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Prodromal Parkinson’s Disease: Diagnostic Dilemma
As the availability of potential biomarkers for Parkinson’s disease drives the debate around diagnosing prodromal Parkinson’s disease (pPD) from theory to practice, said authors of a recent study, clinicians should weigh each patient’s preferences, circumstances, and goals against the potential benefits and harms of disclosure. The study and an accompanying editorial appeared online in Neurology.
Because markers such as SNCA, LRRK2, and GBA mutations impact small subgroups of patients at risk of developing monogenic forms of Parkinson’s disease, wrote Richard N. Rees, MBChB, MD, from the Department of Clinical and Movement Neurosciences at University College London Queen Square Institute of Neurology, and colleagues, researchers are working to identify people at risk of idiopathic Parkinson’s disease using models based on known risk and protective factors. The recent development of highly accurate cerebrospinal fluid (and potentially serum) alpha-synuclein seed amplification assays, which may show Parkinson’s disease’s signature before overt symptoms appear, will reinforce these efforts, authors added.
‘Tap the Brakes’
However, sources interviewed by Neurology Reviews counseled caution with potential prodromal Parkinson’s disease biomarkers. “As the science advances in Parkinson’s disease and related disorders,” said Michael S. Okun, MD, “our ability to predict who will and will not be diagnosed will improve. We should, however, tap the brakes and consider the consequences of making a diagnosis in someone at risk — especially someone without symptoms.” Dr. Okun is National Medical Advisor to the Parkinson’s Foundation and director of the Norman Fixel Institute for Neurological Diseases at University of Florida Health in Gainesville, Florida. He was not involved with the study.
Neurologists should ask themselves why they are testing for Parkinson’s disease biomarkers, said Dr. Okun, and what counseling and shared decision-making they provided beforehand. “This already complex scenario becomes even more complicated when we consider that many people with GBA gene mutations and some with LRRK2 mutations may never actually manifest Parkinson’s disease.”
Neurologists’ knowledge of Parkinson’s disease biomarkers remains in the research phase, said editorial co-author Colin Hoy, PhD, a postdoctoral researcher at the University of California, San Francisco, Weill Institute for Neurosciences in San Francisco, California. No one fully understands the relationships between potential biomarkers, what pathological risks they may carry, and how those risks eventually foment symptoms, he said.
The lack of disease-modifying therapies (DMTs) for Parkinson’s disease plays a critical role in whether patients want to know if they are at risk, added Dr. Hoy. In a survey of 101 patients with established Parkinson’s disease published in Neurology in 2020, 54% would have eschewed knowing about their risk in the absence of DMT.
Nevertheless, wrote Dr. Rees and colleagues, the earlier that patients with prodromal Parkinson’s disease know about it, the longer they might forestall Parkinson’s disease through nonpharmaceutical approaches. In a study published in Neurology in 2011, aerobic exercise reduced Parkinson’s disease risk. Similarly, techniques such as tai chi can significantly improve motor function, depression, and quality of life in Parkinson’s disease, according to a meta-analysis published in Parkinsonism & Related Disorders in 2017.
Having foreknowledge of Parkinson’s disease risk can empower people to manage comorbid conditions, seek evidence-based treatments, and enroll in clinical trials while their condition perhaps remains amenable to treatment, added Dr. Rees and colleagues. Patients also can proactively build support networks and address legal eventualities such as advance care directives, authors added.
A Holistic Approach to Shared Decision-Making
To avoid needlessly scaring patients, Dr. Hoy suggested broaching the topic of Parkinson’s disease biomarkers during advance care planning. “In the same conversation that you might talk about establishing surrogate decision-makers or potential do-not-resuscitate/intubate orders, you can talk about the potential of predictive testing, which is becoming more prevalent across domains of clinical practice.”
Understanding each patient’s values, preferences, and priorities requires a holistic approach, he said. “In the context of prodromal Parkinson’s disease, the benefits of enrolling in a new clinical trial or implementing lifestyle changes might vary depending on the person. Do you think this person would be likely to enroll in a clinical trial or implement those lifestyle changes?” Additionally, he recommended considering how a patient might react to a false diagnosis.
Whereas a diagnosis of mild cognitive impairment might not lead to Alzheimer’s disease or dementia, wrote Dr. Rees and colleagues, growing evidence including a review published in Neurology in 2022 supports the accuracy of alpha-synuclein seed amplification assays in detecting both established and prodromal Parkinson’s disease. For people thusly diagnosed, Dr. Rees and colleagues wrote, the psychosocial burden of inevitable progression could create feelings of helplessness, possibly undermining benefits of early knowledge.
Beyond patients’ reactions, said Dr. Hoy, a diagnosis of prodromal Parkinson’s disease could result in social stigma, changes to interpersonal relationships, or discrimination. “Understanding the implications and uncertainties of potential disclosure, relative to what a person would want to know or might be able to do about it, will be the key for deciding when is the right time,” he said.
Supporting Primary Care
As the shared decision-making burden likely will fall to primary care providers, Dr. Hoy added, neurologists should prioritize increasing these providers’ capacity to advise and refer patients appropriately. Although it is too soon to develop clinical guidelines, he said, neurologists could help educate such providers about pPD and the growing availability of promising biomarkers.
“Parkinson’s is thought of as a movement disorder first and foremost,” said Dr. Hoy. However, various non-motor symptoms including sleep problems, depression, anxiety, apathy, constipation, and gastrointestinal issues often appear before movement-related symptoms during the prodromal phase.
As potentially the first line of defense against prodromal Parkinson’s disease, primary care providers also should know the distinction between early and timely diagnosis, added Dr. Hoy. Introduced by Dr. Rees and colleagues in a 2018 review published in F1000Research, timely diagnosis balances patient preferences, the availability and efficacy of DMT, and health systems’ ability to support and manage individuals at every stage of disease.
The current study was funded by a Parkinson’s UK grant (which paid Dr. Rees’s salary). The editorial was supported by a National Institute of Mental Health Brain Research Through Advancing Innovative Neurotechnologies (BRAIN) Initiative award, a grant from the National Institute on Aging, and a Wellcome Discovery Award. Dr. Hoy reported no relevant disclosures.
As the availability of potential biomarkers for Parkinson’s disease drives the debate around diagnosing prodromal Parkinson’s disease (pPD) from theory to practice, said authors of a recent study, clinicians should weigh each patient’s preferences, circumstances, and goals against the potential benefits and harms of disclosure. The study and an accompanying editorial appeared online in Neurology.
Because markers such as SNCA, LRRK2, and GBA mutations impact small subgroups of patients at risk of developing monogenic forms of Parkinson’s disease, wrote Richard N. Rees, MBChB, MD, from the Department of Clinical and Movement Neurosciences at University College London Queen Square Institute of Neurology, and colleagues, researchers are working to identify people at risk of idiopathic Parkinson’s disease using models based on known risk and protective factors. The recent development of highly accurate cerebrospinal fluid (and potentially serum) alpha-synuclein seed amplification assays, which may show Parkinson’s disease’s signature before overt symptoms appear, will reinforce these efforts, authors added.
‘Tap the Brakes’
However, sources interviewed by Neurology Reviews counseled caution with potential prodromal Parkinson’s disease biomarkers. “As the science advances in Parkinson’s disease and related disorders,” said Michael S. Okun, MD, “our ability to predict who will and will not be diagnosed will improve. We should, however, tap the brakes and consider the consequences of making a diagnosis in someone at risk — especially someone without symptoms.” Dr. Okun is National Medical Advisor to the Parkinson’s Foundation and director of the Norman Fixel Institute for Neurological Diseases at University of Florida Health in Gainesville, Florida. He was not involved with the study.
Neurologists should ask themselves why they are testing for Parkinson’s disease biomarkers, said Dr. Okun, and what counseling and shared decision-making they provided beforehand. “This already complex scenario becomes even more complicated when we consider that many people with GBA gene mutations and some with LRRK2 mutations may never actually manifest Parkinson’s disease.”
Neurologists’ knowledge of Parkinson’s disease biomarkers remains in the research phase, said editorial co-author Colin Hoy, PhD, a postdoctoral researcher at the University of California, San Francisco, Weill Institute for Neurosciences in San Francisco, California. No one fully understands the relationships between potential biomarkers, what pathological risks they may carry, and how those risks eventually foment symptoms, he said.
The lack of disease-modifying therapies (DMTs) for Parkinson’s disease plays a critical role in whether patients want to know if they are at risk, added Dr. Hoy. In a survey of 101 patients with established Parkinson’s disease published in Neurology in 2020, 54% would have eschewed knowing about their risk in the absence of DMT.
Nevertheless, wrote Dr. Rees and colleagues, the earlier that patients with prodromal Parkinson’s disease know about it, the longer they might forestall Parkinson’s disease through nonpharmaceutical approaches. In a study published in Neurology in 2011, aerobic exercise reduced Parkinson’s disease risk. Similarly, techniques such as tai chi can significantly improve motor function, depression, and quality of life in Parkinson’s disease, according to a meta-analysis published in Parkinsonism & Related Disorders in 2017.
Having foreknowledge of Parkinson’s disease risk can empower people to manage comorbid conditions, seek evidence-based treatments, and enroll in clinical trials while their condition perhaps remains amenable to treatment, added Dr. Rees and colleagues. Patients also can proactively build support networks and address legal eventualities such as advance care directives, authors added.
A Holistic Approach to Shared Decision-Making
To avoid needlessly scaring patients, Dr. Hoy suggested broaching the topic of Parkinson’s disease biomarkers during advance care planning. “In the same conversation that you might talk about establishing surrogate decision-makers or potential do-not-resuscitate/intubate orders, you can talk about the potential of predictive testing, which is becoming more prevalent across domains of clinical practice.”
Understanding each patient’s values, preferences, and priorities requires a holistic approach, he said. “In the context of prodromal Parkinson’s disease, the benefits of enrolling in a new clinical trial or implementing lifestyle changes might vary depending on the person. Do you think this person would be likely to enroll in a clinical trial or implement those lifestyle changes?” Additionally, he recommended considering how a patient might react to a false diagnosis.
Whereas a diagnosis of mild cognitive impairment might not lead to Alzheimer’s disease or dementia, wrote Dr. Rees and colleagues, growing evidence including a review published in Neurology in 2022 supports the accuracy of alpha-synuclein seed amplification assays in detecting both established and prodromal Parkinson’s disease. For people thusly diagnosed, Dr. Rees and colleagues wrote, the psychosocial burden of inevitable progression could create feelings of helplessness, possibly undermining benefits of early knowledge.
Beyond patients’ reactions, said Dr. Hoy, a diagnosis of prodromal Parkinson’s disease could result in social stigma, changes to interpersonal relationships, or discrimination. “Understanding the implications and uncertainties of potential disclosure, relative to what a person would want to know or might be able to do about it, will be the key for deciding when is the right time,” he said.
Supporting Primary Care
As the shared decision-making burden likely will fall to primary care providers, Dr. Hoy added, neurologists should prioritize increasing these providers’ capacity to advise and refer patients appropriately. Although it is too soon to develop clinical guidelines, he said, neurologists could help educate such providers about pPD and the growing availability of promising biomarkers.
“Parkinson’s is thought of as a movement disorder first and foremost,” said Dr. Hoy. However, various non-motor symptoms including sleep problems, depression, anxiety, apathy, constipation, and gastrointestinal issues often appear before movement-related symptoms during the prodromal phase.
As potentially the first line of defense against prodromal Parkinson’s disease, primary care providers also should know the distinction between early and timely diagnosis, added Dr. Hoy. Introduced by Dr. Rees and colleagues in a 2018 review published in F1000Research, timely diagnosis balances patient preferences, the availability and efficacy of DMT, and health systems’ ability to support and manage individuals at every stage of disease.
The current study was funded by a Parkinson’s UK grant (which paid Dr. Rees’s salary). The editorial was supported by a National Institute of Mental Health Brain Research Through Advancing Innovative Neurotechnologies (BRAIN) Initiative award, a grant from the National Institute on Aging, and a Wellcome Discovery Award. Dr. Hoy reported no relevant disclosures.
As the availability of potential biomarkers for Parkinson’s disease drives the debate around diagnosing prodromal Parkinson’s disease (pPD) from theory to practice, said authors of a recent study, clinicians should weigh each patient’s preferences, circumstances, and goals against the potential benefits and harms of disclosure. The study and an accompanying editorial appeared online in Neurology.
Because markers such as SNCA, LRRK2, and GBA mutations impact small subgroups of patients at risk of developing monogenic forms of Parkinson’s disease, wrote Richard N. Rees, MBChB, MD, from the Department of Clinical and Movement Neurosciences at University College London Queen Square Institute of Neurology, and colleagues, researchers are working to identify people at risk of idiopathic Parkinson’s disease using models based on known risk and protective factors. The recent development of highly accurate cerebrospinal fluid (and potentially serum) alpha-synuclein seed amplification assays, which may show Parkinson’s disease’s signature before overt symptoms appear, will reinforce these efforts, authors added.
‘Tap the Brakes’
However, sources interviewed by Neurology Reviews counseled caution with potential prodromal Parkinson’s disease biomarkers. “As the science advances in Parkinson’s disease and related disorders,” said Michael S. Okun, MD, “our ability to predict who will and will not be diagnosed will improve. We should, however, tap the brakes and consider the consequences of making a diagnosis in someone at risk — especially someone without symptoms.” Dr. Okun is National Medical Advisor to the Parkinson’s Foundation and director of the Norman Fixel Institute for Neurological Diseases at University of Florida Health in Gainesville, Florida. He was not involved with the study.
Neurologists should ask themselves why they are testing for Parkinson’s disease biomarkers, said Dr. Okun, and what counseling and shared decision-making they provided beforehand. “This already complex scenario becomes even more complicated when we consider that many people with GBA gene mutations and some with LRRK2 mutations may never actually manifest Parkinson’s disease.”
Neurologists’ knowledge of Parkinson’s disease biomarkers remains in the research phase, said editorial co-author Colin Hoy, PhD, a postdoctoral researcher at the University of California, San Francisco, Weill Institute for Neurosciences in San Francisco, California. No one fully understands the relationships between potential biomarkers, what pathological risks they may carry, and how those risks eventually foment symptoms, he said.
The lack of disease-modifying therapies (DMTs) for Parkinson’s disease plays a critical role in whether patients want to know if they are at risk, added Dr. Hoy. In a survey of 101 patients with established Parkinson’s disease published in Neurology in 2020, 54% would have eschewed knowing about their risk in the absence of DMT.
Nevertheless, wrote Dr. Rees and colleagues, the earlier that patients with prodromal Parkinson’s disease know about it, the longer they might forestall Parkinson’s disease through nonpharmaceutical approaches. In a study published in Neurology in 2011, aerobic exercise reduced Parkinson’s disease risk. Similarly, techniques such as tai chi can significantly improve motor function, depression, and quality of life in Parkinson’s disease, according to a meta-analysis published in Parkinsonism & Related Disorders in 2017.
Having foreknowledge of Parkinson’s disease risk can empower people to manage comorbid conditions, seek evidence-based treatments, and enroll in clinical trials while their condition perhaps remains amenable to treatment, added Dr. Rees and colleagues. Patients also can proactively build support networks and address legal eventualities such as advance care directives, authors added.
A Holistic Approach to Shared Decision-Making
To avoid needlessly scaring patients, Dr. Hoy suggested broaching the topic of Parkinson’s disease biomarkers during advance care planning. “In the same conversation that you might talk about establishing surrogate decision-makers or potential do-not-resuscitate/intubate orders, you can talk about the potential of predictive testing, which is becoming more prevalent across domains of clinical practice.”
Understanding each patient’s values, preferences, and priorities requires a holistic approach, he said. “In the context of prodromal Parkinson’s disease, the benefits of enrolling in a new clinical trial or implementing lifestyle changes might vary depending on the person. Do you think this person would be likely to enroll in a clinical trial or implement those lifestyle changes?” Additionally, he recommended considering how a patient might react to a false diagnosis.
Whereas a diagnosis of mild cognitive impairment might not lead to Alzheimer’s disease or dementia, wrote Dr. Rees and colleagues, growing evidence including a review published in Neurology in 2022 supports the accuracy of alpha-synuclein seed amplification assays in detecting both established and prodromal Parkinson’s disease. For people thusly diagnosed, Dr. Rees and colleagues wrote, the psychosocial burden of inevitable progression could create feelings of helplessness, possibly undermining benefits of early knowledge.
Beyond patients’ reactions, said Dr. Hoy, a diagnosis of prodromal Parkinson’s disease could result in social stigma, changes to interpersonal relationships, or discrimination. “Understanding the implications and uncertainties of potential disclosure, relative to what a person would want to know or might be able to do about it, will be the key for deciding when is the right time,” he said.
Supporting Primary Care
As the shared decision-making burden likely will fall to primary care providers, Dr. Hoy added, neurologists should prioritize increasing these providers’ capacity to advise and refer patients appropriately. Although it is too soon to develop clinical guidelines, he said, neurologists could help educate such providers about pPD and the growing availability of promising biomarkers.
“Parkinson’s is thought of as a movement disorder first and foremost,” said Dr. Hoy. However, various non-motor symptoms including sleep problems, depression, anxiety, apathy, constipation, and gastrointestinal issues often appear before movement-related symptoms during the prodromal phase.
As potentially the first line of defense against prodromal Parkinson’s disease, primary care providers also should know the distinction between early and timely diagnosis, added Dr. Hoy. Introduced by Dr. Rees and colleagues in a 2018 review published in F1000Research, timely diagnosis balances patient preferences, the availability and efficacy of DMT, and health systems’ ability to support and manage individuals at every stage of disease.
The current study was funded by a Parkinson’s UK grant (which paid Dr. Rees’s salary). The editorial was supported by a National Institute of Mental Health Brain Research Through Advancing Innovative Neurotechnologies (BRAIN) Initiative award, a grant from the National Institute on Aging, and a Wellcome Discovery Award. Dr. Hoy reported no relevant disclosures.
FROM NEUROLOGY
Major Gaps in Care and Management of Neurologic Diseases
DENVER –
Investigators led by Nikki Win, PhD, medical manager/team lead, OMNI Scientific Strategy and Collaborations, US Medical Affairs, Genentech/Roche, found that patients with Parkinson’s disease were referred to a specialist most often, followed by those with MS and those with AD.
The findings were presented at the 2024 annual meeting of the American Academy of Neurology (AAN).
National Neurologist Shortage
The national neurologist shortage, coupled with the growing incidence of Alzheimer’s disease, Parkinson’s disease, MS, and other conditions has led the AAN and other organizations to call for expanding the role of primary care physicians in the diagnosis and management of neurologic disorders, the leading global cause of disability.
“These neurological conditions are increasing in prevalence and there’s a limited number of neurologists, so we wanted to understand what this looks like in the US,” Dr. Win said.
“There is a need to understand the patient journey from primary care to neurology care, from presentation of a suspected neurological disorder to diagnosis, referral to a specialist, and the time elapsed before the specialist visit for Alzheimer’s disease, MS, and Parkinson’s disease in the US,” Dr. Win added.
Timely and accurate diagnoses of neurologic disorders can optimize treatment outcomes. Because many of these diseases are first detected during a visit with a primary care physician, it is important to understand the timeline from the initial visit to a specialist referral, the investigators noted.
Analyzing Trends in Specialist Referrals
Using claims data from the Optum Normative Health Information database, researchers identified 48,525 adults with Alzheimer’s disease, 26,431 with Parkinson’s disease, and 8169 with MS who received a diagnosis from a primary care physician between 2016 and 2021.
They examined the proportion, timing, and demographic factors associated with referrals from primary care clinicians or other healthcare providers to specialists including neurologists, neurosurgeons, psychiatrists, and geriatric medicine specialists.
Results showed that patients with Parkinson’s disease were referred to a specialist most often (53%), followed by those with MS (42%) and those with Alzheimer’s disease (27%).
Individuals with Alzheimer’s disease waited the longest for a specialist referral, with a median of 10 months between the time of referral and the first specialist visit compared with 5.7 months for patients with Parkinson’s disease and 2.6 months for MS patients.
“Some patients with common conditions like Alzheimer’s disease, MS, and Parkinson’s disease don’t see a neurologist, and when they do, it can take as long as 10 months,” said Dr. Win.
Using zip code heatmaps, researchers found that the proportion of referrals for all neurologic disorders was higher in the Midwest and Northeast, whereas patients in the South and West were less likely to receive a referral.
Referrals for Alzheimer’s disease were low nationwide, except for some areas of Michigan and New England. California had the lowest referral rate for MS, followed by regions in the South and Northeast. Patients with Parkinson’s disease living in the Midwest and Northeast were more likely than those in the West to receive a specialist referral.
Previous studies have reported regional shortages of neurologists, said Dr. Win. “Our data seem to correlate that in terms of the areas with lower referral patterns, but as to whether that is causative or correlative, we don’t know.”
Odds of referral were also influenced by demographic characteristics such as sex, age, race, and ethnicity, investigators found.
For example, there were fewer referrals with increasing age across all three neurologic disorders, and men were more likely than women to be referred for Alzheimer’s disease and Parkinson’s disease. Compared with White patients, Parkinson’s disease referrals were less likely among African American, Asian, and Hispanic patients and Alzheimer’s disease referrals were less common among Asian and Hispanic patients.
Insurance status also affected referrals. People with MS and Parkinson’s disease who had commercial insurance were referred more often than were those with Medicare Advantage, said Dr. Win.
She also noted, “Additional research is needed to understand how being referred or not being referred to a neurologist actually impacts patient treatment, care and outcomes.”
Neurology Challenges
Commenting on the research, Thomas Vidic, MD, a community neurologist in Elkhart, Indiana, and clinical professor of neurology at Indiana University School of Medicine at South Bend, said that he was surprised by the variation in wait times for patients.
This, he said, could reflect a study limitation or a higher comfort level among primary care doctors in treating dementia.
With respect to MS, Dr. Vidic said that he believes primary care physicians may not be uncertain about prescribing the approved medications for the disease because there are so many of them.
In addition, patients with Alzheimer’s disease are older and perhaps less accepting of being referred to a specialist that may be hours away.
The bottom line for Dr. Vidic, though, is the lack of specialists. “It comes back to the fact we’re not doing a good job of having community neurologists available to take care of these problems,” he said.
The issue of community neurologist shortages was underlined by the study’s findings about geographic gaps in specialist referrals across the country, he said.
Neurologists make up about 2% of the medical workforce and this has remained static for some time, Dr. Vidic noted. Meanwhile, people are living longer and developing more neurologic diseases.
Dr. Vidic also pointed to the lack of neurology training programs. “There has not been a significant change in the number of programs in the last 10-15 years,” he said.
Study funding was not disclosed. Dr. Win reports receiving personal compensation for serving as an employee of Genentech and has stock in Genentech. Dr. Vidic reports no relevant financial disclosures.
A version of this article appeared on Medscape.com.
DENVER –
Investigators led by Nikki Win, PhD, medical manager/team lead, OMNI Scientific Strategy and Collaborations, US Medical Affairs, Genentech/Roche, found that patients with Parkinson’s disease were referred to a specialist most often, followed by those with MS and those with AD.
The findings were presented at the 2024 annual meeting of the American Academy of Neurology (AAN).
National Neurologist Shortage
The national neurologist shortage, coupled with the growing incidence of Alzheimer’s disease, Parkinson’s disease, MS, and other conditions has led the AAN and other organizations to call for expanding the role of primary care physicians in the diagnosis and management of neurologic disorders, the leading global cause of disability.
“These neurological conditions are increasing in prevalence and there’s a limited number of neurologists, so we wanted to understand what this looks like in the US,” Dr. Win said.
“There is a need to understand the patient journey from primary care to neurology care, from presentation of a suspected neurological disorder to diagnosis, referral to a specialist, and the time elapsed before the specialist visit for Alzheimer’s disease, MS, and Parkinson’s disease in the US,” Dr. Win added.
Timely and accurate diagnoses of neurologic disorders can optimize treatment outcomes. Because many of these diseases are first detected during a visit with a primary care physician, it is important to understand the timeline from the initial visit to a specialist referral, the investigators noted.
Analyzing Trends in Specialist Referrals
Using claims data from the Optum Normative Health Information database, researchers identified 48,525 adults with Alzheimer’s disease, 26,431 with Parkinson’s disease, and 8169 with MS who received a diagnosis from a primary care physician between 2016 and 2021.
They examined the proportion, timing, and demographic factors associated with referrals from primary care clinicians or other healthcare providers to specialists including neurologists, neurosurgeons, psychiatrists, and geriatric medicine specialists.
Results showed that patients with Parkinson’s disease were referred to a specialist most often (53%), followed by those with MS (42%) and those with Alzheimer’s disease (27%).
Individuals with Alzheimer’s disease waited the longest for a specialist referral, with a median of 10 months between the time of referral and the first specialist visit compared with 5.7 months for patients with Parkinson’s disease and 2.6 months for MS patients.
“Some patients with common conditions like Alzheimer’s disease, MS, and Parkinson’s disease don’t see a neurologist, and when they do, it can take as long as 10 months,” said Dr. Win.
Using zip code heatmaps, researchers found that the proportion of referrals for all neurologic disorders was higher in the Midwest and Northeast, whereas patients in the South and West were less likely to receive a referral.
Referrals for Alzheimer’s disease were low nationwide, except for some areas of Michigan and New England. California had the lowest referral rate for MS, followed by regions in the South and Northeast. Patients with Parkinson’s disease living in the Midwest and Northeast were more likely than those in the West to receive a specialist referral.
Previous studies have reported regional shortages of neurologists, said Dr. Win. “Our data seem to correlate that in terms of the areas with lower referral patterns, but as to whether that is causative or correlative, we don’t know.”
Odds of referral were also influenced by demographic characteristics such as sex, age, race, and ethnicity, investigators found.
For example, there were fewer referrals with increasing age across all three neurologic disorders, and men were more likely than women to be referred for Alzheimer’s disease and Parkinson’s disease. Compared with White patients, Parkinson’s disease referrals were less likely among African American, Asian, and Hispanic patients and Alzheimer’s disease referrals were less common among Asian and Hispanic patients.
Insurance status also affected referrals. People with MS and Parkinson’s disease who had commercial insurance were referred more often than were those with Medicare Advantage, said Dr. Win.
She also noted, “Additional research is needed to understand how being referred or not being referred to a neurologist actually impacts patient treatment, care and outcomes.”
Neurology Challenges
Commenting on the research, Thomas Vidic, MD, a community neurologist in Elkhart, Indiana, and clinical professor of neurology at Indiana University School of Medicine at South Bend, said that he was surprised by the variation in wait times for patients.
This, he said, could reflect a study limitation or a higher comfort level among primary care doctors in treating dementia.
With respect to MS, Dr. Vidic said that he believes primary care physicians may not be uncertain about prescribing the approved medications for the disease because there are so many of them.
In addition, patients with Alzheimer’s disease are older and perhaps less accepting of being referred to a specialist that may be hours away.
The bottom line for Dr. Vidic, though, is the lack of specialists. “It comes back to the fact we’re not doing a good job of having community neurologists available to take care of these problems,” he said.
The issue of community neurologist shortages was underlined by the study’s findings about geographic gaps in specialist referrals across the country, he said.
Neurologists make up about 2% of the medical workforce and this has remained static for some time, Dr. Vidic noted. Meanwhile, people are living longer and developing more neurologic diseases.
Dr. Vidic also pointed to the lack of neurology training programs. “There has not been a significant change in the number of programs in the last 10-15 years,” he said.
Study funding was not disclosed. Dr. Win reports receiving personal compensation for serving as an employee of Genentech and has stock in Genentech. Dr. Vidic reports no relevant financial disclosures.
A version of this article appeared on Medscape.com.
DENVER –
Investigators led by Nikki Win, PhD, medical manager/team lead, OMNI Scientific Strategy and Collaborations, US Medical Affairs, Genentech/Roche, found that patients with Parkinson’s disease were referred to a specialist most often, followed by those with MS and those with AD.
The findings were presented at the 2024 annual meeting of the American Academy of Neurology (AAN).
National Neurologist Shortage
The national neurologist shortage, coupled with the growing incidence of Alzheimer’s disease, Parkinson’s disease, MS, and other conditions has led the AAN and other organizations to call for expanding the role of primary care physicians in the diagnosis and management of neurologic disorders, the leading global cause of disability.
“These neurological conditions are increasing in prevalence and there’s a limited number of neurologists, so we wanted to understand what this looks like in the US,” Dr. Win said.
“There is a need to understand the patient journey from primary care to neurology care, from presentation of a suspected neurological disorder to diagnosis, referral to a specialist, and the time elapsed before the specialist visit for Alzheimer’s disease, MS, and Parkinson’s disease in the US,” Dr. Win added.
Timely and accurate diagnoses of neurologic disorders can optimize treatment outcomes. Because many of these diseases are first detected during a visit with a primary care physician, it is important to understand the timeline from the initial visit to a specialist referral, the investigators noted.
Analyzing Trends in Specialist Referrals
Using claims data from the Optum Normative Health Information database, researchers identified 48,525 adults with Alzheimer’s disease, 26,431 with Parkinson’s disease, and 8169 with MS who received a diagnosis from a primary care physician between 2016 and 2021.
They examined the proportion, timing, and demographic factors associated with referrals from primary care clinicians or other healthcare providers to specialists including neurologists, neurosurgeons, psychiatrists, and geriatric medicine specialists.
Results showed that patients with Parkinson’s disease were referred to a specialist most often (53%), followed by those with MS (42%) and those with Alzheimer’s disease (27%).
Individuals with Alzheimer’s disease waited the longest for a specialist referral, with a median of 10 months between the time of referral and the first specialist visit compared with 5.7 months for patients with Parkinson’s disease and 2.6 months for MS patients.
“Some patients with common conditions like Alzheimer’s disease, MS, and Parkinson’s disease don’t see a neurologist, and when they do, it can take as long as 10 months,” said Dr. Win.
Using zip code heatmaps, researchers found that the proportion of referrals for all neurologic disorders was higher in the Midwest and Northeast, whereas patients in the South and West were less likely to receive a referral.
Referrals for Alzheimer’s disease were low nationwide, except for some areas of Michigan and New England. California had the lowest referral rate for MS, followed by regions in the South and Northeast. Patients with Parkinson’s disease living in the Midwest and Northeast were more likely than those in the West to receive a specialist referral.
Previous studies have reported regional shortages of neurologists, said Dr. Win. “Our data seem to correlate that in terms of the areas with lower referral patterns, but as to whether that is causative or correlative, we don’t know.”
Odds of referral were also influenced by demographic characteristics such as sex, age, race, and ethnicity, investigators found.
For example, there were fewer referrals with increasing age across all three neurologic disorders, and men were more likely than women to be referred for Alzheimer’s disease and Parkinson’s disease. Compared with White patients, Parkinson’s disease referrals were less likely among African American, Asian, and Hispanic patients and Alzheimer’s disease referrals were less common among Asian and Hispanic patients.
Insurance status also affected referrals. People with MS and Parkinson’s disease who had commercial insurance were referred more often than were those with Medicare Advantage, said Dr. Win.
She also noted, “Additional research is needed to understand how being referred or not being referred to a neurologist actually impacts patient treatment, care and outcomes.”
Neurology Challenges
Commenting on the research, Thomas Vidic, MD, a community neurologist in Elkhart, Indiana, and clinical professor of neurology at Indiana University School of Medicine at South Bend, said that he was surprised by the variation in wait times for patients.
This, he said, could reflect a study limitation or a higher comfort level among primary care doctors in treating dementia.
With respect to MS, Dr. Vidic said that he believes primary care physicians may not be uncertain about prescribing the approved medications for the disease because there are so many of them.
In addition, patients with Alzheimer’s disease are older and perhaps less accepting of being referred to a specialist that may be hours away.
The bottom line for Dr. Vidic, though, is the lack of specialists. “It comes back to the fact we’re not doing a good job of having community neurologists available to take care of these problems,” he said.
The issue of community neurologist shortages was underlined by the study’s findings about geographic gaps in specialist referrals across the country, he said.
Neurologists make up about 2% of the medical workforce and this has remained static for some time, Dr. Vidic noted. Meanwhile, people are living longer and developing more neurologic diseases.
Dr. Vidic also pointed to the lack of neurology training programs. “There has not been a significant change in the number of programs in the last 10-15 years,” he said.
Study funding was not disclosed. Dr. Win reports receiving personal compensation for serving as an employee of Genentech and has stock in Genentech. Dr. Vidic reports no relevant financial disclosures.
A version of this article appeared on Medscape.com.
FROM AAN 2024
Environmental Chemicals Linked to Parkinson’s Disease in Urban Areas
DENVER — , according to results from a new nationwide analysis of a Medicare population.
TCE has long been used as an industrial solvent, and it is a component of several household cleaning products. Case reports have suggested that workers exposed to it have increased risk of Parkinson’s disease, with risk increases as high as 500%.
Exposure can come through air or water, but 97% of environmental TCE is found in the air, according to Brittany Krzyzanowski, PhD, who presented the study at the 2024 annual meeting of the American Academy of Neurology.
Previous studies of TCE had looked primarily at occupational exposure, such as workers at TCE-emitting facilities, or soldiers stationed at Camp Lejeune in North Carolina, where levels of TCE were more than 70-fold higher than EPA-permissible levels. A recent study found a 70% increase in risk of Parkinson’s disease associated with individuals who were stationed there.
From Population Data to Individual Risk
In an interview, Dr. Krzyzanowski pointed out that the Camp Lejeune studies didn’t assign TCE exposure to individuals — instead, researchers noted whether an individual was stationed at that base or another. “Our study adds to the previous work by investigating environmental exposure using TCE estimates that we are able to assign to individuals. [It shows that] you don’t have to work in a facility with TCE, you don’t have to be stationed on a military base with tainted water, you just have to live in a census tract with higher levels of TCE to have increased risk,” said Dr. Krzyzanowski, a research assistant professor at Barrow Neurological Institute in Phoenix.
In the new study, Dr. Krzyzanowski and her colleagues analyzed data from 1,559,135 Medicare beneficiaries with no other health coverage, who had a valid US ZIP code. There were 252,700 incident cases of Parkinson’s disease who were initially diagnosed between 2016 and 2018. These individuals were matched 1:5 with 1,306,435 healthy controls.
Airborne TCE exposure data was drawn the Environmental Protection Agency’s National Air Toxics Assessment data from 2005, about 12 years prior to the start of the study and in line with the expected latency between exposure and development of Parkinson’s disease.
“We found a nationwide association between airborne TCE exposure and Parkinson’s disease risks, but this was only true for the metropolitan areas. Within these metro areas, there was a dose-response effect, where increasing levels of TCE were associated with increasing risk of Parkinson’s disease. In particular, those living in the metros with the highest levels of TCE had a 24% greater risk of Parkinson’s compared with those in metros with the lowest levels of TCE,” Dr. Krzyzanowski said during her presentation. The P-value for the trend was less than .0001.
The census tracts in metropolitan areas are smaller than those in rural areas because of differences in population density, and this leads to greater precision of TCE exposure estimates in urban environments, according to Dr. Krzyzanowski, and this could explain the lack of a statistically significant association seen among rural populations.
‘More Substantial’ Data Adds to Previous Evidence
The new study is an important addition to the literature examining TCE exposure and Parkinson’s disease, according to session moderator Jeff Bronstein, MD, PhD, who was asked for comment. “It’s more substantial data making that association between TCE and Parkinson’s. It’s been growing over the past decade, and this is a more objective, big data association, so it adds more strength to the body of knowledge that we already have. It’s unbiased, which is nice,” said Dr. Bronstein, professor of neurology and director of movement disorders at UCLA.
It remains uncertain whether TCE is a direct cause of Parkinson’s disease, but “a lot of us believe it’s causal. There’s a lot of evidence now. There are some very good studies with inhalation models that show it affects autophagy, or the way we break down proteins, and that it also involves LRRK2 [leucine-rich repeat kinase 2], which is one of the proteins involved in some of the genetic forms [of Parkinson’s disease], and it might affect mitochondria. They’re all linked in network and right now the animal studies point to that network,” said Dr. Bronstein.
Dr. Krzyzanowski has no relevant financial disclosures. Dr. Bronstein consults for a legal firm involved in the Camp Lejeune litigation.
DENVER — , according to results from a new nationwide analysis of a Medicare population.
TCE has long been used as an industrial solvent, and it is a component of several household cleaning products. Case reports have suggested that workers exposed to it have increased risk of Parkinson’s disease, with risk increases as high as 500%.
Exposure can come through air or water, but 97% of environmental TCE is found in the air, according to Brittany Krzyzanowski, PhD, who presented the study at the 2024 annual meeting of the American Academy of Neurology.
Previous studies of TCE had looked primarily at occupational exposure, such as workers at TCE-emitting facilities, or soldiers stationed at Camp Lejeune in North Carolina, where levels of TCE were more than 70-fold higher than EPA-permissible levels. A recent study found a 70% increase in risk of Parkinson’s disease associated with individuals who were stationed there.
From Population Data to Individual Risk
In an interview, Dr. Krzyzanowski pointed out that the Camp Lejeune studies didn’t assign TCE exposure to individuals — instead, researchers noted whether an individual was stationed at that base or another. “Our study adds to the previous work by investigating environmental exposure using TCE estimates that we are able to assign to individuals. [It shows that] you don’t have to work in a facility with TCE, you don’t have to be stationed on a military base with tainted water, you just have to live in a census tract with higher levels of TCE to have increased risk,” said Dr. Krzyzanowski, a research assistant professor at Barrow Neurological Institute in Phoenix.
In the new study, Dr. Krzyzanowski and her colleagues analyzed data from 1,559,135 Medicare beneficiaries with no other health coverage, who had a valid US ZIP code. There were 252,700 incident cases of Parkinson’s disease who were initially diagnosed between 2016 and 2018. These individuals were matched 1:5 with 1,306,435 healthy controls.
Airborne TCE exposure data was drawn the Environmental Protection Agency’s National Air Toxics Assessment data from 2005, about 12 years prior to the start of the study and in line with the expected latency between exposure and development of Parkinson’s disease.
“We found a nationwide association between airborne TCE exposure and Parkinson’s disease risks, but this was only true for the metropolitan areas. Within these metro areas, there was a dose-response effect, where increasing levels of TCE were associated with increasing risk of Parkinson’s disease. In particular, those living in the metros with the highest levels of TCE had a 24% greater risk of Parkinson’s compared with those in metros with the lowest levels of TCE,” Dr. Krzyzanowski said during her presentation. The P-value for the trend was less than .0001.
The census tracts in metropolitan areas are smaller than those in rural areas because of differences in population density, and this leads to greater precision of TCE exposure estimates in urban environments, according to Dr. Krzyzanowski, and this could explain the lack of a statistically significant association seen among rural populations.
‘More Substantial’ Data Adds to Previous Evidence
The new study is an important addition to the literature examining TCE exposure and Parkinson’s disease, according to session moderator Jeff Bronstein, MD, PhD, who was asked for comment. “It’s more substantial data making that association between TCE and Parkinson’s. It’s been growing over the past decade, and this is a more objective, big data association, so it adds more strength to the body of knowledge that we already have. It’s unbiased, which is nice,” said Dr. Bronstein, professor of neurology and director of movement disorders at UCLA.
It remains uncertain whether TCE is a direct cause of Parkinson’s disease, but “a lot of us believe it’s causal. There’s a lot of evidence now. There are some very good studies with inhalation models that show it affects autophagy, or the way we break down proteins, and that it also involves LRRK2 [leucine-rich repeat kinase 2], which is one of the proteins involved in some of the genetic forms [of Parkinson’s disease], and it might affect mitochondria. They’re all linked in network and right now the animal studies point to that network,” said Dr. Bronstein.
Dr. Krzyzanowski has no relevant financial disclosures. Dr. Bronstein consults for a legal firm involved in the Camp Lejeune litigation.
DENVER — , according to results from a new nationwide analysis of a Medicare population.
TCE has long been used as an industrial solvent, and it is a component of several household cleaning products. Case reports have suggested that workers exposed to it have increased risk of Parkinson’s disease, with risk increases as high as 500%.
Exposure can come through air or water, but 97% of environmental TCE is found in the air, according to Brittany Krzyzanowski, PhD, who presented the study at the 2024 annual meeting of the American Academy of Neurology.
Previous studies of TCE had looked primarily at occupational exposure, such as workers at TCE-emitting facilities, or soldiers stationed at Camp Lejeune in North Carolina, where levels of TCE were more than 70-fold higher than EPA-permissible levels. A recent study found a 70% increase in risk of Parkinson’s disease associated with individuals who were stationed there.
From Population Data to Individual Risk
In an interview, Dr. Krzyzanowski pointed out that the Camp Lejeune studies didn’t assign TCE exposure to individuals — instead, researchers noted whether an individual was stationed at that base or another. “Our study adds to the previous work by investigating environmental exposure using TCE estimates that we are able to assign to individuals. [It shows that] you don’t have to work in a facility with TCE, you don’t have to be stationed on a military base with tainted water, you just have to live in a census tract with higher levels of TCE to have increased risk,” said Dr. Krzyzanowski, a research assistant professor at Barrow Neurological Institute in Phoenix.
In the new study, Dr. Krzyzanowski and her colleagues analyzed data from 1,559,135 Medicare beneficiaries with no other health coverage, who had a valid US ZIP code. There were 252,700 incident cases of Parkinson’s disease who were initially diagnosed between 2016 and 2018. These individuals were matched 1:5 with 1,306,435 healthy controls.
Airborne TCE exposure data was drawn the Environmental Protection Agency’s National Air Toxics Assessment data from 2005, about 12 years prior to the start of the study and in line with the expected latency between exposure and development of Parkinson’s disease.
“We found a nationwide association between airborne TCE exposure and Parkinson’s disease risks, but this was only true for the metropolitan areas. Within these metro areas, there was a dose-response effect, where increasing levels of TCE were associated with increasing risk of Parkinson’s disease. In particular, those living in the metros with the highest levels of TCE had a 24% greater risk of Parkinson’s compared with those in metros with the lowest levels of TCE,” Dr. Krzyzanowski said during her presentation. The P-value for the trend was less than .0001.
The census tracts in metropolitan areas are smaller than those in rural areas because of differences in population density, and this leads to greater precision of TCE exposure estimates in urban environments, according to Dr. Krzyzanowski, and this could explain the lack of a statistically significant association seen among rural populations.
‘More Substantial’ Data Adds to Previous Evidence
The new study is an important addition to the literature examining TCE exposure and Parkinson’s disease, according to session moderator Jeff Bronstein, MD, PhD, who was asked for comment. “It’s more substantial data making that association between TCE and Parkinson’s. It’s been growing over the past decade, and this is a more objective, big data association, so it adds more strength to the body of knowledge that we already have. It’s unbiased, which is nice,” said Dr. Bronstein, professor of neurology and director of movement disorders at UCLA.
It remains uncertain whether TCE is a direct cause of Parkinson’s disease, but “a lot of us believe it’s causal. There’s a lot of evidence now. There are some very good studies with inhalation models that show it affects autophagy, or the way we break down proteins, and that it also involves LRRK2 [leucine-rich repeat kinase 2], which is one of the proteins involved in some of the genetic forms [of Parkinson’s disease], and it might affect mitochondria. They’re all linked in network and right now the animal studies point to that network,” said Dr. Bronstein.
Dr. Krzyzanowski has no relevant financial disclosures. Dr. Bronstein consults for a legal firm involved in the Camp Lejeune litigation.
FROM AAN 2024
Skin Test Accurately Detects Parkinson’s, Other Neurodegenerative Disorders
A simple skin biopsy test is able to detect an abnormal form of alpha-synuclein with high accuracy in individuals with neurodegenerative disorders such as Parkinson’s disease (PD).
Synucleinopathies include PD, dementia with Lewy bodies (DLB), multiple system atrophy (MSA), and pure autonomic failure (PAF).
“Each year, there are nearly 200,000 people in the U.S. who face a diagnosis of Parkinson’s disease, dementia with Lewy bodies, and related disorders,” study investigator Christopher H. Gibbons, MD, professor of neurology at Harvard Medical School in Boston, said in a press release.
He explained that patients often experience delays in diagnosis or are misdiagnosed due to the complexity of synucleinopathies.
“With a simple, minimally invasive skin biopsy test, this blinded, multicenter study demonstrated how we can more objectively identify the underlying pathology of synucleinopathies and offer better diagnostic answers and care for patients.”
The findings were published online on March 20 in JAMA.
An Urgent Priority
Affecting an estimated 2.5 million people in the United States, synucleinopathies are progressive neurodegenerative diseases with varying prognoses, so identifying a reliable diagnostic biomarker is an “urgent unmet priority,” the researchers noted.
The disorders share some symptoms such as tremors and cognitive changes, and all are characterized by P-SYN, an abnormal protein found in the cutaneous nerve fibers.
The study included 428 adults aged 40-99 years (mean age, 70 years) recruited from 30 academic and community-based neurology practices across the United States, with 277 diagnosed with PD, DLB, MSA, or PAF. It also included a control group of 120 participants with no symptoms suggestive of synucleinopathy.
Investigators used the commercially available Syn-One Test, developed in 2019 by CND Life Sciences, to analyze levels of P-SYN via 3-mm punch skin biopsies from each participant.
The test detected P-SYN in 95.5% of study participants overall, including 89 of 96 (92.7%) with PD, 54 of 55 (98.2%) with MSA, 48 of 50 (96%) with DLB, 22 of 22 (100%) with PAF, and 4 of 120 (3.3%) of the controls with no synucleinopathy.
The investigators said it is possible that some of the controls who tested positive had a subclinical form of synucleinopathy, which would explain the false positives.
Study limitations include clinical consensus diagnostic criteria without video or autopsy confirmation, a lack of genetic testing on participants (some genetic forms of PD do not have alpha-synuclein deposition), and the fact that controls were younger than those in disease groups.
“Further research is needed in unselected clinical populations to externally validate the findings and fully characterize the potential role of skin biopsy detection of P-SYN in clinical care,” the authors wrote.
Syn-One is not approved by the US Food and Drug Administration as a diagnostic test for PD but is available as a pathologic assay that determines whether a tissue sample contains phosphorylated alpha-synuclein and can be billed through Medicare.
The study was funded by the National Institutes of Health. Dr. Gibbons reported having stock options in CND Life Sciences outside the submitted work. Other disclosures are noted in the original article.
A version of this article appeared on Medscape.com.
A simple skin biopsy test is able to detect an abnormal form of alpha-synuclein with high accuracy in individuals with neurodegenerative disorders such as Parkinson’s disease (PD).
Synucleinopathies include PD, dementia with Lewy bodies (DLB), multiple system atrophy (MSA), and pure autonomic failure (PAF).
“Each year, there are nearly 200,000 people in the U.S. who face a diagnosis of Parkinson’s disease, dementia with Lewy bodies, and related disorders,” study investigator Christopher H. Gibbons, MD, professor of neurology at Harvard Medical School in Boston, said in a press release.
He explained that patients often experience delays in diagnosis or are misdiagnosed due to the complexity of synucleinopathies.
“With a simple, minimally invasive skin biopsy test, this blinded, multicenter study demonstrated how we can more objectively identify the underlying pathology of synucleinopathies and offer better diagnostic answers and care for patients.”
The findings were published online on March 20 in JAMA.
An Urgent Priority
Affecting an estimated 2.5 million people in the United States, synucleinopathies are progressive neurodegenerative diseases with varying prognoses, so identifying a reliable diagnostic biomarker is an “urgent unmet priority,” the researchers noted.
The disorders share some symptoms such as tremors and cognitive changes, and all are characterized by P-SYN, an abnormal protein found in the cutaneous nerve fibers.
The study included 428 adults aged 40-99 years (mean age, 70 years) recruited from 30 academic and community-based neurology practices across the United States, with 277 diagnosed with PD, DLB, MSA, or PAF. It also included a control group of 120 participants with no symptoms suggestive of synucleinopathy.
Investigators used the commercially available Syn-One Test, developed in 2019 by CND Life Sciences, to analyze levels of P-SYN via 3-mm punch skin biopsies from each participant.
The test detected P-SYN in 95.5% of study participants overall, including 89 of 96 (92.7%) with PD, 54 of 55 (98.2%) with MSA, 48 of 50 (96%) with DLB, 22 of 22 (100%) with PAF, and 4 of 120 (3.3%) of the controls with no synucleinopathy.
The investigators said it is possible that some of the controls who tested positive had a subclinical form of synucleinopathy, which would explain the false positives.
Study limitations include clinical consensus diagnostic criteria without video or autopsy confirmation, a lack of genetic testing on participants (some genetic forms of PD do not have alpha-synuclein deposition), and the fact that controls were younger than those in disease groups.
“Further research is needed in unselected clinical populations to externally validate the findings and fully characterize the potential role of skin biopsy detection of P-SYN in clinical care,” the authors wrote.
Syn-One is not approved by the US Food and Drug Administration as a diagnostic test for PD but is available as a pathologic assay that determines whether a tissue sample contains phosphorylated alpha-synuclein and can be billed through Medicare.
The study was funded by the National Institutes of Health. Dr. Gibbons reported having stock options in CND Life Sciences outside the submitted work. Other disclosures are noted in the original article.
A version of this article appeared on Medscape.com.
A simple skin biopsy test is able to detect an abnormal form of alpha-synuclein with high accuracy in individuals with neurodegenerative disorders such as Parkinson’s disease (PD).
Synucleinopathies include PD, dementia with Lewy bodies (DLB), multiple system atrophy (MSA), and pure autonomic failure (PAF).
“Each year, there are nearly 200,000 people in the U.S. who face a diagnosis of Parkinson’s disease, dementia with Lewy bodies, and related disorders,” study investigator Christopher H. Gibbons, MD, professor of neurology at Harvard Medical School in Boston, said in a press release.
He explained that patients often experience delays in diagnosis or are misdiagnosed due to the complexity of synucleinopathies.
“With a simple, minimally invasive skin biopsy test, this blinded, multicenter study demonstrated how we can more objectively identify the underlying pathology of synucleinopathies and offer better diagnostic answers and care for patients.”
The findings were published online on March 20 in JAMA.
An Urgent Priority
Affecting an estimated 2.5 million people in the United States, synucleinopathies are progressive neurodegenerative diseases with varying prognoses, so identifying a reliable diagnostic biomarker is an “urgent unmet priority,” the researchers noted.
The disorders share some symptoms such as tremors and cognitive changes, and all are characterized by P-SYN, an abnormal protein found in the cutaneous nerve fibers.
The study included 428 adults aged 40-99 years (mean age, 70 years) recruited from 30 academic and community-based neurology practices across the United States, with 277 diagnosed with PD, DLB, MSA, or PAF. It also included a control group of 120 participants with no symptoms suggestive of synucleinopathy.
Investigators used the commercially available Syn-One Test, developed in 2019 by CND Life Sciences, to analyze levels of P-SYN via 3-mm punch skin biopsies from each participant.
The test detected P-SYN in 95.5% of study participants overall, including 89 of 96 (92.7%) with PD, 54 of 55 (98.2%) with MSA, 48 of 50 (96%) with DLB, 22 of 22 (100%) with PAF, and 4 of 120 (3.3%) of the controls with no synucleinopathy.
The investigators said it is possible that some of the controls who tested positive had a subclinical form of synucleinopathy, which would explain the false positives.
Study limitations include clinical consensus diagnostic criteria without video or autopsy confirmation, a lack of genetic testing on participants (some genetic forms of PD do not have alpha-synuclein deposition), and the fact that controls were younger than those in disease groups.
“Further research is needed in unselected clinical populations to externally validate the findings and fully characterize the potential role of skin biopsy detection of P-SYN in clinical care,” the authors wrote.
Syn-One is not approved by the US Food and Drug Administration as a diagnostic test for PD but is available as a pathologic assay that determines whether a tissue sample contains phosphorylated alpha-synuclein and can be billed through Medicare.
The study was funded by the National Institutes of Health. Dr. Gibbons reported having stock options in CND Life Sciences outside the submitted work. Other disclosures are noted in the original article.
A version of this article appeared on Medscape.com.
When the Next Big Thing Falls Short
Recently, Acadia Pharmaceuticals announced it was stopping trials on Nuplazid for indications outside of Parkinson’s disease psychosis.
I was impressed with what I saw in my office. Although I know there’s some controversy over the drug, the majority of studies do show efficacy, and in my little practice I clearly noticed improvements in patients with Parkinson’s disease who’d previously failed the more standard agents (note - I have no financial affiliation with Acadia Pharmaceuticals).
So, as a lay-neurologist, I expected the drug to work for other kinds of psychosis, particularly Alzheimer’s disease. All of us in practice know how much we need new options for that.
But when the clinical trials came, the drug didn’t work. It didn’t work for schizophrenia, either, Finally, Acadia threw in the towel and gave up.
I have no idea what happened. I’m sure others are wondering the same thing. On paper, I’d have thought it would work for Alzheimer’s psychosis, but in the real world it didn’t.
Is psychosis between the two disorders that different, with different neurotransmitter causes? Are the benefits in my patients with Parkinson’s disease really just from my own selection bias? Or is there just a lot we still don’t know?
Look at the graveyard full of amyloid-targeting drugs. Yeah, I know Leqembi is out there, and donanemab is in the wings, but are they anywhere near as good as we thought they’d be? Not at all.
At the same time, we’ve been waiting for the BTK drugs (not to be confused with a Korean pop band) for multiple sclerosis. They sounded like they were the Next Big Thing.
They may be, but recent data on one of them, evobrutinib, was less than encouraging. Of course, that shouldn’t extrapolate to the group as a whole, but it does leave you wondering why.
Medicine is always improving, but it’s also still a trial-and-error process. Just because something should work doesn’t mean it will, and it may be years before we know why.
It’s just a reminder that, here in 2024, we still have a lot to learn.
Dr. Block has a solo neurology practice in Scottsdale, Ariz.
Recently, Acadia Pharmaceuticals announced it was stopping trials on Nuplazid for indications outside of Parkinson’s disease psychosis.
I was impressed with what I saw in my office. Although I know there’s some controversy over the drug, the majority of studies do show efficacy, and in my little practice I clearly noticed improvements in patients with Parkinson’s disease who’d previously failed the more standard agents (note - I have no financial affiliation with Acadia Pharmaceuticals).
So, as a lay-neurologist, I expected the drug to work for other kinds of psychosis, particularly Alzheimer’s disease. All of us in practice know how much we need new options for that.
But when the clinical trials came, the drug didn’t work. It didn’t work for schizophrenia, either, Finally, Acadia threw in the towel and gave up.
I have no idea what happened. I’m sure others are wondering the same thing. On paper, I’d have thought it would work for Alzheimer’s psychosis, but in the real world it didn’t.
Is psychosis between the two disorders that different, with different neurotransmitter causes? Are the benefits in my patients with Parkinson’s disease really just from my own selection bias? Or is there just a lot we still don’t know?
Look at the graveyard full of amyloid-targeting drugs. Yeah, I know Leqembi is out there, and donanemab is in the wings, but are they anywhere near as good as we thought they’d be? Not at all.
At the same time, we’ve been waiting for the BTK drugs (not to be confused with a Korean pop band) for multiple sclerosis. They sounded like they were the Next Big Thing.
They may be, but recent data on one of them, evobrutinib, was less than encouraging. Of course, that shouldn’t extrapolate to the group as a whole, but it does leave you wondering why.
Medicine is always improving, but it’s also still a trial-and-error process. Just because something should work doesn’t mean it will, and it may be years before we know why.
It’s just a reminder that, here in 2024, we still have a lot to learn.
Dr. Block has a solo neurology practice in Scottsdale, Ariz.
Recently, Acadia Pharmaceuticals announced it was stopping trials on Nuplazid for indications outside of Parkinson’s disease psychosis.
I was impressed with what I saw in my office. Although I know there’s some controversy over the drug, the majority of studies do show efficacy, and in my little practice I clearly noticed improvements in patients with Parkinson’s disease who’d previously failed the more standard agents (note - I have no financial affiliation with Acadia Pharmaceuticals).
So, as a lay-neurologist, I expected the drug to work for other kinds of psychosis, particularly Alzheimer’s disease. All of us in practice know how much we need new options for that.
But when the clinical trials came, the drug didn’t work. It didn’t work for schizophrenia, either, Finally, Acadia threw in the towel and gave up.
I have no idea what happened. I’m sure others are wondering the same thing. On paper, I’d have thought it would work for Alzheimer’s psychosis, but in the real world it didn’t.
Is psychosis between the two disorders that different, with different neurotransmitter causes? Are the benefits in my patients with Parkinson’s disease really just from my own selection bias? Or is there just a lot we still don’t know?
Look at the graveyard full of amyloid-targeting drugs. Yeah, I know Leqembi is out there, and donanemab is in the wings, but are they anywhere near as good as we thought they’d be? Not at all.
At the same time, we’ve been waiting for the BTK drugs (not to be confused with a Korean pop band) for multiple sclerosis. They sounded like they were the Next Big Thing.
They may be, but recent data on one of them, evobrutinib, was less than encouraging. Of course, that shouldn’t extrapolate to the group as a whole, but it does leave you wondering why.
Medicine is always improving, but it’s also still a trial-and-error process. Just because something should work doesn’t mean it will, and it may be years before we know why.
It’s just a reminder that, here in 2024, we still have a lot to learn.
Dr. Block has a solo neurology practice in Scottsdale, Ariz.
Neurological Disorders Now Top Global Cause of Illness, Disability
, a new comprehensive analysis showed.
In 2021, neurological conditions were responsible for 443 million years of healthy life lost due to illness, disability, and premature death — a measurement known as disability-adjusted life years (DALY) — making them the top contributor to the global disease burden, ahead of cardiovascular diseases.
Some 3.4 billion people — 43% of the entire global population — had a neurological illness in 2021, the report noted.
“As the world’s leading cause of overall disease burden, and with case numbers rising 59% globally since 1990, nervous system conditions must be addressed through effective, culturally acceptable, and affordable prevention, treatment, rehabilitation, and long-term care strategies,” lead author Jaimie Steinmetz, PhD, from the Institute of Health Metrics and Evaluation (IHME), University of Washington, Seattle, said in a news release.
The findings, from the Global Burden of Disease, Injuries, and Risk Factors Study (GBD) 2021, “have important health service and policy implications and serve as evidence that global neurological heath loss has been under-recognized and is increasing and unevenly distributed geographically and socioeconomically,” the authors noted.
The study was published online in The Lancet: Neurology.
The Top 10
The top 10 contributors to neurological health loss in 2021 were stroke, neonatal encephalopathy, migraine, Alzheimer’s disease and other dementias, diabetic neuropathy, meningitis, epilepsy, neurological complications from preterm birth, autistic spectrum disorders, and nervous system cancers.
Neurological consequences of COVID-19 ranked 20th out of 37 unique conditions assessed.
In 2021, there were more than 23 million global cases of COVID-19 with long-term cognitive symptoms or Guillain-Barré syndrome, accounting for 57% of all infectious neurological disease cases and contributing to 2.48 million years of healthy life lost, the study found.
The most prevalent neurological disorders were tension-type headache (about 2 billion cases) and migraine (about 1.1 billion cases), while diabetic neuropathy is the fastest-growing of all neurological conditions.
“The number of people with diabetic neuropathy has more than tripled globally since 1990, rising to 206 million in 2021. This is in line with the increase in the global prevalence of diabetes,” co-senior author Liane Ong, PhD, from IHME, said in the release.
The data showed striking differences in the burden of neurological conditions between world regions and national income levels, with over 80% of neurological deaths and health loss occurring in low- and middle-income countries.
Regions with the highest burden of neurological conditions were central and western sub-Saharan Africa, while high-income Asia Pacific and Australasia had the lowest burden.
“Nervous system health loss disproportionately impacts many of the poorest countries partly due to the higher prevalence of conditions affecting neonates and children under 5, especially birth-related complications and infections,” co-senior author Tarun Dua, MD, with the World Health Organization (WHO) brain health unit, noted in the news release.
“Improved infant survival has led to an increase in long-term disability, while limited access to treatment and rehabilitation services is contributing to the much higher proportion of deaths in these countries,” Dr. Dua said.
Prioritize Prevention
The analysis also provides estimates of the proportion of neurological conditions that are potentially preventable by eliminating known risk factors for stroke, dementia, multiple sclerosis, Parkinson’s disease, encephalitis, meningitis, and intellectual disability.
It shows that modifying 18 risk factors over a person’s lifetime — most importantly high systolic blood pressure — could prevent 84% of global DALYs from stroke. Controlling lead exposure could lower intellectual disability cases by 63% and reducing high fasting plasma glucose to normal levels could cut dementia by roughly 15%.
“Because many neurological conditions lack cures, and access to medical care is often limited, understanding modifiable risk factors and the potentially avoidable neurological condition burden is essential to help curb this global health crisis,” co-lead author Katrin Seeher, PhD, mental health specialist with WHO’s brain health unit, said in the release.
It’s important to note that nervous system conditions include infectious and vector-borne diseases and injuries as well as noncommunicable diseases and injuries, Dr. Steinmetz said, “demanding different strategies for prevention and treatment throughout life.”
“We hope that our findings can help policymakers more comprehensively understand the impact of neurological conditions on both adults and children to inform more targeted interventions in individual countries, as well as guide ongoing awareness and advocacy efforts around the world,” Dr. Steinmetz added.
In an accompanying editorial, Wolfgang Grisold, MD, president of the World Federation of Neurology, London, noted that the study builds on previous findings and expands the number of neurological conditions studied from 15 to 37.
“This important new GBD report highlights that the burden of neurological conditions is greater than previously thought,” wrote Dr. Grisold, who was not a part of the study. “In the next iteration, more attention should be given to neuromuscular diseases, the effects of cancer in the nervous system, and neuropathic pain. Comparing the disability caused by conditions with episodic occurrence versus those that cause permanent and progressive disease will remain challenging because the effects on the individuals vary substantially.”
The study was funded by the Bill and Melinda Gates Foundation. Full disclosures are included in the original article.
A version of this article appeared on Medscape.com.
, a new comprehensive analysis showed.
In 2021, neurological conditions were responsible for 443 million years of healthy life lost due to illness, disability, and premature death — a measurement known as disability-adjusted life years (DALY) — making them the top contributor to the global disease burden, ahead of cardiovascular diseases.
Some 3.4 billion people — 43% of the entire global population — had a neurological illness in 2021, the report noted.
“As the world’s leading cause of overall disease burden, and with case numbers rising 59% globally since 1990, nervous system conditions must be addressed through effective, culturally acceptable, and affordable prevention, treatment, rehabilitation, and long-term care strategies,” lead author Jaimie Steinmetz, PhD, from the Institute of Health Metrics and Evaluation (IHME), University of Washington, Seattle, said in a news release.
The findings, from the Global Burden of Disease, Injuries, and Risk Factors Study (GBD) 2021, “have important health service and policy implications and serve as evidence that global neurological heath loss has been under-recognized and is increasing and unevenly distributed geographically and socioeconomically,” the authors noted.
The study was published online in The Lancet: Neurology.
The Top 10
The top 10 contributors to neurological health loss in 2021 were stroke, neonatal encephalopathy, migraine, Alzheimer’s disease and other dementias, diabetic neuropathy, meningitis, epilepsy, neurological complications from preterm birth, autistic spectrum disorders, and nervous system cancers.
Neurological consequences of COVID-19 ranked 20th out of 37 unique conditions assessed.
In 2021, there were more than 23 million global cases of COVID-19 with long-term cognitive symptoms or Guillain-Barré syndrome, accounting for 57% of all infectious neurological disease cases and contributing to 2.48 million years of healthy life lost, the study found.
The most prevalent neurological disorders were tension-type headache (about 2 billion cases) and migraine (about 1.1 billion cases), while diabetic neuropathy is the fastest-growing of all neurological conditions.
“The number of people with diabetic neuropathy has more than tripled globally since 1990, rising to 206 million in 2021. This is in line with the increase in the global prevalence of diabetes,” co-senior author Liane Ong, PhD, from IHME, said in the release.
The data showed striking differences in the burden of neurological conditions between world regions and national income levels, with over 80% of neurological deaths and health loss occurring in low- and middle-income countries.
Regions with the highest burden of neurological conditions were central and western sub-Saharan Africa, while high-income Asia Pacific and Australasia had the lowest burden.
“Nervous system health loss disproportionately impacts many of the poorest countries partly due to the higher prevalence of conditions affecting neonates and children under 5, especially birth-related complications and infections,” co-senior author Tarun Dua, MD, with the World Health Organization (WHO) brain health unit, noted in the news release.
“Improved infant survival has led to an increase in long-term disability, while limited access to treatment and rehabilitation services is contributing to the much higher proportion of deaths in these countries,” Dr. Dua said.
Prioritize Prevention
The analysis also provides estimates of the proportion of neurological conditions that are potentially preventable by eliminating known risk factors for stroke, dementia, multiple sclerosis, Parkinson’s disease, encephalitis, meningitis, and intellectual disability.
It shows that modifying 18 risk factors over a person’s lifetime — most importantly high systolic blood pressure — could prevent 84% of global DALYs from stroke. Controlling lead exposure could lower intellectual disability cases by 63% and reducing high fasting plasma glucose to normal levels could cut dementia by roughly 15%.
“Because many neurological conditions lack cures, and access to medical care is often limited, understanding modifiable risk factors and the potentially avoidable neurological condition burden is essential to help curb this global health crisis,” co-lead author Katrin Seeher, PhD, mental health specialist with WHO’s brain health unit, said in the release.
It’s important to note that nervous system conditions include infectious and vector-borne diseases and injuries as well as noncommunicable diseases and injuries, Dr. Steinmetz said, “demanding different strategies for prevention and treatment throughout life.”
“We hope that our findings can help policymakers more comprehensively understand the impact of neurological conditions on both adults and children to inform more targeted interventions in individual countries, as well as guide ongoing awareness and advocacy efforts around the world,” Dr. Steinmetz added.
In an accompanying editorial, Wolfgang Grisold, MD, president of the World Federation of Neurology, London, noted that the study builds on previous findings and expands the number of neurological conditions studied from 15 to 37.
“This important new GBD report highlights that the burden of neurological conditions is greater than previously thought,” wrote Dr. Grisold, who was not a part of the study. “In the next iteration, more attention should be given to neuromuscular diseases, the effects of cancer in the nervous system, and neuropathic pain. Comparing the disability caused by conditions with episodic occurrence versus those that cause permanent and progressive disease will remain challenging because the effects on the individuals vary substantially.”
The study was funded by the Bill and Melinda Gates Foundation. Full disclosures are included in the original article.
A version of this article appeared on Medscape.com.
, a new comprehensive analysis showed.
In 2021, neurological conditions were responsible for 443 million years of healthy life lost due to illness, disability, and premature death — a measurement known as disability-adjusted life years (DALY) — making them the top contributor to the global disease burden, ahead of cardiovascular diseases.
Some 3.4 billion people — 43% of the entire global population — had a neurological illness in 2021, the report noted.
“As the world’s leading cause of overall disease burden, and with case numbers rising 59% globally since 1990, nervous system conditions must be addressed through effective, culturally acceptable, and affordable prevention, treatment, rehabilitation, and long-term care strategies,” lead author Jaimie Steinmetz, PhD, from the Institute of Health Metrics and Evaluation (IHME), University of Washington, Seattle, said in a news release.
The findings, from the Global Burden of Disease, Injuries, and Risk Factors Study (GBD) 2021, “have important health service and policy implications and serve as evidence that global neurological heath loss has been under-recognized and is increasing and unevenly distributed geographically and socioeconomically,” the authors noted.
The study was published online in The Lancet: Neurology.
The Top 10
The top 10 contributors to neurological health loss in 2021 were stroke, neonatal encephalopathy, migraine, Alzheimer’s disease and other dementias, diabetic neuropathy, meningitis, epilepsy, neurological complications from preterm birth, autistic spectrum disorders, and nervous system cancers.
Neurological consequences of COVID-19 ranked 20th out of 37 unique conditions assessed.
In 2021, there were more than 23 million global cases of COVID-19 with long-term cognitive symptoms or Guillain-Barré syndrome, accounting for 57% of all infectious neurological disease cases and contributing to 2.48 million years of healthy life lost, the study found.
The most prevalent neurological disorders were tension-type headache (about 2 billion cases) and migraine (about 1.1 billion cases), while diabetic neuropathy is the fastest-growing of all neurological conditions.
“The number of people with diabetic neuropathy has more than tripled globally since 1990, rising to 206 million in 2021. This is in line with the increase in the global prevalence of diabetes,” co-senior author Liane Ong, PhD, from IHME, said in the release.
The data showed striking differences in the burden of neurological conditions between world regions and national income levels, with over 80% of neurological deaths and health loss occurring in low- and middle-income countries.
Regions with the highest burden of neurological conditions were central and western sub-Saharan Africa, while high-income Asia Pacific and Australasia had the lowest burden.
“Nervous system health loss disproportionately impacts many of the poorest countries partly due to the higher prevalence of conditions affecting neonates and children under 5, especially birth-related complications and infections,” co-senior author Tarun Dua, MD, with the World Health Organization (WHO) brain health unit, noted in the news release.
“Improved infant survival has led to an increase in long-term disability, while limited access to treatment and rehabilitation services is contributing to the much higher proportion of deaths in these countries,” Dr. Dua said.
Prioritize Prevention
The analysis also provides estimates of the proportion of neurological conditions that are potentially preventable by eliminating known risk factors for stroke, dementia, multiple sclerosis, Parkinson’s disease, encephalitis, meningitis, and intellectual disability.
It shows that modifying 18 risk factors over a person’s lifetime — most importantly high systolic blood pressure — could prevent 84% of global DALYs from stroke. Controlling lead exposure could lower intellectual disability cases by 63% and reducing high fasting plasma glucose to normal levels could cut dementia by roughly 15%.
“Because many neurological conditions lack cures, and access to medical care is often limited, understanding modifiable risk factors and the potentially avoidable neurological condition burden is essential to help curb this global health crisis,” co-lead author Katrin Seeher, PhD, mental health specialist with WHO’s brain health unit, said in the release.
It’s important to note that nervous system conditions include infectious and vector-borne diseases and injuries as well as noncommunicable diseases and injuries, Dr. Steinmetz said, “demanding different strategies for prevention and treatment throughout life.”
“We hope that our findings can help policymakers more comprehensively understand the impact of neurological conditions on both adults and children to inform more targeted interventions in individual countries, as well as guide ongoing awareness and advocacy efforts around the world,” Dr. Steinmetz added.
In an accompanying editorial, Wolfgang Grisold, MD, president of the World Federation of Neurology, London, noted that the study builds on previous findings and expands the number of neurological conditions studied from 15 to 37.
“This important new GBD report highlights that the burden of neurological conditions is greater than previously thought,” wrote Dr. Grisold, who was not a part of the study. “In the next iteration, more attention should be given to neuromuscular diseases, the effects of cancer in the nervous system, and neuropathic pain. Comparing the disability caused by conditions with episodic occurrence versus those that cause permanent and progressive disease will remain challenging because the effects on the individuals vary substantially.”
The study was funded by the Bill and Melinda Gates Foundation. Full disclosures are included in the original article.
A version of this article appeared on Medscape.com.
FROM THE LANCET NEUROLOGY
5 Interesting Neurology Studies
This transcript has been edited for clarity.
Dear colleagues, I’m Christoph Diener from the medical faculty of University Duisburg-Essen in Germany. Today I would like to tell you about five interesting studies that were published in January 2024.
Long COVID
I would like to start with long COVID. There is an ongoing discussion about whether this condition — which means symptoms like dizziness, vertigo, fatigue, headache, and cognitive impairment that persist for more than 6 months — is either a consequence of the infection, functional symptoms, psychosomatic disease, or a depression.
There is an important paper that came out in Science. The group investigated 39 controls and 113 patients who had COVID-19. At 6 months, 40 of them had long COVID. The researchers repeatedly measured more than 6500 proteins in serum. The patients with long COVID had a significant increase in complement activation, which persisted even beyond 6 months. These patients also showed increased tissue lesion markers in the blood and activation of the endothelium.
Also, they had increased platelet activation and autoantibodies with increased anti-cytomegalovirus and anti-Epstein-Barr virus immunoglobulins. These are very strong indicators that COVID-19 leads to long-term changes in our immune system, and different activations of complement factors could explain the variety of symptoms that these patients display. Whether this has consequences for treatment is unclear at the moment.
Parkinson’s Classification
Let me come to another issue, which is the future treatment of Parkinson’s disease, covered in a paper in The Lancet Neurology. I think you are all aware that once patients display symptoms like rigidity, bradykinesia, or tremor, it’s most probably too late for neuroprotective therapy because 70% of the dopaminergic neurons are already dead.
The authors propose a new biological diagnosis of the disease in the preclinical state. This early preclinical diagnosis has three components. One is to show the presence of synuclein either in skin biopsy or in serum. The second is proof of neurodegeneration either by MRI or by PET imaging. The third involves genetic markers.
On top of this, we know that we have preclinical manifestations of Parkinson’s disease, like REM sleep disorders, autonomic disturbances, and cognitive impairment. With this new classification, we should be able to identify the preclinical phase of Parkinson’s disease and include these patients in future trials for neuroprotection.
Niemann-Pick Disease
My third study, in The New England Journal of Medicine, deals with Niemann-Pick disease type C (Trial of N-Acetyl-l-Leucine in Niemann–Pick Disease Type C. This is a rare autosomal recessive disorder that involves impaired lysosomal storage. This disease, which manifests usually in childhood, goes along with systemic, psychiatric, and neurologic abnormalities, and in particular, ataxia. Until now, there has been only one therapy, with miglustat. which has many side effects.
The group of authors found a new therapeutic approach with N-acetyl-L-leucine, which primarily increases mitochondrial energy production. This was a small, placebo-controlled, crossover trial with 2 x 12 weeks of treatment. This new compound showed efficacy and was very well tolerated. This shows that we definitely need long-term studies with this new, well-tolerated drug in this rare disease.
Anticoagulation in Subclinical AF
My fourth study comes from the stroke-prevention field, published in The New England Journal of Medicine. I think you are aware of subclinical atrail fibrillation. These are high-frequency episodes in ECG, usually identified by pacemakers or ECG monitoring systems. The international ARTESIA study included more than 4000 patients randomized either to apixaban 5 mg twice daily or aspirin 81 mg.
After 3.5 years, the investigators showed a small but significant decrease in the rate of stroke, with a relative risk reduction of 37%, but also, unfortunately, a significantly increased risk for major bleeding with apixaban. This means that we need a careful discussion with the patient, the family, and the GP to decide whether these patients should be anticoagulated or not.
Migraine and Depression
My final study, published in the European Journal of Neurology, deals with the comorbidity of depression and migraine. This study in the Netherlands included 108 patients treated with erenumab and 90 with fremanezumab; 68 were controls.
They used two depression scales. They showed that treatment with the monoclonal antibodies improved at least one of the two depression scales. I think this is an important study because it indicates that you can improve comorbid depression in people with severe migraine, even if this study did not show a correlation between the reduction in monthly migraine days and the improvement of depression.
What we learned for clinical practice is that we have to identify depression in people with migraine and we have to deal with it. Whether it’s with the treatment of monoclonal antibodies or antidepressant therapy doesn’t really matter.
Dear colleagues, we had interesting studies this month. I think the most spectacular one was published in Science on long COVID. Thank you very much for listening and watching. I’m Christoph Diener from University Duisburg-Essen.
Dr. Diener is Professor, Department of Neurology, Stroke Center-Headache Center, University Duisburg-Essen, Essen, Germany. He disclosed ties with Abbott; Addex Pharma; Alder; Allergan; Almirall; Amgen; Autonomic Technology; AstraZeneca; Bayer Vital; Berlin Chemie; Bristol-Myers Squibb; Boehringer Ingelheim; Chordate; CoAxia; Corimmun; Covidien; Coherex; CoLucid; Daiichi-Sankyo; D-Pharml Electrocore; Fresenius; GlaxoSmithKline; Grunenthal; Janssen-Cilag; Labrys Biologics Lilly; La Roche; 3M Medica; MSD; Medtronic; Menarini; MindFrame; Minster; Neuroscore; Neurobiological Technologies; Novartis; Novo-Nordisk; Johnson & Johnson; Knoll; Paion; Parke-Davis; Pierre Fabre; Pfizer Inc; Schaper and Brummer; sanofi-aventis; Schering-Plough; Servier; Solvay; Syngis; St. Jude; Talecris; Thrombogenics; WebMD Global; Weber and Weber; Wyeth; and Yamanouchi.
A version of this article appeared on Medscape.com.
This transcript has been edited for clarity.
Dear colleagues, I’m Christoph Diener from the medical faculty of University Duisburg-Essen in Germany. Today I would like to tell you about five interesting studies that were published in January 2024.
Long COVID
I would like to start with long COVID. There is an ongoing discussion about whether this condition — which means symptoms like dizziness, vertigo, fatigue, headache, and cognitive impairment that persist for more than 6 months — is either a consequence of the infection, functional symptoms, psychosomatic disease, or a depression.
There is an important paper that came out in Science. The group investigated 39 controls and 113 patients who had COVID-19. At 6 months, 40 of them had long COVID. The researchers repeatedly measured more than 6500 proteins in serum. The patients with long COVID had a significant increase in complement activation, which persisted even beyond 6 months. These patients also showed increased tissue lesion markers in the blood and activation of the endothelium.
Also, they had increased platelet activation and autoantibodies with increased anti-cytomegalovirus and anti-Epstein-Barr virus immunoglobulins. These are very strong indicators that COVID-19 leads to long-term changes in our immune system, and different activations of complement factors could explain the variety of symptoms that these patients display. Whether this has consequences for treatment is unclear at the moment.
Parkinson’s Classification
Let me come to another issue, which is the future treatment of Parkinson’s disease, covered in a paper in The Lancet Neurology. I think you are all aware that once patients display symptoms like rigidity, bradykinesia, or tremor, it’s most probably too late for neuroprotective therapy because 70% of the dopaminergic neurons are already dead.
The authors propose a new biological diagnosis of the disease in the preclinical state. This early preclinical diagnosis has three components. One is to show the presence of synuclein either in skin biopsy or in serum. The second is proof of neurodegeneration either by MRI or by PET imaging. The third involves genetic markers.
On top of this, we know that we have preclinical manifestations of Parkinson’s disease, like REM sleep disorders, autonomic disturbances, and cognitive impairment. With this new classification, we should be able to identify the preclinical phase of Parkinson’s disease and include these patients in future trials for neuroprotection.
Niemann-Pick Disease
My third study, in The New England Journal of Medicine, deals with Niemann-Pick disease type C (Trial of N-Acetyl-l-Leucine in Niemann–Pick Disease Type C. This is a rare autosomal recessive disorder that involves impaired lysosomal storage. This disease, which manifests usually in childhood, goes along with systemic, psychiatric, and neurologic abnormalities, and in particular, ataxia. Until now, there has been only one therapy, with miglustat. which has many side effects.
The group of authors found a new therapeutic approach with N-acetyl-L-leucine, which primarily increases mitochondrial energy production. This was a small, placebo-controlled, crossover trial with 2 x 12 weeks of treatment. This new compound showed efficacy and was very well tolerated. This shows that we definitely need long-term studies with this new, well-tolerated drug in this rare disease.
Anticoagulation in Subclinical AF
My fourth study comes from the stroke-prevention field, published in The New England Journal of Medicine. I think you are aware of subclinical atrail fibrillation. These are high-frequency episodes in ECG, usually identified by pacemakers or ECG monitoring systems. The international ARTESIA study included more than 4000 patients randomized either to apixaban 5 mg twice daily or aspirin 81 mg.
After 3.5 years, the investigators showed a small but significant decrease in the rate of stroke, with a relative risk reduction of 37%, but also, unfortunately, a significantly increased risk for major bleeding with apixaban. This means that we need a careful discussion with the patient, the family, and the GP to decide whether these patients should be anticoagulated or not.
Migraine and Depression
My final study, published in the European Journal of Neurology, deals with the comorbidity of depression and migraine. This study in the Netherlands included 108 patients treated with erenumab and 90 with fremanezumab; 68 were controls.
They used two depression scales. They showed that treatment with the monoclonal antibodies improved at least one of the two depression scales. I think this is an important study because it indicates that you can improve comorbid depression in people with severe migraine, even if this study did not show a correlation between the reduction in monthly migraine days and the improvement of depression.
What we learned for clinical practice is that we have to identify depression in people with migraine and we have to deal with it. Whether it’s with the treatment of monoclonal antibodies or antidepressant therapy doesn’t really matter.
Dear colleagues, we had interesting studies this month. I think the most spectacular one was published in Science on long COVID. Thank you very much for listening and watching. I’m Christoph Diener from University Duisburg-Essen.
Dr. Diener is Professor, Department of Neurology, Stroke Center-Headache Center, University Duisburg-Essen, Essen, Germany. He disclosed ties with Abbott; Addex Pharma; Alder; Allergan; Almirall; Amgen; Autonomic Technology; AstraZeneca; Bayer Vital; Berlin Chemie; Bristol-Myers Squibb; Boehringer Ingelheim; Chordate; CoAxia; Corimmun; Covidien; Coherex; CoLucid; Daiichi-Sankyo; D-Pharml Electrocore; Fresenius; GlaxoSmithKline; Grunenthal; Janssen-Cilag; Labrys Biologics Lilly; La Roche; 3M Medica; MSD; Medtronic; Menarini; MindFrame; Minster; Neuroscore; Neurobiological Technologies; Novartis; Novo-Nordisk; Johnson & Johnson; Knoll; Paion; Parke-Davis; Pierre Fabre; Pfizer Inc; Schaper and Brummer; sanofi-aventis; Schering-Plough; Servier; Solvay; Syngis; St. Jude; Talecris; Thrombogenics; WebMD Global; Weber and Weber; Wyeth; and Yamanouchi.
A version of this article appeared on Medscape.com.
This transcript has been edited for clarity.
Dear colleagues, I’m Christoph Diener from the medical faculty of University Duisburg-Essen in Germany. Today I would like to tell you about five interesting studies that were published in January 2024.
Long COVID
I would like to start with long COVID. There is an ongoing discussion about whether this condition — which means symptoms like dizziness, vertigo, fatigue, headache, and cognitive impairment that persist for more than 6 months — is either a consequence of the infection, functional symptoms, psychosomatic disease, or a depression.
There is an important paper that came out in Science. The group investigated 39 controls and 113 patients who had COVID-19. At 6 months, 40 of them had long COVID. The researchers repeatedly measured more than 6500 proteins in serum. The patients with long COVID had a significant increase in complement activation, which persisted even beyond 6 months. These patients also showed increased tissue lesion markers in the blood and activation of the endothelium.
Also, they had increased platelet activation and autoantibodies with increased anti-cytomegalovirus and anti-Epstein-Barr virus immunoglobulins. These are very strong indicators that COVID-19 leads to long-term changes in our immune system, and different activations of complement factors could explain the variety of symptoms that these patients display. Whether this has consequences for treatment is unclear at the moment.
Parkinson’s Classification
Let me come to another issue, which is the future treatment of Parkinson’s disease, covered in a paper in The Lancet Neurology. I think you are all aware that once patients display symptoms like rigidity, bradykinesia, or tremor, it’s most probably too late for neuroprotective therapy because 70% of the dopaminergic neurons are already dead.
The authors propose a new biological diagnosis of the disease in the preclinical state. This early preclinical diagnosis has three components. One is to show the presence of synuclein either in skin biopsy or in serum. The second is proof of neurodegeneration either by MRI or by PET imaging. The third involves genetic markers.
On top of this, we know that we have preclinical manifestations of Parkinson’s disease, like REM sleep disorders, autonomic disturbances, and cognitive impairment. With this new classification, we should be able to identify the preclinical phase of Parkinson’s disease and include these patients in future trials for neuroprotection.
Niemann-Pick Disease
My third study, in The New England Journal of Medicine, deals with Niemann-Pick disease type C (Trial of N-Acetyl-l-Leucine in Niemann–Pick Disease Type C. This is a rare autosomal recessive disorder that involves impaired lysosomal storage. This disease, which manifests usually in childhood, goes along with systemic, psychiatric, and neurologic abnormalities, and in particular, ataxia. Until now, there has been only one therapy, with miglustat. which has many side effects.
The group of authors found a new therapeutic approach with N-acetyl-L-leucine, which primarily increases mitochondrial energy production. This was a small, placebo-controlled, crossover trial with 2 x 12 weeks of treatment. This new compound showed efficacy and was very well tolerated. This shows that we definitely need long-term studies with this new, well-tolerated drug in this rare disease.
Anticoagulation in Subclinical AF
My fourth study comes from the stroke-prevention field, published in The New England Journal of Medicine. I think you are aware of subclinical atrail fibrillation. These are high-frequency episodes in ECG, usually identified by pacemakers or ECG monitoring systems. The international ARTESIA study included more than 4000 patients randomized either to apixaban 5 mg twice daily or aspirin 81 mg.
After 3.5 years, the investigators showed a small but significant decrease in the rate of stroke, with a relative risk reduction of 37%, but also, unfortunately, a significantly increased risk for major bleeding with apixaban. This means that we need a careful discussion with the patient, the family, and the GP to decide whether these patients should be anticoagulated or not.
Migraine and Depression
My final study, published in the European Journal of Neurology, deals with the comorbidity of depression and migraine. This study in the Netherlands included 108 patients treated with erenumab and 90 with fremanezumab; 68 were controls.
They used two depression scales. They showed that treatment with the monoclonal antibodies improved at least one of the two depression scales. I think this is an important study because it indicates that you can improve comorbid depression in people with severe migraine, even if this study did not show a correlation between the reduction in monthly migraine days and the improvement of depression.
What we learned for clinical practice is that we have to identify depression in people with migraine and we have to deal with it. Whether it’s with the treatment of monoclonal antibodies or antidepressant therapy doesn’t really matter.
Dear colleagues, we had interesting studies this month. I think the most spectacular one was published in Science on long COVID. Thank you very much for listening and watching. I’m Christoph Diener from University Duisburg-Essen.
Dr. Diener is Professor, Department of Neurology, Stroke Center-Headache Center, University Duisburg-Essen, Essen, Germany. He disclosed ties with Abbott; Addex Pharma; Alder; Allergan; Almirall; Amgen; Autonomic Technology; AstraZeneca; Bayer Vital; Berlin Chemie; Bristol-Myers Squibb; Boehringer Ingelheim; Chordate; CoAxia; Corimmun; Covidien; Coherex; CoLucid; Daiichi-Sankyo; D-Pharml Electrocore; Fresenius; GlaxoSmithKline; Grunenthal; Janssen-Cilag; Labrys Biologics Lilly; La Roche; 3M Medica; MSD; Medtronic; Menarini; MindFrame; Minster; Neuroscore; Neurobiological Technologies; Novartis; Novo-Nordisk; Johnson & Johnson; Knoll; Paion; Parke-Davis; Pierre Fabre; Pfizer Inc; Schaper and Brummer; sanofi-aventis; Schering-Plough; Servier; Solvay; Syngis; St. Jude; Talecris; Thrombogenics; WebMD Global; Weber and Weber; Wyeth; and Yamanouchi.
A version of this article appeared on Medscape.com.
Robotic Garment Improves Stride in Patient With Parkinson’s Disease
A wearable, soft, robotic device could help patients with Parkinson’s disease (PD) walk without experiencing freezing of gait (FoG), early research suggested.
The robotic apparel, worn around the hips and thighs, gently pushes the hips as the leg swings, facilitating a longer stride and preventing FoG, a common disorder in PD that affects nearly all patients over the disease course.
The small, proof-of-concept study included one person with PD. But investigators noted the reduction in freezing and falls and improvement in walking distance and speed was dramatic. Incidence of FoG decreased from 63% to just 6% when the patient wore the robotic garment outdoors. Wearing the device indoors eliminated freezing altogether.
“We demonstrate proof-of-concept that FoG can be averted using a soft robotic device — a machine that aims to apply physical assistance to movement with minimal restriction, a fundamentally different approach to rigid exoskeletons,” lead investigators Conor Walsh, PhD, and Terry Ellis, PhD, PT, told this news organization.
Walsh is a professor at Harvard John A. Paulson School of Engineering and Applied Sciences in Boston, and Ellis is a professor and chair of the physical therapy department and director of the Center for Neurorehabilitation, Boston University, Boston, Massachusetts.
The study was published online on January 5, 2024, in Nature Medicine.
Disabling Disturbance
From a biomechanical perspective, FoG is manifested by an overt breakdown in spatial and temporal mechanics of walking. The impaired limb coordination occurs during the “swing phase” of the gait cycle.
There are currently no interventions that prevent FoG. Available treatment interventions include pharmacotherapy, such as dopamine replacement; deep brain stimulation (DBS) of the subthalamic nucleus; and behavioral interventions, such as cueing strategies. All have shown only modest effects in reducing FoG and, in some cases, might even worsen it, the investigators noted.
“This challenge led us to become interested in leveraging soft wearable robots to deliver mechanical cues to disrupt aberrant gait mechanics and prevent FOG in people with PD,” Dr. Walsh and Dr. Ellis said.
“Wearable robots” have been used to augment kinematics in neurologic conditions, such as stroke, cerebral palsy, and spinal cord injury. Harnessing this technology to address FoG required “a collaboration between engineers, rehabilitation scientists, physical therapists, biomechanists, and apparel designers,” the researchers said.
The wearable robotic device uses cable-driven actuators, which enable physical movement by converting electrical energy into mechanical force, and sensors worn around the waist and thighs. Using motion data collected by the sensors, algorithms estimate the phase of the walking cycle and generate assistive forces in concert with biological muscles.
Real-World Testing
The researchers tested the robotic garment on a 73-year-old man with idiopathic PD of 10-year duration. The man’s ongoing pharmacologic treatment included 1.5 tablets of 25- to 100-mg carbidopa/levodopa taken four times per day, one tablet of 100-mg amantadine twice per day, and one tablet of 200-mg entacapone taken four times per day.
He had also undergone DBS to the globus pallidus internus and utilized behavioral strategies. Despite these interventions, he continued to endure more than 10 episodes of FoG per day and numerous falls.
The patient tended to use walls to stabilize himself when walking. Freezing episodes were observed mostly when he walked in open hallways, turned, walked outdoors, and when he tried to walk and talk simultaneously.
The research was conducted over a 6-month period, with a total of five study sessions that consisted of walking trials. Four were administered in the laboratory. The fifth was conducted in a real-world outdoor community setting.
During the first visit, a biomechanical analysis of walking was performed under single-task conditions during the medication-on phase.
Testing was usually conducted during medication-on phase and under single-task conditions. But testing conditions also included attention-demanding dual tasks and single-task walking during the medication-off phase.
The researchers compared the effects of the assistance of the robotic apparel to no apparel and with the apparel turned off. They measured the percentage of time spent freezing and the total distance walked.
Robust Response
The participant demonstrated a “robust response” to the robotic apparel. With the garment’s assistance, FoG was eliminated when worn indoors, and walking distance increased by 55%. The participant walked faster and had a 25% reduction in gait variability.
These beneficial effects were repeated across multiple days as well as different types of provoking conditions and environmental contexts. When the device was tried outdoors, FoG decreased from 63% to 6% of the time. The patient was also able to simultaneously walk and talk without freezing.
“When the device assisted with hip flexion during the terminal stance phase of walking (when lifting the toe), FoG was instantaneously eliminated during inner walking, accompanied by clinically significant improvement in walking speeds and distance,” Dr. Walsh and Dr. Ellis reported.
The approach “suggests the potential benefits of a ‘bottom-up’ rather than a ‘top-down’ solution to treating gait freezing,” they commented. “We see that restoring almost-normal biomechanics alters the peripheral dynamics of gait and may influence the central processing of gait control.”
Bringing Hope
Rebecca Gilbert MD, PhD, chief mission officer, American Parkinson Disease Association, said this new approach is “exciting.”
Whether the benefits will be as robust in other people with PD “remains to be seen,” said Dr. Gilbert, who was not involved with the study.
“The paper states that multiple experimental variables utilizing the device could potentially be adjusted to serve different people with PD, and these will need to be tested in clinical trials as well,” Dr. Gilbert said.
Additionally, “the device itself is complex and may be challenging to get on and off without help, which may limit its usability in the community,” Dr. Gilbert noted.
Although more work is needed, the study “represents a remarkable proof of concept that brings hope to those with FoG,” she added.
These “promising findings prompt further investigation to validate the effects of the robotic apparel on a broader range of individuals with PD experiencing FoG and across various FoG phenotypes and environments and task contexts, complemented with FoG metrics that include quantification of the severity of the freezing episodes,” Walsh and Ellis added.
This study was based on work supported by the National Science Foundation, the National Institutes of Health, and the Massachusetts Technology Collaborative, Collaborative Research and Development Matching Grant. This work was also partially funded by the John A. Paulson School of Engineering and Applied Sciences at Harvard University as well as received financial support from the Samsung Scholarship.
A version of this article appeared on Medscape.com.
A wearable, soft, robotic device could help patients with Parkinson’s disease (PD) walk without experiencing freezing of gait (FoG), early research suggested.
The robotic apparel, worn around the hips and thighs, gently pushes the hips as the leg swings, facilitating a longer stride and preventing FoG, a common disorder in PD that affects nearly all patients over the disease course.
The small, proof-of-concept study included one person with PD. But investigators noted the reduction in freezing and falls and improvement in walking distance and speed was dramatic. Incidence of FoG decreased from 63% to just 6% when the patient wore the robotic garment outdoors. Wearing the device indoors eliminated freezing altogether.
“We demonstrate proof-of-concept that FoG can be averted using a soft robotic device — a machine that aims to apply physical assistance to movement with minimal restriction, a fundamentally different approach to rigid exoskeletons,” lead investigators Conor Walsh, PhD, and Terry Ellis, PhD, PT, told this news organization.
Walsh is a professor at Harvard John A. Paulson School of Engineering and Applied Sciences in Boston, and Ellis is a professor and chair of the physical therapy department and director of the Center for Neurorehabilitation, Boston University, Boston, Massachusetts.
The study was published online on January 5, 2024, in Nature Medicine.
Disabling Disturbance
From a biomechanical perspective, FoG is manifested by an overt breakdown in spatial and temporal mechanics of walking. The impaired limb coordination occurs during the “swing phase” of the gait cycle.
There are currently no interventions that prevent FoG. Available treatment interventions include pharmacotherapy, such as dopamine replacement; deep brain stimulation (DBS) of the subthalamic nucleus; and behavioral interventions, such as cueing strategies. All have shown only modest effects in reducing FoG and, in some cases, might even worsen it, the investigators noted.
“This challenge led us to become interested in leveraging soft wearable robots to deliver mechanical cues to disrupt aberrant gait mechanics and prevent FOG in people with PD,” Dr. Walsh and Dr. Ellis said.
“Wearable robots” have been used to augment kinematics in neurologic conditions, such as stroke, cerebral palsy, and spinal cord injury. Harnessing this technology to address FoG required “a collaboration between engineers, rehabilitation scientists, physical therapists, biomechanists, and apparel designers,” the researchers said.
The wearable robotic device uses cable-driven actuators, which enable physical movement by converting electrical energy into mechanical force, and sensors worn around the waist and thighs. Using motion data collected by the sensors, algorithms estimate the phase of the walking cycle and generate assistive forces in concert with biological muscles.
Real-World Testing
The researchers tested the robotic garment on a 73-year-old man with idiopathic PD of 10-year duration. The man’s ongoing pharmacologic treatment included 1.5 tablets of 25- to 100-mg carbidopa/levodopa taken four times per day, one tablet of 100-mg amantadine twice per day, and one tablet of 200-mg entacapone taken four times per day.
He had also undergone DBS to the globus pallidus internus and utilized behavioral strategies. Despite these interventions, he continued to endure more than 10 episodes of FoG per day and numerous falls.
The patient tended to use walls to stabilize himself when walking. Freezing episodes were observed mostly when he walked in open hallways, turned, walked outdoors, and when he tried to walk and talk simultaneously.
The research was conducted over a 6-month period, with a total of five study sessions that consisted of walking trials. Four were administered in the laboratory. The fifth was conducted in a real-world outdoor community setting.
During the first visit, a biomechanical analysis of walking was performed under single-task conditions during the medication-on phase.
Testing was usually conducted during medication-on phase and under single-task conditions. But testing conditions also included attention-demanding dual tasks and single-task walking during the medication-off phase.
The researchers compared the effects of the assistance of the robotic apparel to no apparel and with the apparel turned off. They measured the percentage of time spent freezing and the total distance walked.
Robust Response
The participant demonstrated a “robust response” to the robotic apparel. With the garment’s assistance, FoG was eliminated when worn indoors, and walking distance increased by 55%. The participant walked faster and had a 25% reduction in gait variability.
These beneficial effects were repeated across multiple days as well as different types of provoking conditions and environmental contexts. When the device was tried outdoors, FoG decreased from 63% to 6% of the time. The patient was also able to simultaneously walk and talk without freezing.
“When the device assisted with hip flexion during the terminal stance phase of walking (when lifting the toe), FoG was instantaneously eliminated during inner walking, accompanied by clinically significant improvement in walking speeds and distance,” Dr. Walsh and Dr. Ellis reported.
The approach “suggests the potential benefits of a ‘bottom-up’ rather than a ‘top-down’ solution to treating gait freezing,” they commented. “We see that restoring almost-normal biomechanics alters the peripheral dynamics of gait and may influence the central processing of gait control.”
Bringing Hope
Rebecca Gilbert MD, PhD, chief mission officer, American Parkinson Disease Association, said this new approach is “exciting.”
Whether the benefits will be as robust in other people with PD “remains to be seen,” said Dr. Gilbert, who was not involved with the study.
“The paper states that multiple experimental variables utilizing the device could potentially be adjusted to serve different people with PD, and these will need to be tested in clinical trials as well,” Dr. Gilbert said.
Additionally, “the device itself is complex and may be challenging to get on and off without help, which may limit its usability in the community,” Dr. Gilbert noted.
Although more work is needed, the study “represents a remarkable proof of concept that brings hope to those with FoG,” she added.
These “promising findings prompt further investigation to validate the effects of the robotic apparel on a broader range of individuals with PD experiencing FoG and across various FoG phenotypes and environments and task contexts, complemented with FoG metrics that include quantification of the severity of the freezing episodes,” Walsh and Ellis added.
This study was based on work supported by the National Science Foundation, the National Institutes of Health, and the Massachusetts Technology Collaborative, Collaborative Research and Development Matching Grant. This work was also partially funded by the John A. Paulson School of Engineering and Applied Sciences at Harvard University as well as received financial support from the Samsung Scholarship.
A version of this article appeared on Medscape.com.
A wearable, soft, robotic device could help patients with Parkinson’s disease (PD) walk without experiencing freezing of gait (FoG), early research suggested.
The robotic apparel, worn around the hips and thighs, gently pushes the hips as the leg swings, facilitating a longer stride and preventing FoG, a common disorder in PD that affects nearly all patients over the disease course.
The small, proof-of-concept study included one person with PD. But investigators noted the reduction in freezing and falls and improvement in walking distance and speed was dramatic. Incidence of FoG decreased from 63% to just 6% when the patient wore the robotic garment outdoors. Wearing the device indoors eliminated freezing altogether.
“We demonstrate proof-of-concept that FoG can be averted using a soft robotic device — a machine that aims to apply physical assistance to movement with minimal restriction, a fundamentally different approach to rigid exoskeletons,” lead investigators Conor Walsh, PhD, and Terry Ellis, PhD, PT, told this news organization.
Walsh is a professor at Harvard John A. Paulson School of Engineering and Applied Sciences in Boston, and Ellis is a professor and chair of the physical therapy department and director of the Center for Neurorehabilitation, Boston University, Boston, Massachusetts.
The study was published online on January 5, 2024, in Nature Medicine.
Disabling Disturbance
From a biomechanical perspective, FoG is manifested by an overt breakdown in spatial and temporal mechanics of walking. The impaired limb coordination occurs during the “swing phase” of the gait cycle.
There are currently no interventions that prevent FoG. Available treatment interventions include pharmacotherapy, such as dopamine replacement; deep brain stimulation (DBS) of the subthalamic nucleus; and behavioral interventions, such as cueing strategies. All have shown only modest effects in reducing FoG and, in some cases, might even worsen it, the investigators noted.
“This challenge led us to become interested in leveraging soft wearable robots to deliver mechanical cues to disrupt aberrant gait mechanics and prevent FOG in people with PD,” Dr. Walsh and Dr. Ellis said.
“Wearable robots” have been used to augment kinematics in neurologic conditions, such as stroke, cerebral palsy, and spinal cord injury. Harnessing this technology to address FoG required “a collaboration between engineers, rehabilitation scientists, physical therapists, biomechanists, and apparel designers,” the researchers said.
The wearable robotic device uses cable-driven actuators, which enable physical movement by converting electrical energy into mechanical force, and sensors worn around the waist and thighs. Using motion data collected by the sensors, algorithms estimate the phase of the walking cycle and generate assistive forces in concert with biological muscles.
Real-World Testing
The researchers tested the robotic garment on a 73-year-old man with idiopathic PD of 10-year duration. The man’s ongoing pharmacologic treatment included 1.5 tablets of 25- to 100-mg carbidopa/levodopa taken four times per day, one tablet of 100-mg amantadine twice per day, and one tablet of 200-mg entacapone taken four times per day.
He had also undergone DBS to the globus pallidus internus and utilized behavioral strategies. Despite these interventions, he continued to endure more than 10 episodes of FoG per day and numerous falls.
The patient tended to use walls to stabilize himself when walking. Freezing episodes were observed mostly when he walked in open hallways, turned, walked outdoors, and when he tried to walk and talk simultaneously.
The research was conducted over a 6-month period, with a total of five study sessions that consisted of walking trials. Four were administered in the laboratory. The fifth was conducted in a real-world outdoor community setting.
During the first visit, a biomechanical analysis of walking was performed under single-task conditions during the medication-on phase.
Testing was usually conducted during medication-on phase and under single-task conditions. But testing conditions also included attention-demanding dual tasks and single-task walking during the medication-off phase.
The researchers compared the effects of the assistance of the robotic apparel to no apparel and with the apparel turned off. They measured the percentage of time spent freezing and the total distance walked.
Robust Response
The participant demonstrated a “robust response” to the robotic apparel. With the garment’s assistance, FoG was eliminated when worn indoors, and walking distance increased by 55%. The participant walked faster and had a 25% reduction in gait variability.
These beneficial effects were repeated across multiple days as well as different types of provoking conditions and environmental contexts. When the device was tried outdoors, FoG decreased from 63% to 6% of the time. The patient was also able to simultaneously walk and talk without freezing.
“When the device assisted with hip flexion during the terminal stance phase of walking (when lifting the toe), FoG was instantaneously eliminated during inner walking, accompanied by clinically significant improvement in walking speeds and distance,” Dr. Walsh and Dr. Ellis reported.
The approach “suggests the potential benefits of a ‘bottom-up’ rather than a ‘top-down’ solution to treating gait freezing,” they commented. “We see that restoring almost-normal biomechanics alters the peripheral dynamics of gait and may influence the central processing of gait control.”
Bringing Hope
Rebecca Gilbert MD, PhD, chief mission officer, American Parkinson Disease Association, said this new approach is “exciting.”
Whether the benefits will be as robust in other people with PD “remains to be seen,” said Dr. Gilbert, who was not involved with the study.
“The paper states that multiple experimental variables utilizing the device could potentially be adjusted to serve different people with PD, and these will need to be tested in clinical trials as well,” Dr. Gilbert said.
Additionally, “the device itself is complex and may be challenging to get on and off without help, which may limit its usability in the community,” Dr. Gilbert noted.
Although more work is needed, the study “represents a remarkable proof of concept that brings hope to those with FoG,” she added.
These “promising findings prompt further investigation to validate the effects of the robotic apparel on a broader range of individuals with PD experiencing FoG and across various FoG phenotypes and environments and task contexts, complemented with FoG metrics that include quantification of the severity of the freezing episodes,” Walsh and Ellis added.
This study was based on work supported by the National Science Foundation, the National Institutes of Health, and the Massachusetts Technology Collaborative, Collaborative Research and Development Matching Grant. This work was also partially funded by the John A. Paulson School of Engineering and Applied Sciences at Harvard University as well as received financial support from the Samsung Scholarship.
A version of this article appeared on Medscape.com.
Modifiable Risk Factors for Young-Onset Dementia Flagged
TOPLINE:
In addition to better known risk factors such as diabetes, stroke, heart disease, and depression, findings of a large study suggested vitamin D deficiency, elevated C-reactive protein (CRP) levels, and social isolation increase the risk for young-onset dementia (YOD).
METHODOLOGY:
- The study included 356,052 participants younger than 65 years (mean baseline age, 54.6 years) without dementia from the UK Biobank, an ongoing prospective cohort study.
- Participants underwent a comprehensive baseline assessment, provided biological samples, completed touch screen questionnaires, and underwent a physical examination.
- Researchers identified incident all-cause YOD cases from hospital inpatient registers or death register linkage.
- The researchers detected 39 potential risk factors and grouped them into domains of sociodemographic, genetic, lifestyle, environmental, vitamin D and CRP levels, cardiometabolic, psychiatric, and other factors.
- Researchers analyzed incidence rates of YOD for 5-year age bands starting at age 40 years and separately for men and women.
TAKEAWAY:
- During a mean follow-up of 8.12 years, there were 485 incident YOD cases (incidence rate of 16.8 per 100,000 person-years; 95% CI 15.4-18.3).
- The final analysis identified 15 risk factors associated with significantly higher incidence of YOD, including traditional factors like stroke (hazard ratio [HR], 2.07), heart disease (HR, 1.61), diabetes (HR, 1.65), and depression (HR, 3.25) but also less-recognized risk factors like vitamin D deficiency (< 10 ng/mL; HR, 1.59), high CRP levels (> 1 mg/dL; HR, 1.54), and social isolation (infrequent visits to friends or family; HR, 1.53), with lower socioeconomic status (HR, 1.82), having two apolipoprotein E epsilon-4 alleles (HR, 1.87), orthostatic hypotension, which the authors said may be an early sign of Parkinson dementia or Lewy body dementia (HR, 4.20), and hearing impairment (HR, 1.56) also increasing risk.
- Interestingly, some alcohol use seemed to be protective (moderate or heavy alcohol use had a lower association with YOD than alcohol abstinence, possibly due to the “healthy drinker effect” where people who drink are healthier than abstainers who may have illnesses preventing them from drinking, said the authors), as was higher education level and higher than normative handgrip strength (less strength is a proxy for physical frailty).
- Men with diabetes had higher YOD risk than those without diabetes, while there was no association with diabetes in women; on the other hand, women with high CRP levels had greater YOD risk than those with low levels, while there was no association with CRP in men.
IN PRACTICE:
“While further exploration of these risk factors is necessary to identify potential underlying mechanisms, addressing these modifiable factors may prove effective in mitigating the risk of developing YOD and can be readily integrated in current dementia prevention initiatives,” the investigators wrote.
SOURCE:
The study was led by Stevie Hendriks, PhD, Department of Psychiatry and Neuropsychology, Maastricht University, Maastricht, the Netherlands. It was published online in JAMA Neurology.
LIMITATIONS:
The study was observational and so can’t infer causality. Several factors were based on self-reported data, which might be a source of response bias. Factors not considered in the study, for example, family history of dementia and drug (other than alcohol) use disorder, may have confounded associations. Some factors including orthostatic hypotension had few exposed cases, leading to decreased power to detect associations. Hospital and death records may not have captured all YOD cases. The UK Biobank is overrepresented by healthy and White participants, so results may not be generalizable to other racial and ethnic groups. The analyses only focused on all-cause dementia.
DISCLOSURES:
The study was supported by Alzheimer Netherlands. Hendriks has no relevant conflicts of interest; see paper for disclosures of other authors.
A version of this article appeared on Medscape.com.
TOPLINE:
In addition to better known risk factors such as diabetes, stroke, heart disease, and depression, findings of a large study suggested vitamin D deficiency, elevated C-reactive protein (CRP) levels, and social isolation increase the risk for young-onset dementia (YOD).
METHODOLOGY:
- The study included 356,052 participants younger than 65 years (mean baseline age, 54.6 years) without dementia from the UK Biobank, an ongoing prospective cohort study.
- Participants underwent a comprehensive baseline assessment, provided biological samples, completed touch screen questionnaires, and underwent a physical examination.
- Researchers identified incident all-cause YOD cases from hospital inpatient registers or death register linkage.
- The researchers detected 39 potential risk factors and grouped them into domains of sociodemographic, genetic, lifestyle, environmental, vitamin D and CRP levels, cardiometabolic, psychiatric, and other factors.
- Researchers analyzed incidence rates of YOD for 5-year age bands starting at age 40 years and separately for men and women.
TAKEAWAY:
- During a mean follow-up of 8.12 years, there were 485 incident YOD cases (incidence rate of 16.8 per 100,000 person-years; 95% CI 15.4-18.3).
- The final analysis identified 15 risk factors associated with significantly higher incidence of YOD, including traditional factors like stroke (hazard ratio [HR], 2.07), heart disease (HR, 1.61), diabetes (HR, 1.65), and depression (HR, 3.25) but also less-recognized risk factors like vitamin D deficiency (< 10 ng/mL; HR, 1.59), high CRP levels (> 1 mg/dL; HR, 1.54), and social isolation (infrequent visits to friends or family; HR, 1.53), with lower socioeconomic status (HR, 1.82), having two apolipoprotein E epsilon-4 alleles (HR, 1.87), orthostatic hypotension, which the authors said may be an early sign of Parkinson dementia or Lewy body dementia (HR, 4.20), and hearing impairment (HR, 1.56) also increasing risk.
- Interestingly, some alcohol use seemed to be protective (moderate or heavy alcohol use had a lower association with YOD than alcohol abstinence, possibly due to the “healthy drinker effect” where people who drink are healthier than abstainers who may have illnesses preventing them from drinking, said the authors), as was higher education level and higher than normative handgrip strength (less strength is a proxy for physical frailty).
- Men with diabetes had higher YOD risk than those without diabetes, while there was no association with diabetes in women; on the other hand, women with high CRP levels had greater YOD risk than those with low levels, while there was no association with CRP in men.
IN PRACTICE:
“While further exploration of these risk factors is necessary to identify potential underlying mechanisms, addressing these modifiable factors may prove effective in mitigating the risk of developing YOD and can be readily integrated in current dementia prevention initiatives,” the investigators wrote.
SOURCE:
The study was led by Stevie Hendriks, PhD, Department of Psychiatry and Neuropsychology, Maastricht University, Maastricht, the Netherlands. It was published online in JAMA Neurology.
LIMITATIONS:
The study was observational and so can’t infer causality. Several factors were based on self-reported data, which might be a source of response bias. Factors not considered in the study, for example, family history of dementia and drug (other than alcohol) use disorder, may have confounded associations. Some factors including orthostatic hypotension had few exposed cases, leading to decreased power to detect associations. Hospital and death records may not have captured all YOD cases. The UK Biobank is overrepresented by healthy and White participants, so results may not be generalizable to other racial and ethnic groups. The analyses only focused on all-cause dementia.
DISCLOSURES:
The study was supported by Alzheimer Netherlands. Hendriks has no relevant conflicts of interest; see paper for disclosures of other authors.
A version of this article appeared on Medscape.com.
TOPLINE:
In addition to better known risk factors such as diabetes, stroke, heart disease, and depression, findings of a large study suggested vitamin D deficiency, elevated C-reactive protein (CRP) levels, and social isolation increase the risk for young-onset dementia (YOD).
METHODOLOGY:
- The study included 356,052 participants younger than 65 years (mean baseline age, 54.6 years) without dementia from the UK Biobank, an ongoing prospective cohort study.
- Participants underwent a comprehensive baseline assessment, provided biological samples, completed touch screen questionnaires, and underwent a physical examination.
- Researchers identified incident all-cause YOD cases from hospital inpatient registers or death register linkage.
- The researchers detected 39 potential risk factors and grouped them into domains of sociodemographic, genetic, lifestyle, environmental, vitamin D and CRP levels, cardiometabolic, psychiatric, and other factors.
- Researchers analyzed incidence rates of YOD for 5-year age bands starting at age 40 years and separately for men and women.
TAKEAWAY:
- During a mean follow-up of 8.12 years, there were 485 incident YOD cases (incidence rate of 16.8 per 100,000 person-years; 95% CI 15.4-18.3).
- The final analysis identified 15 risk factors associated with significantly higher incidence of YOD, including traditional factors like stroke (hazard ratio [HR], 2.07), heart disease (HR, 1.61), diabetes (HR, 1.65), and depression (HR, 3.25) but also less-recognized risk factors like vitamin D deficiency (< 10 ng/mL; HR, 1.59), high CRP levels (> 1 mg/dL; HR, 1.54), and social isolation (infrequent visits to friends or family; HR, 1.53), with lower socioeconomic status (HR, 1.82), having two apolipoprotein E epsilon-4 alleles (HR, 1.87), orthostatic hypotension, which the authors said may be an early sign of Parkinson dementia or Lewy body dementia (HR, 4.20), and hearing impairment (HR, 1.56) also increasing risk.
- Interestingly, some alcohol use seemed to be protective (moderate or heavy alcohol use had a lower association with YOD than alcohol abstinence, possibly due to the “healthy drinker effect” where people who drink are healthier than abstainers who may have illnesses preventing them from drinking, said the authors), as was higher education level and higher than normative handgrip strength (less strength is a proxy for physical frailty).
- Men with diabetes had higher YOD risk than those without diabetes, while there was no association with diabetes in women; on the other hand, women with high CRP levels had greater YOD risk than those with low levels, while there was no association with CRP in men.
IN PRACTICE:
“While further exploration of these risk factors is necessary to identify potential underlying mechanisms, addressing these modifiable factors may prove effective in mitigating the risk of developing YOD and can be readily integrated in current dementia prevention initiatives,” the investigators wrote.
SOURCE:
The study was led by Stevie Hendriks, PhD, Department of Psychiatry and Neuropsychology, Maastricht University, Maastricht, the Netherlands. It was published online in JAMA Neurology.
LIMITATIONS:
The study was observational and so can’t infer causality. Several factors were based on self-reported data, which might be a source of response bias. Factors not considered in the study, for example, family history of dementia and drug (other than alcohol) use disorder, may have confounded associations. Some factors including orthostatic hypotension had few exposed cases, leading to decreased power to detect associations. Hospital and death records may not have captured all YOD cases. The UK Biobank is overrepresented by healthy and White participants, so results may not be generalizable to other racial and ethnic groups. The analyses only focused on all-cause dementia.
DISCLOSURES:
The study was supported by Alzheimer Netherlands. Hendriks has no relevant conflicts of interest; see paper for disclosures of other authors.
A version of this article appeared on Medscape.com.
Excessive TV-watching tied to elevated risk for dementia, Parkinson’s disease, and depression
TOPLINE:
whereas a limited amount of daily computer use that is not work-related is linked to a lower risk for dementia.
METHODOLOGY:
- Investigators analyzed data on 473,184 people aged 39-72 years from the UK Biobank who were enrolled from 2006 to 2010 and followed until a diagnosis of dementia, PD, depression, death, or study end (2018 for Wales residents; 2021 for residents of England and Scotland).
- Participants reported on the number of hours they spent outside of work exercising, watching television, and using the computer.
- MRI was conducted to determine participants’ brain volume.
TAKEAWAY:
- During the study, 6096 people developed dementia, 3000 developed PD, 23,600 developed depression, 1200 developed dementia and depression, and 486 developed PD and depression.
- Compared with those who watched TV for under 1 hour per day, those who reported watching 4 or more hours per day had a 28% higher risk for dementia (adjusted hazard ratio [aHR], 1.28; 95% CI, 1.17-1.39), a 35% higher risk for depression, (aHR, 1.35; 95% CI, 1.29-1.40) and a 16% greater risk for PD (aHR, 1.16; 95% CI, 1.03-1.29).
- However, moderate computer use outside of work seemed somewhat protective. Participants who used the computer for 30-60 minutes per day had lower risks for dementia (aHR, 0.68; 95% CI, 0.64-0.72), PD, (aHR, 0.86; 95% CI, 0.79-0.93), and depression (aHR, 0.85; 95% CI, 0.83-0.88) compared with those who reported the lowest levels of computer usage.
- Replacing 30 minutes per day of computer time with an equal amount of structured exercise was associated with decreased risk for dementia (aHR, 0.74; 95% CI, 0.85-0.95) and PD (aHR, 0.84; 95% CI, 0.78-0.90).
IN PRACTICE:
The association between extended periods of TV use and higher risk for PD and dementia could be explained by a lack of activity, the authors note. They add that sedentary behavior is, “associated with biomarkers of low-grade inflammation and changes in inflammation markers that could initiate and or worsen neuroinflammation and contribute to neurodegeneration.”
SOURCE:
Hanzhang Wu, PhD, of Tianjin University of Traditional Medicine in Tianjin, China, led the study, which was published online in the International Journal of Behavioral Nutrition and Physical Activity.
LIMITATIONS:
Screen behaviors were assessed using self-report measures, which is subject to recall bias. Also, there may have been variables confounding the findings for which investigators did not account.
DISCLOSURES:
The study was funded by the National Natural Science Foundation of China, the Tianjin Major Public Health Science and Technology Project, the National Health Commission of China, the Food Science and Technology Foundation of Chinese Institute of Food Science and Technology, the China Cohort Consortium, and the Chinese Nutrition Society Nutrition Research Foundation–DSM Research Fund, China. There were no disclosures reported.
Eve Bender has no relevant financial relationships.
A version of this article appeared on Medscape.com.
TOPLINE:
whereas a limited amount of daily computer use that is not work-related is linked to a lower risk for dementia.
METHODOLOGY:
- Investigators analyzed data on 473,184 people aged 39-72 years from the UK Biobank who were enrolled from 2006 to 2010 and followed until a diagnosis of dementia, PD, depression, death, or study end (2018 for Wales residents; 2021 for residents of England and Scotland).
- Participants reported on the number of hours they spent outside of work exercising, watching television, and using the computer.
- MRI was conducted to determine participants’ brain volume.
TAKEAWAY:
- During the study, 6096 people developed dementia, 3000 developed PD, 23,600 developed depression, 1200 developed dementia and depression, and 486 developed PD and depression.
- Compared with those who watched TV for under 1 hour per day, those who reported watching 4 or more hours per day had a 28% higher risk for dementia (adjusted hazard ratio [aHR], 1.28; 95% CI, 1.17-1.39), a 35% higher risk for depression, (aHR, 1.35; 95% CI, 1.29-1.40) and a 16% greater risk for PD (aHR, 1.16; 95% CI, 1.03-1.29).
- However, moderate computer use outside of work seemed somewhat protective. Participants who used the computer for 30-60 minutes per day had lower risks for dementia (aHR, 0.68; 95% CI, 0.64-0.72), PD, (aHR, 0.86; 95% CI, 0.79-0.93), and depression (aHR, 0.85; 95% CI, 0.83-0.88) compared with those who reported the lowest levels of computer usage.
- Replacing 30 minutes per day of computer time with an equal amount of structured exercise was associated with decreased risk for dementia (aHR, 0.74; 95% CI, 0.85-0.95) and PD (aHR, 0.84; 95% CI, 0.78-0.90).
IN PRACTICE:
The association between extended periods of TV use and higher risk for PD and dementia could be explained by a lack of activity, the authors note. They add that sedentary behavior is, “associated with biomarkers of low-grade inflammation and changes in inflammation markers that could initiate and or worsen neuroinflammation and contribute to neurodegeneration.”
SOURCE:
Hanzhang Wu, PhD, of Tianjin University of Traditional Medicine in Tianjin, China, led the study, which was published online in the International Journal of Behavioral Nutrition and Physical Activity.
LIMITATIONS:
Screen behaviors were assessed using self-report measures, which is subject to recall bias. Also, there may have been variables confounding the findings for which investigators did not account.
DISCLOSURES:
The study was funded by the National Natural Science Foundation of China, the Tianjin Major Public Health Science and Technology Project, the National Health Commission of China, the Food Science and Technology Foundation of Chinese Institute of Food Science and Technology, the China Cohort Consortium, and the Chinese Nutrition Society Nutrition Research Foundation–DSM Research Fund, China. There were no disclosures reported.
Eve Bender has no relevant financial relationships.
A version of this article appeared on Medscape.com.
TOPLINE:
whereas a limited amount of daily computer use that is not work-related is linked to a lower risk for dementia.
METHODOLOGY:
- Investigators analyzed data on 473,184 people aged 39-72 years from the UK Biobank who were enrolled from 2006 to 2010 and followed until a diagnosis of dementia, PD, depression, death, or study end (2018 for Wales residents; 2021 for residents of England and Scotland).
- Participants reported on the number of hours they spent outside of work exercising, watching television, and using the computer.
- MRI was conducted to determine participants’ brain volume.
TAKEAWAY:
- During the study, 6096 people developed dementia, 3000 developed PD, 23,600 developed depression, 1200 developed dementia and depression, and 486 developed PD and depression.
- Compared with those who watched TV for under 1 hour per day, those who reported watching 4 or more hours per day had a 28% higher risk for dementia (adjusted hazard ratio [aHR], 1.28; 95% CI, 1.17-1.39), a 35% higher risk for depression, (aHR, 1.35; 95% CI, 1.29-1.40) and a 16% greater risk for PD (aHR, 1.16; 95% CI, 1.03-1.29).
- However, moderate computer use outside of work seemed somewhat protective. Participants who used the computer for 30-60 minutes per day had lower risks for dementia (aHR, 0.68; 95% CI, 0.64-0.72), PD, (aHR, 0.86; 95% CI, 0.79-0.93), and depression (aHR, 0.85; 95% CI, 0.83-0.88) compared with those who reported the lowest levels of computer usage.
- Replacing 30 minutes per day of computer time with an equal amount of structured exercise was associated with decreased risk for dementia (aHR, 0.74; 95% CI, 0.85-0.95) and PD (aHR, 0.84; 95% CI, 0.78-0.90).
IN PRACTICE:
The association between extended periods of TV use and higher risk for PD and dementia could be explained by a lack of activity, the authors note. They add that sedentary behavior is, “associated with biomarkers of low-grade inflammation and changes in inflammation markers that could initiate and or worsen neuroinflammation and contribute to neurodegeneration.”
SOURCE:
Hanzhang Wu, PhD, of Tianjin University of Traditional Medicine in Tianjin, China, led the study, which was published online in the International Journal of Behavioral Nutrition and Physical Activity.
LIMITATIONS:
Screen behaviors were assessed using self-report measures, which is subject to recall bias. Also, there may have been variables confounding the findings for which investigators did not account.
DISCLOSURES:
The study was funded by the National Natural Science Foundation of China, the Tianjin Major Public Health Science and Technology Project, the National Health Commission of China, the Food Science and Technology Foundation of Chinese Institute of Food Science and Technology, the China Cohort Consortium, and the Chinese Nutrition Society Nutrition Research Foundation–DSM Research Fund, China. There were no disclosures reported.
Eve Bender has no relevant financial relationships.
A version of this article appeared on Medscape.com.