX or those with a diagnosis of common variable immune deficiency) had increased effector and memory T-cell responses after SARS-CoV-2 vaccination, compared with controls.
• Patients treated with RTX who were vaccinated against COVID-19 had 4.8-fold reduced odds of moderate or severe disease. (These data were not available for patients with common variable immune deficiency.)
• RTX treatment was associated with a decrease in preexisting T-cell immunity in unvaccinated patients, regardless of prior infection with SARS-CoV-2.
• This association was not found in vaccinated patients treated with RTX.

IN PRACTICE:

“[These findings] provide support for vaccination in this vulnerable population and demonstrate the potential benefit of vaccine-induced CD8+ T-cell responses on reducing disease severity from SARS-CoV-2 infection in the absence of spike protein–specific antibodies,” the authors wrote.

SOURCE:

The study was published online on November 29 in Science Translational Medicine. The first author is Reza Zonozi, MD, who conducted the research while at Massachusetts General Hospital, Boston, and is now in private practice in northern Virginia. 

LIMITATIONS:

Researchers did not obtain specimens from patients with common variable immune deficiency after SARS-CoV-2 infection. Only a small subset of immunophenotyped participants had subsequent SARS-CoV-2 infection.

DISCLOSURES:

The research was supported by grants from the National Institutes of Health, the Centers for Disease Control and Prevention, the Howard Hughes Medical Institute, the Ragon Institute of Massachusetts General Hospital, Massachusetts Institute of Technology, and Harvard Medical School, the Mark and Lisa Schwartz Foundation and E. Schwartz; the Lambertus Family Foundation; and S. Edgerly and P. Edgerly. Four authors reported relationships with pharmaceutical companies including AbbVie, Bristol-Myers Squibb, Boehringer Ingelheim, Gilead Sciences, Merck, and Pfizer.

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

TOPLINE:

In individuals with low B-cell counts, T cells have enhanced responses to COVID-19 vaccination and may help prevent severe disease after infection.

METHODOLOGY:

• How the immune systems of B cell–deficient patients respond to SARS-CoV-2 infection and vaccination is not fully understood.
• Researchers evaluated anti–SARS-CoV-2 T-cell responses in 33 patients treated with rituximab (RTX), 12 patients with common variable immune deficiency, and 44 controls.
• The study analyzed effector and memory CD4+ and CD8+ T-cell responses to SARS-CoV-2 after infection and vaccination.

TAKEAWAY: 

• All B cell–deficient individuals (those treated with RTX or those with a diagnosis of common variable immune deficiency) had increased effector and memory T-cell responses after SARS-CoV-2 vaccination, compared with controls.
• Patients treated with RTX who were vaccinated against COVID-19 had 4.8-fold reduced odds of moderate or severe disease. (These data were not available for patients with common variable immune deficiency.)
• RTX treatment was associated with a decrease in preexisting T-cell immunity in unvaccinated patients, regardless of prior infection with SARS-CoV-2.
• This association was not found in vaccinated patients treated with RTX.

IN PRACTICE:

“[These findings] provide support for vaccination in this vulnerable population and demonstrate the potential benefit of vaccine-induced CD8+ T-cell responses on reducing disease severity from SARS-CoV-2 infection in the absence of spike protein–specific antibodies,” the authors wrote.

SOURCE:

The study was published online on November 29 in Science Translational Medicine. The first author is Reza Zonozi, MD, who conducted the research while at Massachusetts General Hospital, Boston, and is now in private practice in northern Virginia. 

LIMITATIONS:

Researchers did not obtain specimens from patients with common variable immune deficiency after SARS-CoV-2 infection. Only a small subset of immunophenotyped participants had subsequent SARS-CoV-2 infection.

DISCLOSURES:

The research was supported by grants from the National Institutes of Health, the Centers for Disease Control and Prevention, the Howard Hughes Medical Institute, the Ragon Institute of Massachusetts General Hospital, Massachusetts Institute of Technology, and Harvard Medical School, the Mark and Lisa Schwartz Foundation and E. Schwartz; the Lambertus Family Foundation; and S. Edgerly and P. Edgerly. Four authors reported relationships with pharmaceutical companies including AbbVie, Bristol-Myers Squibb, Boehringer Ingelheim, Gilead Sciences, Merck, and Pfizer.

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

TOPLINE:

In individuals with low B-cell counts, T cells have enhanced responses to COVID-19 vaccination and may help prevent severe disease after infection.

METHODOLOGY:

• How the immune systems of B cell–deficient patients respond to SARS-CoV-2 infection and vaccination is not fully understood.
• Researchers evaluated anti–SARS-CoV-2 T-cell responses in 33 patients treated with rituximab (RTX), 12 patients with common variable immune deficiency, and 44 controls.
• The study analyzed effector and memory CD4+ and CD8+ T-cell responses to SARS-CoV-2 after infection and vaccination.

TAKEAWAY: 

• All B cell–deficient individuals (those treated with RTX or those with a diagnosis of common variable immune deficiency) had increased effector and memory T-cell responses after SARS-CoV-2 vaccination, compared with controls.
• Patients treated with RTX who were vaccinated against COVID-19 had 4.8-fold reduced odds of moderate or severe disease. (These data were not available for patients with common variable immune deficiency.)
• RTX treatment was associated with a decrease in preexisting T-cell immunity in unvaccinated patients, regardless of prior infection with SARS-CoV-2.
• This association was not found in vaccinated patients treated with RTX.

IN PRACTICE:

“[These findings] provide support for vaccination in this vulnerable population and demonstrate the potential benefit of vaccine-induced CD8+ T-cell responses on reducing disease severity from SARS-CoV-2 infection in the absence of spike protein–specific antibodies,” the authors wrote.

SOURCE:

The study was published online on November 29 in Science Translational Medicine. The first author is Reza Zonozi, MD, who conducted the research while at Massachusetts General Hospital, Boston, and is now in private practice in northern Virginia. 

LIMITATIONS:

Researchers did not obtain specimens from patients with common variable immune deficiency after SARS-CoV-2 infection. Only a small subset of immunophenotyped participants had subsequent SARS-CoV-2 infection.

DISCLOSURES:

The research was supported by grants from the National Institutes of Health, the Centers for Disease Control and Prevention, the Howard Hughes Medical Institute, the Ragon Institute of Massachusetts General Hospital, Massachusetts Institute of Technology, and Harvard Medical School, the Mark and Lisa Schwartz Foundation and E. Schwartz; the Lambertus Family Foundation; and S. Edgerly and P. Edgerly. Four authors reported relationships with pharmaceutical companies including AbbVie, Bristol-Myers Squibb, Boehringer Ingelheim, Gilead Sciences, Merck, and Pfizer.

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

While adult rheumatology programs continue to have high match rates, pediatric rheumatology programs remain less popular.

The National Residency Matching Program (NRMP) reported on Nov. 29 that rheumatology filled 124 of 127 programs (97.6%), with 273 (98.9%) of 276 positions filled. Comparatively, pediatric rheumatology filled 21 out of 38 programs (55%) and 32 (61.5%) of 52 positions.

This year, the number of programs and positions across all specialties rose by 3%, whereas the number of applications only rose by 0.4% (35 additional applicants).

“The growth of fellowship programs and positions in the Match reflect training opportunities and the future workforce trends of medical subspecialties,” said NRMP President Donna Lamb, DHSc, MBA, BSN, in a statement. “While the increase in applicant numbers did not keep pace with the increase in positions this year, the Match rate for applicants remains strong at 82%.”

In adult rheumatology, matched applicants included 117 MD graduates, 86 foreign applicants, 38 DO graduates, and 32 U.S. citizen international medical graduates. A total of 348 applicants preferred the specialty, and 78% matched to rheumatology, whereas 2% matched to a different specialty. Another 70 applicants (20%) did not match to any program.

In pediatric rheumatology, matched applicants included 23 MD graduates, 6 DO graduates, and 3 foreign applicants. All applicants who preferred pediatric rheumatology matched to a program.

Adult rheumatology was one of several specialties that filled over 95% of positions. The other specialties that matched at that rate were allergy and immunology, cardiovascular disease, clinical cardiac electrophysiology, critical care medicine, gastroenterology, hematology and oncology, and pulmonary/critical care. Interventional Pulmonology and Oncology was the only specialty to achieve a 100% fill rate.

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

While adult rheumatology programs continue to have high match rates, pediatric rheumatology programs remain less popular.

The National Residency Matching Program (NRMP) reported on Nov. 29 that rheumatology filled 124 of 127 programs (97.6%), with 273 (98.9%) of 276 positions filled. Comparatively, pediatric rheumatology filled 21 out of 38 programs (55%) and 32 (61.5%) of 52 positions.

This year, the number of programs and positions across all specialties rose by 3%, whereas the number of applications only rose by 0.4% (35 additional applicants).

“The growth of fellowship programs and positions in the Match reflect training opportunities and the future workforce trends of medical subspecialties,” said NRMP President Donna Lamb, DHSc, MBA, BSN, in a statement. “While the increase in applicant numbers did not keep pace with the increase in positions this year, the Match rate for applicants remains strong at 82%.”

In adult rheumatology, matched applicants included 117 MD graduates, 86 foreign applicants, 38 DO graduates, and 32 U.S. citizen international medical graduates. A total of 348 applicants preferred the specialty, and 78% matched to rheumatology, whereas 2% matched to a different specialty. Another 70 applicants (20%) did not match to any program.

In pediatric rheumatology, matched applicants included 23 MD graduates, 6 DO graduates, and 3 foreign applicants. All applicants who preferred pediatric rheumatology matched to a program.

Adult rheumatology was one of several specialties that filled over 95% of positions. The other specialties that matched at that rate were allergy and immunology, cardiovascular disease, clinical cardiac electrophysiology, critical care medicine, gastroenterology, hematology and oncology, and pulmonary/critical care. Interventional Pulmonology and Oncology was the only specialty to achieve a 100% fill rate.

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

While adult rheumatology programs continue to have high match rates, pediatric rheumatology programs remain less popular.

The National Residency Matching Program (NRMP) reported on Nov. 29 that rheumatology filled 124 of 127 programs (97.6%), with 273 (98.9%) of 276 positions filled. Comparatively, pediatric rheumatology filled 21 out of 38 programs (55%) and 32 (61.5%) of 52 positions.

This year, the number of programs and positions across all specialties rose by 3%, whereas the number of applications only rose by 0.4% (35 additional applicants).

“The growth of fellowship programs and positions in the Match reflect training opportunities and the future workforce trends of medical subspecialties,” said NRMP President Donna Lamb, DHSc, MBA, BSN, in a statement. “While the increase in applicant numbers did not keep pace with the increase in positions this year, the Match rate for applicants remains strong at 82%.”

In adult rheumatology, matched applicants included 117 MD graduates, 86 foreign applicants, 38 DO graduates, and 32 U.S. citizen international medical graduates. A total of 348 applicants preferred the specialty, and 78% matched to rheumatology, whereas 2% matched to a different specialty. Another 70 applicants (20%) did not match to any program.

In pediatric rheumatology, matched applicants included 23 MD graduates, 6 DO graduates, and 3 foreign applicants. All applicants who preferred pediatric rheumatology matched to a program.

Adult rheumatology was one of several specialties that filled over 95% of positions. The other specialties that matched at that rate were allergy and immunology, cardiovascular disease, clinical cardiac electrophysiology, critical care medicine, gastroenterology, hematology and oncology, and pulmonary/critical care. Interventional Pulmonology and Oncology was the only specialty to achieve a 100% fill rate.

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

TOPLINE:

Patients report higher satisfaction with in-person rheumatology visits over telemedicine appointments, according to new research.

METHODOLOGY:

• Investigators recruited established patients at rheumatology clinics at two tertiary medical centers (the University of Alabama at Birmingham and the University of California, San Francisco) from August 2021 to November 2022.
• 501 patients were randomly assigned to have in-person or telehealth appointments.
• After their visits, patients rated satisfaction using a 10-point Likert scale.
• The investigators compared the two visit types with regard to high post-visit satisfaction (score of 9 or 10).

TAKEAWAY:

• 90.1% of the patients who received in-person appointments were highly satisfied with their visit, compared with 76.7% of the telemedicine group.
• Nearly half of the telemedicine group (47.7%) said they would prefer an in-person visit for their next appointment, and 55.6% of the in-person group wanted the same type of visit for their next encounter.
• Less than 1 in 5 people in either group said they preferred telemedicine for their next visit.
• There was no difference between the two groups in self-efficacy for managing medications or medication adherence.

IN PRACTICE:

There was high satisfaction in both groups, but patients tended to prefer in-person to telemedicine visits for their rheumatology care.

SOURCE:

The study was presented at the annual meeting of the American College of Rheumatology by lead author Lesley E. Jackson, MD, of the University of Alabama at Birmingham.

LIMITATIONS:

The study population was mostly female (84%) and from one geographic area.

DISCLOSURES:

Funding was provided by the Rheumatology Research Foundation Innovative Research Award. The authors disclosed relationships with AbbVie, AstraZeneca, Gilead, Pfizer, and several other biopharmaceutical companies.

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

TOPLINE:

Patients report higher satisfaction with in-person rheumatology visits over telemedicine appointments, according to new research.

METHODOLOGY:

• Investigators recruited established patients at rheumatology clinics at two tertiary medical centers (the University of Alabama at Birmingham and the University of California, San Francisco) from August 2021 to November 2022.
• 501 patients were randomly assigned to have in-person or telehealth appointments.
• After their visits, patients rated satisfaction using a 10-point Likert scale.
• The investigators compared the two visit types with regard to high post-visit satisfaction (score of 9 or 10).

TAKEAWAY:

• 90.1% of the patients who received in-person appointments were highly satisfied with their visit, compared with 76.7% of the telemedicine group.
• Nearly half of the telemedicine group (47.7%) said they would prefer an in-person visit for their next appointment, and 55.6% of the in-person group wanted the same type of visit for their next encounter.
• Less than 1 in 5 people in either group said they preferred telemedicine for their next visit.
• There was no difference between the two groups in self-efficacy for managing medications or medication adherence.

IN PRACTICE:

There was high satisfaction in both groups, but patients tended to prefer in-person to telemedicine visits for their rheumatology care.

SOURCE:

The study was presented at the annual meeting of the American College of Rheumatology by lead author Lesley E. Jackson, MD, of the University of Alabama at Birmingham.

LIMITATIONS:

The study population was mostly female (84%) and from one geographic area.

DISCLOSURES:

Funding was provided by the Rheumatology Research Foundation Innovative Research Award. The authors disclosed relationships with AbbVie, AstraZeneca, Gilead, Pfizer, and several other biopharmaceutical companies.

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

TOPLINE:

Patients report higher satisfaction with in-person rheumatology visits over telemedicine appointments, according to new research.

METHODOLOGY:

• Investigators recruited established patients at rheumatology clinics at two tertiary medical centers (the University of Alabama at Birmingham and the University of California, San Francisco) from August 2021 to November 2022.
• 501 patients were randomly assigned to have in-person or telehealth appointments.
• After their visits, patients rated satisfaction using a 10-point Likert scale.
• The investigators compared the two visit types with regard to high post-visit satisfaction (score of 9 or 10).

TAKEAWAY:

• 90.1% of the patients who received in-person appointments were highly satisfied with their visit, compared with 76.7% of the telemedicine group.
• Nearly half of the telemedicine group (47.7%) said they would prefer an in-person visit for their next appointment, and 55.6% of the in-person group wanted the same type of visit for their next encounter.
• Less than 1 in 5 people in either group said they preferred telemedicine for their next visit.
• There was no difference between the two groups in self-efficacy for managing medications or medication adherence.

IN PRACTICE:

There was high satisfaction in both groups, but patients tended to prefer in-person to telemedicine visits for their rheumatology care.

SOURCE:

The study was presented at the annual meeting of the American College of Rheumatology by lead author Lesley E. Jackson, MD, of the University of Alabama at Birmingham.

LIMITATIONS:

The study population was mostly female (84%) and from one geographic area.

DISCLOSURES:

Funding was provided by the Rheumatology Research Foundation Innovative Research Award. The authors disclosed relationships with AbbVie, AstraZeneca, Gilead, Pfizer, and several other biopharmaceutical companies.

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

SAN DIEGO – In pregnant women with systemic lupus erythematosus (SLE), those with ill-timed pregnancies had poorer pregnancy outcomes, including preeclampsia and preterm birth.

Women with autoimmune conditions are at an increased risk for pregnancy complications, including pregnancy loss, preterm delivery, and increased need for cesarean delivery, said Catherine Sims, MD, a rheumatologist at Duke Health in Durham, N.C., who is focused on reproductive rheumatology. “The natural question, both clinically and from a research perspective, is: ‘What can we do in order to mitigate or minimize these complications?’ ” she said during a presentation at the annual meeting of the American College of Rheumatology.

Lucy Hicks/Medscape Medical News

While research suggests that patients who plan their pregnancies during times of well-controlled disease have the “best chances of improved pregnancy outcomes,” Dr. Sims and colleagues wanted to quantify how planning for pregnancy affected reproductive outcomes.

Dr. Sims recruited pregnant women with SLE and assessed if the women were medically optimized for pregnancy, if the pregnancy was intended, or both. Intended pregnancy was assessed by using a validated self-reported survey called the London Measure of Unplanned Pregnancy. Pregnant women were considered “medically optimized” for pregnancy if they were not on teratogenic medication, had continued pregnancy-compatible SLE medications, and had a urine protein-creatinine ratio of less than 1 gram in the 6 months prior to or during the first trimester. Intended pregnancies that were medically optimized were classified as “well timed.”

Of the 115 women enrolled in the study, about half had well-timed pregnancies, 20% were neither intended nor medically optimized, 17% were not intended but medically optimized, and 13% were intended but not medically optimized.

Women with ill-timed pregnancy – either not medically optimized and/or unintended – were generally younger and more likely to be single, on Medicare or Medicaid, and on income of less than $50,000 per year.

Ill-timed pregnancies had higher rates of mycophenolate exposure and higher physician-reported SLE disease activity. While patient-reported SLE activity was higher in patients who were not personally ready for pregnancy, in patients who had an intended pregnancy, there was no difference in self-reported SLE activity between those that were medically optimized and those not medically optimized.

“About a third of our patients are actually underestimating their true disease activity level when they are preparing for pregnancy,” Dr. Sims said. For example, while persistent proteinuria in a patient would drive up physician assessment of disease activity, the patient may not be experiencing any symptoms and is unaware of her condition.

In terms of pregnancy outcomes, women with unintended pregnancies had a 2.5 times higher incidence of preeclampsia, compared with those with intended pregnancies. Patients with unplanned pregnancies were also significantly more likely to experience stillbirth.

Women who were not medically optimized for pregnancy were three times as likely to experience preterm birth and preeclampsia compared with those with optimized pregnancies.

These outcomes drive home the importance of optimizing patients for pregnancy, Dr. Sims said, and effectively communicating this importance to patients, especially when they might not be perceiving their disease activity.

The study’s findings show providers “what we thought we knew, which is that there are some patients that are not as aware of their risk,” commented Lisa R. Sammaritano, MD, Hospital for Special Surgery, New York, who moderated the session where the research was presented. “It brings home the importance of counselling our patients about contraception [as well as] the importance of planning.”

Dr. Sims added that it is “crucial” to make this information easily accessible and digestible to patients. One important resource she mentioned is the HOP-STEP program, which stands for Healthy Outcomes in Pregnancy with SLE Through Education of Providers. The program, directed by researchers at Duke University, is designed to improve pregnancy planning in people with lupus. Direct-to-patient resources are key, she said, as patients can often be nervous to ask about pregnancy planning during appointments.

“They won’t want to bring a pregnancy with me in clinic because they’re afraid I’m just going to say, ‘don’t do it,’ ” Dr. Sims said. “But we are making decisions with the patient. Our patients are not asking for permission, but telling us what they want, and we need to meet them where they are at.”

A version of this article appeared on Medscape.com.

SAN DIEGO – In pregnant women with systemic lupus erythematosus (SLE), those with ill-timed pregnancies had poorer pregnancy outcomes, including preeclampsia and preterm birth.

Women with autoimmune conditions are at an increased risk for pregnancy complications, including pregnancy loss, preterm delivery, and increased need for cesarean delivery, said Catherine Sims, MD, a rheumatologist at Duke Health in Durham, N.C., who is focused on reproductive rheumatology. “The natural question, both clinically and from a research perspective, is: ‘What can we do in order to mitigate or minimize these complications?’ ” she said during a presentation at the annual meeting of the American College of Rheumatology.

Lucy Hicks/Medscape Medical News

While research suggests that patients who plan their pregnancies during times of well-controlled disease have the “best chances of improved pregnancy outcomes,” Dr. Sims and colleagues wanted to quantify how planning for pregnancy affected reproductive outcomes.

Dr. Sims recruited pregnant women with SLE and assessed if the women were medically optimized for pregnancy, if the pregnancy was intended, or both. Intended pregnancy was assessed by using a validated self-reported survey called the London Measure of Unplanned Pregnancy. Pregnant women were considered “medically optimized” for pregnancy if they were not on teratogenic medication, had continued pregnancy-compatible SLE medications, and had a urine protein-creatinine ratio of less than 1 gram in the 6 months prior to or during the first trimester. Intended pregnancies that were medically optimized were classified as “well timed.”

Of the 115 women enrolled in the study, about half had well-timed pregnancies, 20% were neither intended nor medically optimized, 17% were not intended but medically optimized, and 13% were intended but not medically optimized.

Women with ill-timed pregnancy – either not medically optimized and/or unintended – were generally younger and more likely to be single, on Medicare or Medicaid, and on income of less than $50,000 per year.

Ill-timed pregnancies had higher rates of mycophenolate exposure and higher physician-reported SLE disease activity. While patient-reported SLE activity was higher in patients who were not personally ready for pregnancy, in patients who had an intended pregnancy, there was no difference in self-reported SLE activity between those that were medically optimized and those not medically optimized.

“About a third of our patients are actually underestimating their true disease activity level when they are preparing for pregnancy,” Dr. Sims said. For example, while persistent proteinuria in a patient would drive up physician assessment of disease activity, the patient may not be experiencing any symptoms and is unaware of her condition.

In terms of pregnancy outcomes, women with unintended pregnancies had a 2.5 times higher incidence of preeclampsia, compared with those with intended pregnancies. Patients with unplanned pregnancies were also significantly more likely to experience stillbirth.

Women who were not medically optimized for pregnancy were three times as likely to experience preterm birth and preeclampsia compared with those with optimized pregnancies.

These outcomes drive home the importance of optimizing patients for pregnancy, Dr. Sims said, and effectively communicating this importance to patients, especially when they might not be perceiving their disease activity.

The study’s findings show providers “what we thought we knew, which is that there are some patients that are not as aware of their risk,” commented Lisa R. Sammaritano, MD, Hospital for Special Surgery, New York, who moderated the session where the research was presented. “It brings home the importance of counselling our patients about contraception [as well as] the importance of planning.”

Dr. Sims added that it is “crucial” to make this information easily accessible and digestible to patients. One important resource she mentioned is the HOP-STEP program, which stands for Healthy Outcomes in Pregnancy with SLE Through Education of Providers. The program, directed by researchers at Duke University, is designed to improve pregnancy planning in people with lupus. Direct-to-patient resources are key, she said, as patients can often be nervous to ask about pregnancy planning during appointments.

“They won’t want to bring a pregnancy with me in clinic because they’re afraid I’m just going to say, ‘don’t do it,’ ” Dr. Sims said. “But we are making decisions with the patient. Our patients are not asking for permission, but telling us what they want, and we need to meet them where they are at.”

A version of this article appeared on Medscape.com.

SAN DIEGO – In pregnant women with systemic lupus erythematosus (SLE), those with ill-timed pregnancies had poorer pregnancy outcomes, including preeclampsia and preterm birth.

Women with autoimmune conditions are at an increased risk for pregnancy complications, including pregnancy loss, preterm delivery, and increased need for cesarean delivery, said Catherine Sims, MD, a rheumatologist at Duke Health in Durham, N.C., who is focused on reproductive rheumatology. “The natural question, both clinically and from a research perspective, is: ‘What can we do in order to mitigate or minimize these complications?’ ” she said during a presentation at the annual meeting of the American College of Rheumatology.

Lucy Hicks/Medscape Medical News

While research suggests that patients who plan their pregnancies during times of well-controlled disease have the “best chances of improved pregnancy outcomes,” Dr. Sims and colleagues wanted to quantify how planning for pregnancy affected reproductive outcomes.

Dr. Sims recruited pregnant women with SLE and assessed if the women were medically optimized for pregnancy, if the pregnancy was intended, or both. Intended pregnancy was assessed by using a validated self-reported survey called the London Measure of Unplanned Pregnancy. Pregnant women were considered “medically optimized” for pregnancy if they were not on teratogenic medication, had continued pregnancy-compatible SLE medications, and had a urine protein-creatinine ratio of less than 1 gram in the 6 months prior to or during the first trimester. Intended pregnancies that were medically optimized were classified as “well timed.”

Of the 115 women enrolled in the study, about half had well-timed pregnancies, 20% were neither intended nor medically optimized, 17% were not intended but medically optimized, and 13% were intended but not medically optimized.

Women with ill-timed pregnancy – either not medically optimized and/or unintended – were generally younger and more likely to be single, on Medicare or Medicaid, and on income of less than $50,000 per year.

Ill-timed pregnancies had higher rates of mycophenolate exposure and higher physician-reported SLE disease activity. While patient-reported SLE activity was higher in patients who were not personally ready for pregnancy, in patients who had an intended pregnancy, there was no difference in self-reported SLE activity between those that were medically optimized and those not medically optimized.

“About a third of our patients are actually underestimating their true disease activity level when they are preparing for pregnancy,” Dr. Sims said. For example, while persistent proteinuria in a patient would drive up physician assessment of disease activity, the patient may not be experiencing any symptoms and is unaware of her condition.

In terms of pregnancy outcomes, women with unintended pregnancies had a 2.5 times higher incidence of preeclampsia, compared with those with intended pregnancies. Patients with unplanned pregnancies were also significantly more likely to experience stillbirth.

Women who were not medically optimized for pregnancy were three times as likely to experience preterm birth and preeclampsia compared with those with optimized pregnancies.

These outcomes drive home the importance of optimizing patients for pregnancy, Dr. Sims said, and effectively communicating this importance to patients, especially when they might not be perceiving their disease activity.

The study’s findings show providers “what we thought we knew, which is that there are some patients that are not as aware of their risk,” commented Lisa R. Sammaritano, MD, Hospital for Special Surgery, New York, who moderated the session where the research was presented. “It brings home the importance of counselling our patients about contraception [as well as] the importance of planning.”

Dr. Sims added that it is “crucial” to make this information easily accessible and digestible to patients. One important resource she mentioned is the HOP-STEP program, which stands for Healthy Outcomes in Pregnancy with SLE Through Education of Providers. The program, directed by researchers at Duke University, is designed to improve pregnancy planning in people with lupus. Direct-to-patient resources are key, she said, as patients can often be nervous to ask about pregnancy planning during appointments.

“They won’t want to bring a pregnancy with me in clinic because they’re afraid I’m just going to say, ‘don’t do it,’ ” Dr. Sims said. “But we are making decisions with the patient. Our patients are not asking for permission, but telling us what they want, and we need to meet them where they are at.”

A version of this article appeared on Medscape.com.