Neurology

The study covered in this summary was published in Research Square as a preprint and has not yet been peer reviewed.

Key takeaways

• Focal cognitive deficits are more prevalent in hospitalized patients than ambulatory patients.
• Cognitive performance is related to neuropsychiatric symptoms in ambulatory but not hospitalized patients.
• Objective neurocognitive measures can supply crucial information to guide clinical decisions regarding the need for further imaging or neurologic workup and should be included as endpoints in clinical trials.

Why this matters

• Cognitive complaints commonly occur in patients convalescing from COVID-19, although their cause is frequently unclear.
• The researchers evaluated factors that play a role in cognitive impairment in ambulatory versus hospitalized patients during the subacute stage of recovery.
• These results underscore the significance of assessing both subjective and objective complaints in ascertaining the prevalence of cognitive impairment in recovering patients and research participants.
• The drivers of cognitive complaints are likely different in hospitalized COVID-19 patients in comparison with ambulatory COVID-19 patients, so it’s important to understand these factors in making treatment decisions.
• Biopsychosocial factors appear to be a powerful driver of cognitive complaints in recovering ambulatory patients. They can be treated with interventions targeting anxiety, depression, sleep disturbances, and pain, which may prove to be the most efficient and cost-effective approach to prevent disability in individuals with mild manifestations of COVID-19.
• Objective neurocognitive deficits were more prevalent in hospitalized patients – a marker of greater disease severity – with mainly deficits in memory and psychomotor speed. Factors that contribute to focal cognitive deficits in these individuals are emerging and represent a noteworthy realm for future investigation.

Study design

• The trial prospectively recruited patients from a hospital-wide registry at the Mayo Clinic in Jacksonville, Fla.
• All patients tested positive for SARS-CoV-2 infection on a real-time reverse transcriptase polymerase chain-reaction assay between June 2020 and March 2021.
• Patients were 18 years of age or older.
• The researchers excluded those with a pre-existing major neurocognitive disorder.
• To participate, patients needed access to a desktop or laptop computer to complete a test and survey.
• They responded to a comprehensive neuropsychological questionnaire and a computerized cognitive screen using a remote telemedicine platform.
• The researchers compared rates of subjective and objective neuropsychological impairment between the ambulatory and hospitalized groups. Factors linked to impairment were analyzed separately within each group.

Key results

• After laboratory confirmation of SARS-CoV-2 infection, a total of 102 patients (76 ambulatory, 26 hospitalized) completed the symptom inventory and neurocognitive tests in 24 ± 22 days.
• Hospitalized and ambulatory patients self-reported high rates of cognitive impairment (27%-40%). There were no variations between the groups.
• However, hospitalized patients had more significant rates of objective impairment in visual memory (30% vs. 4%; P = .001) and psychomotor speed (41% vs. 15%; P = .008).
• Objective cognitive test performance was linked to anxiety, depression, fatigue, and pain in the ambulatory but not the hospitalized group.

Limitations

• The sample size of hospitalized patients was small.
• A larger fraction of hospitalized patients in the sample completed outcome assessments, compared with ambulatory patients, indicating that remote computerized testing did not present a disproportionate access barrier for patients with more severe illness.
• Owing to limited instances of delirium, seizures, and stroke, it was not possible to directly consider the contributions of these events to post–COVID-19 subjective complaints and objective impairment.
• The researchers depended on a 45-minute computerized test battery, which eliminates exposure risk and is available to patients in remote locations, but it necessitates computer literacy and access to a home desktop computer. While this requirement may have skewed the sample toward a more socioeconomically advantaged and younger population, there were no differences in age, race, or ethnicity between those who completed the computerized outcome assessments and those who did not. For patients who are able to give consent electronically, computerized testing does not pose an additional barrier.
• As a result of this study’s cross-sectional nature, the researchers could not comment on the natural history and long-term risk of COVID-19 cognitive impairment. It will be crucial to monitor cognitive progression at future time points to assess the rate and predictors of cognitive normalization versus decline.

Study disclosures

• Gregory S. Day, a coauthor, owns stock (greater than $10,000) in ANI Pharmaceuticals, a generic pharmaceutical company. He serves as a topic editor for DynaMed (EBSCO), overseeing development of evidence-based educational content, a consultant for Parabon Nanolabs (advice relevant to National Institutes of Health small business grant submission), and as the clinical director of the Anti-NMDA Receptor Encephalitis Foundation, Canada (uncompensated). The other authors have disclosed no relevant financial relationships.

This is a summary of a preprint research study, “Neurocognitive Screening in Patients Following SARS-CoV-2 Infection: Tools for Triage,” written by Karen Blackmon from Mayo Clinic in Florida, on medRxiv. This study has not yet been peer reviewed. The full text of the study can be found on medRxiv.org. A version of this article first appeared on Medscape.com.

The study covered in this summary was published in Research Square as a preprint and has not yet been peer reviewed.

Key takeaways

• Focal cognitive deficits are more prevalent in hospitalized patients than ambulatory patients.
• Cognitive performance is related to neuropsychiatric symptoms in ambulatory but not hospitalized patients.
• Objective neurocognitive measures can supply crucial information to guide clinical decisions regarding the need for further imaging or neurologic workup and should be included as endpoints in clinical trials.

Why this matters

• Cognitive complaints commonly occur in patients convalescing from COVID-19, although their cause is frequently unclear.
• The researchers evaluated factors that play a role in cognitive impairment in ambulatory versus hospitalized patients during the subacute stage of recovery.
• These results underscore the significance of assessing both subjective and objective complaints in ascertaining the prevalence of cognitive impairment in recovering patients and research participants.
• The drivers of cognitive complaints are likely different in hospitalized COVID-19 patients in comparison with ambulatory COVID-19 patients, so it’s important to understand these factors in making treatment decisions.
• Biopsychosocial factors appear to be a powerful driver of cognitive complaints in recovering ambulatory patients. They can be treated with interventions targeting anxiety, depression, sleep disturbances, and pain, which may prove to be the most efficient and cost-effective approach to prevent disability in individuals with mild manifestations of COVID-19.
• Objective neurocognitive deficits were more prevalent in hospitalized patients – a marker of greater disease severity – with mainly deficits in memory and psychomotor speed. Factors that contribute to focal cognitive deficits in these individuals are emerging and represent a noteworthy realm for future investigation.

Study design

• The trial prospectively recruited patients from a hospital-wide registry at the Mayo Clinic in Jacksonville, Fla.
• All patients tested positive for SARS-CoV-2 infection on a real-time reverse transcriptase polymerase chain-reaction assay between June 2020 and March 2021.
• Patients were 18 years of age or older.
• The researchers excluded those with a pre-existing major neurocognitive disorder.
• To participate, patients needed access to a desktop or laptop computer to complete a test and survey.
• They responded to a comprehensive neuropsychological questionnaire and a computerized cognitive screen using a remote telemedicine platform.
• The researchers compared rates of subjective and objective neuropsychological impairment between the ambulatory and hospitalized groups. Factors linked to impairment were analyzed separately within each group.

Key results

• After laboratory confirmation of SARS-CoV-2 infection, a total of 102 patients (76 ambulatory, 26 hospitalized) completed the symptom inventory and neurocognitive tests in 24 ± 22 days.
• Hospitalized and ambulatory patients self-reported high rates of cognitive impairment (27%-40%). There were no variations between the groups.
• However, hospitalized patients had more significant rates of objective impairment in visual memory (30% vs. 4%; P = .001) and psychomotor speed (41% vs. 15%; P = .008).
• Objective cognitive test performance was linked to anxiety, depression, fatigue, and pain in the ambulatory but not the hospitalized group.

Limitations

• The sample size of hospitalized patients was small.
• A larger fraction of hospitalized patients in the sample completed outcome assessments, compared with ambulatory patients, indicating that remote computerized testing did not present a disproportionate access barrier for patients with more severe illness.
• Owing to limited instances of delirium, seizures, and stroke, it was not possible to directly consider the contributions of these events to post–COVID-19 subjective complaints and objective impairment.
• The researchers depended on a 45-minute computerized test battery, which eliminates exposure risk and is available to patients in remote locations, but it necessitates computer literacy and access to a home desktop computer. While this requirement may have skewed the sample toward a more socioeconomically advantaged and younger population, there were no differences in age, race, or ethnicity between those who completed the computerized outcome assessments and those who did not. For patients who are able to give consent electronically, computerized testing does not pose an additional barrier.
• As a result of this study’s cross-sectional nature, the researchers could not comment on the natural history and long-term risk of COVID-19 cognitive impairment. It will be crucial to monitor cognitive progression at future time points to assess the rate and predictors of cognitive normalization versus decline.

Study disclosures

• Gregory S. Day, a coauthor, owns stock (greater than $10,000) in ANI Pharmaceuticals, a generic pharmaceutical company. He serves as a topic editor for DynaMed (EBSCO), overseeing development of evidence-based educational content, a consultant for Parabon Nanolabs (advice relevant to National Institutes of Health small business grant submission), and as the clinical director of the Anti-NMDA Receptor Encephalitis Foundation, Canada (uncompensated). The other authors have disclosed no relevant financial relationships.

This is a summary of a preprint research study, “Neurocognitive Screening in Patients Following SARS-CoV-2 Infection: Tools for Triage,” written by Karen Blackmon from Mayo Clinic in Florida, on medRxiv. This study has not yet been peer reviewed. The full text of the study can be found on medRxiv.org. A version of this article first appeared on Medscape.com.

The study covered in this summary was published in Research Square as a preprint and has not yet been peer reviewed.

Key takeaways

• Focal cognitive deficits are more prevalent in hospitalized patients than ambulatory patients.
• Cognitive performance is related to neuropsychiatric symptoms in ambulatory but not hospitalized patients.
• Objective neurocognitive measures can supply crucial information to guide clinical decisions regarding the need for further imaging or neurologic workup and should be included as endpoints in clinical trials.

Why this matters

• Cognitive complaints commonly occur in patients convalescing from COVID-19, although their cause is frequently unclear.
• The researchers evaluated factors that play a role in cognitive impairment in ambulatory versus hospitalized patients during the subacute stage of recovery.
• These results underscore the significance of assessing both subjective and objective complaints in ascertaining the prevalence of cognitive impairment in recovering patients and research participants.
• The drivers of cognitive complaints are likely different in hospitalized COVID-19 patients in comparison with ambulatory COVID-19 patients, so it’s important to understand these factors in making treatment decisions.
• Biopsychosocial factors appear to be a powerful driver of cognitive complaints in recovering ambulatory patients. They can be treated with interventions targeting anxiety, depression, sleep disturbances, and pain, which may prove to be the most efficient and cost-effective approach to prevent disability in individuals with mild manifestations of COVID-19.
• Objective neurocognitive deficits were more prevalent in hospitalized patients – a marker of greater disease severity – with mainly deficits in memory and psychomotor speed. Factors that contribute to focal cognitive deficits in these individuals are emerging and represent a noteworthy realm for future investigation.

Study design

• The trial prospectively recruited patients from a hospital-wide registry at the Mayo Clinic in Jacksonville, Fla.
• All patients tested positive for SARS-CoV-2 infection on a real-time reverse transcriptase polymerase chain-reaction assay between June 2020 and March 2021.
• Patients were 18 years of age or older.
• The researchers excluded those with a pre-existing major neurocognitive disorder.
• To participate, patients needed access to a desktop or laptop computer to complete a test and survey.
• They responded to a comprehensive neuropsychological questionnaire and a computerized cognitive screen using a remote telemedicine platform.
• The researchers compared rates of subjective and objective neuropsychological impairment between the ambulatory and hospitalized groups. Factors linked to impairment were analyzed separately within each group.

Key results

• After laboratory confirmation of SARS-CoV-2 infection, a total of 102 patients (76 ambulatory, 26 hospitalized) completed the symptom inventory and neurocognitive tests in 24 ± 22 days.
• Hospitalized and ambulatory patients self-reported high rates of cognitive impairment (27%-40%). There were no variations between the groups.
• However, hospitalized patients had more significant rates of objective impairment in visual memory (30% vs. 4%; P = .001) and psychomotor speed (41% vs. 15%; P = .008).
• Objective cognitive test performance was linked to anxiety, depression, fatigue, and pain in the ambulatory but not the hospitalized group.

Limitations

• The sample size of hospitalized patients was small.
• A larger fraction of hospitalized patients in the sample completed outcome assessments, compared with ambulatory patients, indicating that remote computerized testing did not present a disproportionate access barrier for patients with more severe illness.
• Owing to limited instances of delirium, seizures, and stroke, it was not possible to directly consider the contributions of these events to post–COVID-19 subjective complaints and objective impairment.
• The researchers depended on a 45-minute computerized test battery, which eliminates exposure risk and is available to patients in remote locations, but it necessitates computer literacy and access to a home desktop computer. While this requirement may have skewed the sample toward a more socioeconomically advantaged and younger population, there were no differences in age, race, or ethnicity between those who completed the computerized outcome assessments and those who did not. For patients who are able to give consent electronically, computerized testing does not pose an additional barrier.
• As a result of this study’s cross-sectional nature, the researchers could not comment on the natural history and long-term risk of COVID-19 cognitive impairment. It will be crucial to monitor cognitive progression at future time points to assess the rate and predictors of cognitive normalization versus decline.

Study disclosures

• Gregory S. Day, a coauthor, owns stock (greater than $10,000) in ANI Pharmaceuticals, a generic pharmaceutical company. He serves as a topic editor for DynaMed (EBSCO), overseeing development of evidence-based educational content, a consultant for Parabon Nanolabs (advice relevant to National Institutes of Health small business grant submission), and as the clinical director of the Anti-NMDA Receptor Encephalitis Foundation, Canada (uncompensated). The other authors have disclosed no relevant financial relationships.

This is a summary of a preprint research study, “Neurocognitive Screening in Patients Following SARS-CoV-2 Infection: Tools for Triage,” written by Karen Blackmon from Mayo Clinic in Florida, on medRxiv. This study has not yet been peer reviewed. The full text of the study can be found on medRxiv.org. A version of this article first appeared on Medscape.com.

For the first time, neuroscientists have recorded the brain activity of a dying person, revealing a brain wave pattern similar to that seen when memories are recalled. Although only a single case study, researchers say the recording raises the possibility that as we die, our lives really do flash before our eyes.

“The same neurophysiological activity patterns that occur in our brains when we dream, remember, meditate, concentrate – these same patterns also appear just before we die,” study investigator Ajmal Zemmar, MD, PhD, assistant professor of neurosurgery at the University of Louisville (Ky.), said in an interview.

The research was published online Feb. 22, 2022, in the Frontiers in Aging Neuroscience.
 

Accidental finding

The recording of brain activity was captured inadvertently in 2016 when neuroscientists used continuous EEG to detect and treat seizures in an 87-year-old man who had developed epilepsy after a traumatic brain injury, While undergoing the EEG, the patient had a cardiac arrest and died.

In the 30 seconds before and after blood flow to the brain stopped, the EEG showed an increase in gamma oscillations. These are brain waves known to be involved in high cognitive functions, including conscious perception and memory flashbacks.

Researchers also noted changes in alpha, theta, delta, and beta wave activity just before and just after cardiac arrest, and that changes in one type modulated changes in others. That suggests a coordinated rhythm, which further suggests the activity is more than just the firing of neurons as they die.

“When you observe this and you observe the rhythmic oscillation, you are inclined to think this may be a coordinated activity pattern of the brain rather than a mere discharge when the brain dies,” Dr. Zemmar said.

Although they’ve had the data since 2016, Dr. Zemmar and colleagues held off on publishing in the hopes of finding similar recordings in other individuals. That their 5-year search yielded no results illustrates just how difficult a study like this is to conduct, Dr. Zemmar noted. “We’re trying to figure out how to do this in a predictable way, but obtaining datasets like this is going to be challenging,” he said.

Although Dr. Zemmar was unable to find recordings of activity in the dying brains of other humans, he did find a similar study conducted with rats in 2013. In that research, investigators reported a surge of brain activity in rats just prior to and immediately after experimental cardiac arrest. Changes in high- and low-frequency brain waves mirrored those documented in the current case study.
 

Bringing a picture together

Commenting on the new study, George Mashour, MD, PhD, professor and chair of anesthesiology and professor of neurosurgery and pharmacology at the University of Michigan, Ann Arbor, said the results are eerily similar to a 2013 study that he coauthored.

Although the current research is just a single case study, Dr. Mashour said when taken with his team’s findings in rats and other work, the new findings are “starting to put a picture together of what might be going on in the dying brain.”

“They were able to record throughout the process of cardiac arrest and death and what they found was strikingly similar to what we found in our highly controlled animal study,” said Dr. Mashour, who is also the founding director of the Center for Consciousness Science at the University of Michigan.

“There was a surge of higher-frequency activity and there was coherence across different parts of the brain,” he added. “That suggests that what we found in the rigorous controlled setting of a laboratory actually translates to humans who are undergoing the clinical process of dying.”

What remains unclear is whether this brain activity explains the near-death experiences described in the literature, which include “life recall” of memories, Dr. Mashour said. “This higher-frequency surge that’s happening around the time of death, is that correlated with experiencing something like this near-death experience? Or is it just a neural feature that can just as easily happen in an unconscious brain?”

The study was funded by the Heidi Demetriades Foundation, the ETH Zürich Foundation, and the Henan Provincial People’s Hospital Outstanding Talents Founding Grant Project. Dr. Zemmar and Dr. Mashour disclosed no relevant financial relationships.

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

For the first time, neuroscientists have recorded the brain activity of a dying person, revealing a brain wave pattern similar to that seen when memories are recalled. Although only a single case study, researchers say the recording raises the possibility that as we die, our lives really do flash before our eyes.

“The same neurophysiological activity patterns that occur in our brains when we dream, remember, meditate, concentrate – these same patterns also appear just before we die,” study investigator Ajmal Zemmar, MD, PhD, assistant professor of neurosurgery at the University of Louisville (Ky.), said in an interview.

The research was published online Feb. 22, 2022, in the Frontiers in Aging Neuroscience.
 

Accidental finding

The recording of brain activity was captured inadvertently in 2016 when neuroscientists used continuous EEG to detect and treat seizures in an 87-year-old man who had developed epilepsy after a traumatic brain injury, While undergoing the EEG, the patient had a cardiac arrest and died.

In the 30 seconds before and after blood flow to the brain stopped, the EEG showed an increase in gamma oscillations. These are brain waves known to be involved in high cognitive functions, including conscious perception and memory flashbacks.

Researchers also noted changes in alpha, theta, delta, and beta wave activity just before and just after cardiac arrest, and that changes in one type modulated changes in others. That suggests a coordinated rhythm, which further suggests the activity is more than just the firing of neurons as they die.

“When you observe this and you observe the rhythmic oscillation, you are inclined to think this may be a coordinated activity pattern of the brain rather than a mere discharge when the brain dies,” Dr. Zemmar said.

Although they’ve had the data since 2016, Dr. Zemmar and colleagues held off on publishing in the hopes of finding similar recordings in other individuals. That their 5-year search yielded no results illustrates just how difficult a study like this is to conduct, Dr. Zemmar noted. “We’re trying to figure out how to do this in a predictable way, but obtaining datasets like this is going to be challenging,” he said.

Although Dr. Zemmar was unable to find recordings of activity in the dying brains of other humans, he did find a similar study conducted with rats in 2013. In that research, investigators reported a surge of brain activity in rats just prior to and immediately after experimental cardiac arrest. Changes in high- and low-frequency brain waves mirrored those documented in the current case study.
 

Bringing a picture together

Commenting on the new study, George Mashour, MD, PhD, professor and chair of anesthesiology and professor of neurosurgery and pharmacology at the University of Michigan, Ann Arbor, said the results are eerily similar to a 2013 study that he coauthored.

Although the current research is just a single case study, Dr. Mashour said when taken with his team’s findings in rats and other work, the new findings are “starting to put a picture together of what might be going on in the dying brain.”

“They were able to record throughout the process of cardiac arrest and death and what they found was strikingly similar to what we found in our highly controlled animal study,” said Dr. Mashour, who is also the founding director of the Center for Consciousness Science at the University of Michigan.

“There was a surge of higher-frequency activity and there was coherence across different parts of the brain,” he added. “That suggests that what we found in the rigorous controlled setting of a laboratory actually translates to humans who are undergoing the clinical process of dying.”

What remains unclear is whether this brain activity explains the near-death experiences described in the literature, which include “life recall” of memories, Dr. Mashour said. “This higher-frequency surge that’s happening around the time of death, is that correlated with experiencing something like this near-death experience? Or is it just a neural feature that can just as easily happen in an unconscious brain?”

The study was funded by the Heidi Demetriades Foundation, the ETH Zürich Foundation, and the Henan Provincial People’s Hospital Outstanding Talents Founding Grant Project. Dr. Zemmar and Dr. Mashour disclosed no relevant financial relationships.

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

For the first time, neuroscientists have recorded the brain activity of a dying person, revealing a brain wave pattern similar to that seen when memories are recalled. Although only a single case study, researchers say the recording raises the possibility that as we die, our lives really do flash before our eyes.

“The same neurophysiological activity patterns that occur in our brains when we dream, remember, meditate, concentrate – these same patterns also appear just before we die,” study investigator Ajmal Zemmar, MD, PhD, assistant professor of neurosurgery at the University of Louisville (Ky.), said in an interview.

The research was published online Feb. 22, 2022, in the Frontiers in Aging Neuroscience.
 

Accidental finding

The recording of brain activity was captured inadvertently in 2016 when neuroscientists used continuous EEG to detect and treat seizures in an 87-year-old man who had developed epilepsy after a traumatic brain injury, While undergoing the EEG, the patient had a cardiac arrest and died.

In the 30 seconds before and after blood flow to the brain stopped, the EEG showed an increase in gamma oscillations. These are brain waves known to be involved in high cognitive functions, including conscious perception and memory flashbacks.

Researchers also noted changes in alpha, theta, delta, and beta wave activity just before and just after cardiac arrest, and that changes in one type modulated changes in others. That suggests a coordinated rhythm, which further suggests the activity is more than just the firing of neurons as they die.

“When you observe this and you observe the rhythmic oscillation, you are inclined to think this may be a coordinated activity pattern of the brain rather than a mere discharge when the brain dies,” Dr. Zemmar said.

Although they’ve had the data since 2016, Dr. Zemmar and colleagues held off on publishing in the hopes of finding similar recordings in other individuals. That their 5-year search yielded no results illustrates just how difficult a study like this is to conduct, Dr. Zemmar noted. “We’re trying to figure out how to do this in a predictable way, but obtaining datasets like this is going to be challenging,” he said.

Although Dr. Zemmar was unable to find recordings of activity in the dying brains of other humans, he did find a similar study conducted with rats in 2013. In that research, investigators reported a surge of brain activity in rats just prior to and immediately after experimental cardiac arrest. Changes in high- and low-frequency brain waves mirrored those documented in the current case study.
 

Bringing a picture together

Commenting on the new study, George Mashour, MD, PhD, professor and chair of anesthesiology and professor of neurosurgery and pharmacology at the University of Michigan, Ann Arbor, said the results are eerily similar to a 2013 study that he coauthored.

Although the current research is just a single case study, Dr. Mashour said when taken with his team’s findings in rats and other work, the new findings are “starting to put a picture together of what might be going on in the dying brain.”

“They were able to record throughout the process of cardiac arrest and death and what they found was strikingly similar to what we found in our highly controlled animal study,” said Dr. Mashour, who is also the founding director of the Center for Consciousness Science at the University of Michigan.

“There was a surge of higher-frequency activity and there was coherence across different parts of the brain,” he added. “That suggests that what we found in the rigorous controlled setting of a laboratory actually translates to humans who are undergoing the clinical process of dying.”

What remains unclear is whether this brain activity explains the near-death experiences described in the literature, which include “life recall” of memories, Dr. Mashour said. “This higher-frequency surge that’s happening around the time of death, is that correlated with experiencing something like this near-death experience? Or is it just a neural feature that can just as easily happen in an unconscious brain?”

The study was funded by the Heidi Demetriades Foundation, the ETH Zürich Foundation, and the Henan Provincial People’s Hospital Outstanding Talents Founding Grant Project. Dr. Zemmar and Dr. Mashour disclosed no relevant financial relationships.

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

Anti–calcitonin gene-related peptide (anti-CGRP) monoclonal antibodies are effective for patients with chronic migraine and medication overuse headache regardless of detoxification strategy, according to investigators.

Abruptly discontinuing overused analgesics with health care provider oversight – a frequently resource-intensive and challenging process – is no more effective for controlling medication overuse headache than simply advising patients to stop, reported lead author Umberto Pensato, MD, of the University of Bologna, Italy, and colleagues.

“[C]urrently, the abrupt discontinuation of the overused painkiller(s), accompanied by the start of a pharmacological preventive therapy, is the most recommended strategy [for medication overuse headache],” the investigators wrote in Cephalalgia. “While painkiller(s) withdrawal could be accomplished on an outpatient basis in most cases, an in-hospital setting may be required to achieve successful discontinuation in a subgroup of patients with medication overuse headache, further weighing on individual and hospital costs. Additionally hampering this approach, the abrupt discontinuation of the overused painkiller(s) invariably results in disabling withdrawal symptoms for up to 2 weeks, including a transitory worsening of headache, the so-called ‘rebound headache.’ ”
 

Inpatient or outpatient: Does it matter?

According to Dr. Pensato and colleagues, early evidence suggests that previous painkiller withdrawal does not impact the efficacy of anti-CGRPs for medication overuse headache, yet relevant data remain scarce. To address this knowledge gap, they conducted a prospective, real-world study exploring the relationship between detoxification and outcomes after starting anti-CGRP therapy.

Out of 401 patients enrolled based on initiation of erenumab or galcanezumab, 111 satisfied inclusion criteria, including diagnosis of chronic migraine and medication overuse headache, at least 28 days of analgesic usage and headache days per month in the preceding 3 months, and other factors. Of these 111 patients, 83 underwent in-hospital detox, while the remaining 28 patients, who declined detox based on personal reasons or COVID-19–related bed shortage, were advised to discontinue overused medication on an outpatient basis (without oversight).

The primary endpoint was medication overuse headache responder rate after 3 months, as defined by ICHD-3 diagnostic criteria. Secondary endpoints included 6-item headache impact test (HIT-6), monthly headache days (MHD), migraine disability assessment score (MIDAS), mean pain intensity (MPI), monthly pain medication intake (MPMI), baseline predictors of response/refractoriness, and safety.

Three months after starting anti-CGRP therapy, 59% of patients had resolution of medication overuse headache, including 57% in the inpatient detox group and 64% in the outpatient group, a difference that was not statistically significant (P = .4788). Approximately half of the patients (51%) had at least 50% reduction in monthly headache days; although the rate was numerically lower in the inpatient group compared with the outpatient group, the difference was again not significant (51% vs. 54%; P = .8393).

“Our results support the emerging evidence that anti-CGRP drugs may be effective in these patients irrespective of the detoxification program,” the investigators concluded. “Further studies are needed to definitively confirm these results, potentially leading to a paradigm shift in the management of medication overuse headache.”
 

Abrupt or gradual detox?

According to Alan M. Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles, and editor-in-chief of Neurology Reviews, the study was hampered by two major design limitations.

“The biggest problem I see is that the two groups were treated very differently for their detoxification,” Dr. Rapoport said. “One group was detoxified abruptly in the hospital, so the authors were sure that the patients were off acute-care medication before they started their preventives. The other group was advised to stop their medication on an outpatient basis. The issue is that we have no follow-up as to whether the outpatients did or did not abruptly detoxify. A bigger issue was that the two groups were not randomized so there are many other variables that may have come into consideration.”

Still, Dr. Rapoport, a past president of the International Headache Society (IHS), noted that the findings strengthen a growing body of evidence supporting the efficacy of monoclonal antibodies for medication overuse headache regardless of detoxification strategy. He cited a 2020 study by Carlsen and colleagues conducted at the Danish Headache Center in Copenhagen, which reported similar medication overuse headache outcomes across three randomized cohorts whether they received preventive therapy with detoxification, preventive therapy without detoxification, or detoxification followed 2 months later by preventive therapy.

“What I have noticed since we have had monoclonal antibodies in our armamentarium is that these drugs work very well even when the patient has not fully detoxified,” Dr. Rapoport said. “What I do with my patients is not teach them how to detoxify now, but simply educate them to take fewer acute care medications as their headaches get better from the monoclonal antibodies; they should try to take fewer acute care medications for milder, shorter headaches, and just let them go away on their own. Previous research suggests that even when a patient is not educated at all about medication overuse headache and the reason for detoxification, monoclonal antibodies still work in the presence of medication overuse headache, and improve it.”

The investigators disclosed relationships with Allergan, Novartis, Teva, and others. Dr. Rapoport is on the speakers bureau for AbbVie.

Anti–calcitonin gene-related peptide (anti-CGRP) monoclonal antibodies are effective for patients with chronic migraine and medication overuse headache regardless of detoxification strategy, according to investigators.

Abruptly discontinuing overused analgesics with health care provider oversight – a frequently resource-intensive and challenging process – is no more effective for controlling medication overuse headache than simply advising patients to stop, reported lead author Umberto Pensato, MD, of the University of Bologna, Italy, and colleagues.

“[C]urrently, the abrupt discontinuation of the overused painkiller(s), accompanied by the start of a pharmacological preventive therapy, is the most recommended strategy [for medication overuse headache],” the investigators wrote in Cephalalgia. “While painkiller(s) withdrawal could be accomplished on an outpatient basis in most cases, an in-hospital setting may be required to achieve successful discontinuation in a subgroup of patients with medication overuse headache, further weighing on individual and hospital costs. Additionally hampering this approach, the abrupt discontinuation of the overused painkiller(s) invariably results in disabling withdrawal symptoms for up to 2 weeks, including a transitory worsening of headache, the so-called ‘rebound headache.’ ”
 

Inpatient or outpatient: Does it matter?

According to Dr. Pensato and colleagues, early evidence suggests that previous painkiller withdrawal does not impact the efficacy of anti-CGRPs for medication overuse headache, yet relevant data remain scarce. To address this knowledge gap, they conducted a prospective, real-world study exploring the relationship between detoxification and outcomes after starting anti-CGRP therapy.

Out of 401 patients enrolled based on initiation of erenumab or galcanezumab, 111 satisfied inclusion criteria, including diagnosis of chronic migraine and medication overuse headache, at least 28 days of analgesic usage and headache days per month in the preceding 3 months, and other factors. Of these 111 patients, 83 underwent in-hospital detox, while the remaining 28 patients, who declined detox based on personal reasons or COVID-19–related bed shortage, were advised to discontinue overused medication on an outpatient basis (without oversight).

The primary endpoint was medication overuse headache responder rate after 3 months, as defined by ICHD-3 diagnostic criteria. Secondary endpoints included 6-item headache impact test (HIT-6), monthly headache days (MHD), migraine disability assessment score (MIDAS), mean pain intensity (MPI), monthly pain medication intake (MPMI), baseline predictors of response/refractoriness, and safety.

Three months after starting anti-CGRP therapy, 59% of patients had resolution of medication overuse headache, including 57% in the inpatient detox group and 64% in the outpatient group, a difference that was not statistically significant (P = .4788). Approximately half of the patients (51%) had at least 50% reduction in monthly headache days; although the rate was numerically lower in the inpatient group compared with the outpatient group, the difference was again not significant (51% vs. 54%; P = .8393).

“Our results support the emerging evidence that anti-CGRP drugs may be effective in these patients irrespective of the detoxification program,” the investigators concluded. “Further studies are needed to definitively confirm these results, potentially leading to a paradigm shift in the management of medication overuse headache.”
 

Abrupt or gradual detox?

According to Alan M. Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles, and editor-in-chief of Neurology Reviews, the study was hampered by two major design limitations.

“The biggest problem I see is that the two groups were treated very differently for their detoxification,” Dr. Rapoport said. “One group was detoxified abruptly in the hospital, so the authors were sure that the patients were off acute-care medication before they started their preventives. The other group was advised to stop their medication on an outpatient basis. The issue is that we have no follow-up as to whether the outpatients did or did not abruptly detoxify. A bigger issue was that the two groups were not randomized so there are many other variables that may have come into consideration.”

Still, Dr. Rapoport, a past president of the International Headache Society (IHS), noted that the findings strengthen a growing body of evidence supporting the efficacy of monoclonal antibodies for medication overuse headache regardless of detoxification strategy. He cited a 2020 study by Carlsen and colleagues conducted at the Danish Headache Center in Copenhagen, which reported similar medication overuse headache outcomes across three randomized cohorts whether they received preventive therapy with detoxification, preventive therapy without detoxification, or detoxification followed 2 months later by preventive therapy.

“What I have noticed since we have had monoclonal antibodies in our armamentarium is that these drugs work very well even when the patient has not fully detoxified,” Dr. Rapoport said. “What I do with my patients is not teach them how to detoxify now, but simply educate them to take fewer acute care medications as their headaches get better from the monoclonal antibodies; they should try to take fewer acute care medications for milder, shorter headaches, and just let them go away on their own. Previous research suggests that even when a patient is not educated at all about medication overuse headache and the reason for detoxification, monoclonal antibodies still work in the presence of medication overuse headache, and improve it.”

The investigators disclosed relationships with Allergan, Novartis, Teva, and others. Dr. Rapoport is on the speakers bureau for AbbVie.

Anti–calcitonin gene-related peptide (anti-CGRP) monoclonal antibodies are effective for patients with chronic migraine and medication overuse headache regardless of detoxification strategy, according to investigators.

Abruptly discontinuing overused analgesics with health care provider oversight – a frequently resource-intensive and challenging process – is no more effective for controlling medication overuse headache than simply advising patients to stop, reported lead author Umberto Pensato, MD, of the University of Bologna, Italy, and colleagues.

“[C]urrently, the abrupt discontinuation of the overused painkiller(s), accompanied by the start of a pharmacological preventive therapy, is the most recommended strategy [for medication overuse headache],” the investigators wrote in Cephalalgia. “While painkiller(s) withdrawal could be accomplished on an outpatient basis in most cases, an in-hospital setting may be required to achieve successful discontinuation in a subgroup of patients with medication overuse headache, further weighing on individual and hospital costs. Additionally hampering this approach, the abrupt discontinuation of the overused painkiller(s) invariably results in disabling withdrawal symptoms for up to 2 weeks, including a transitory worsening of headache, the so-called ‘rebound headache.’ ”
 

Inpatient or outpatient: Does it matter?

According to Dr. Pensato and colleagues, early evidence suggests that previous painkiller withdrawal does not impact the efficacy of anti-CGRPs for medication overuse headache, yet relevant data remain scarce. To address this knowledge gap, they conducted a prospective, real-world study exploring the relationship between detoxification and outcomes after starting anti-CGRP therapy.

Out of 401 patients enrolled based on initiation of erenumab or galcanezumab, 111 satisfied inclusion criteria, including diagnosis of chronic migraine and medication overuse headache, at least 28 days of analgesic usage and headache days per month in the preceding 3 months, and other factors. Of these 111 patients, 83 underwent in-hospital detox, while the remaining 28 patients, who declined detox based on personal reasons or COVID-19–related bed shortage, were advised to discontinue overused medication on an outpatient basis (without oversight).

The primary endpoint was medication overuse headache responder rate after 3 months, as defined by ICHD-3 diagnostic criteria. Secondary endpoints included 6-item headache impact test (HIT-6), monthly headache days (MHD), migraine disability assessment score (MIDAS), mean pain intensity (MPI), monthly pain medication intake (MPMI), baseline predictors of response/refractoriness, and safety.

Three months after starting anti-CGRP therapy, 59% of patients had resolution of medication overuse headache, including 57% in the inpatient detox group and 64% in the outpatient group, a difference that was not statistically significant (P = .4788). Approximately half of the patients (51%) had at least 50% reduction in monthly headache days; although the rate was numerically lower in the inpatient group compared with the outpatient group, the difference was again not significant (51% vs. 54%; P = .8393).

“Our results support the emerging evidence that anti-CGRP drugs may be effective in these patients irrespective of the detoxification program,” the investigators concluded. “Further studies are needed to definitively confirm these results, potentially leading to a paradigm shift in the management of medication overuse headache.”
 

Abrupt or gradual detox?

According to Alan M. Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles, and editor-in-chief of Neurology Reviews, the study was hampered by two major design limitations.

“The biggest problem I see is that the two groups were treated very differently for their detoxification,” Dr. Rapoport said. “One group was detoxified abruptly in the hospital, so the authors were sure that the patients were off acute-care medication before they started their preventives. The other group was advised to stop their medication on an outpatient basis. The issue is that we have no follow-up as to whether the outpatients did or did not abruptly detoxify. A bigger issue was that the two groups were not randomized so there are many other variables that may have come into consideration.”

Still, Dr. Rapoport, a past president of the International Headache Society (IHS), noted that the findings strengthen a growing body of evidence supporting the efficacy of monoclonal antibodies for medication overuse headache regardless of detoxification strategy. He cited a 2020 study by Carlsen and colleagues conducted at the Danish Headache Center in Copenhagen, which reported similar medication overuse headache outcomes across three randomized cohorts whether they received preventive therapy with detoxification, preventive therapy without detoxification, or detoxification followed 2 months later by preventive therapy.

“What I have noticed since we have had monoclonal antibodies in our armamentarium is that these drugs work very well even when the patient has not fully detoxified,” Dr. Rapoport said. “What I do with my patients is not teach them how to detoxify now, but simply educate them to take fewer acute care medications as their headaches get better from the monoclonal antibodies; they should try to take fewer acute care medications for milder, shorter headaches, and just let them go away on their own. Previous research suggests that even when a patient is not educated at all about medication overuse headache and the reason for detoxification, monoclonal antibodies still work in the presence of medication overuse headache, and improve it.”

The investigators disclosed relationships with Allergan, Novartis, Teva, and others. Dr. Rapoport is on the speakers bureau for AbbVie.

The use of a robotic-assisted device to perform transcranial Doppler ultrasound greatly improved the detection of right-to-left cardiac shunts in patients with presumed embolic strokes compared with the current standard of care – transthoracic echocardiography – in a new study.

Being far easier to perform than regular transcranial Doppler ultrasound, it’s hoped that use of the robotic device will enable many more patients to undergo the more sensitive transcranial screening modality and increase the number of shunts identified.

“I believe robot-assisted transcranial Doppler ultrasound can fill the gap between the gold standard transcranial Doppler and transthoracic echocardiography, which is the current standard of care,” said lead author Mark Rubin, MD.  

Dr. Rubin, who is assistant professor of neurology at University of Tennessee Health Science Center, Memphis, presented results of the BUBL study at the International Stroke Conference (ISC) 2022, where they were greeted with applause from the floor.
 

An improvement in the current standard of care

Dr. Rubin explained that patients with suspected embolic stroke are routinely screened for shunts in the heart, such as patent foramen ovale (PFO), that allow blood to flow from the right chamber to the left chamber and can lead to clots from the venous system, accessing the arterial system, then traveling to the brain and causing a stroke.

The current standard of care in screening for such shunts is the use of transthoracic echocardiography (TTE), a widely available and easy to perform, non-invasive procedure. “But we have known for decades that TTE does not pick up these shunts very well. With a sensitivity of only around 45%, it identifies less than half of the patients affected,” Dr. Rubin noted.  

The more sensitive transesophageal echocardiography (TEE) gives much better results, but it is an invasive and unpleasant procedure with the ultrasound probe being passed down the throat, and the patient needing to be sedated, so it’s not appropriate for everyone, he noted.

“Transcranial Doppler ultrasound (TCD) also gives excellent results, with a sensitivity of about 96% for detecting PFO, but this procedure is difficult to perform and requires a great deal of skill in placing the probes in the right position and interpreting the signal,” Dr. Rubin said. “TCD has been around for decades, but it hasn’t caught on, as it is too difficult to do. It takes a lot of time to learn the technique.”

“With the robotic-assisted transcranial Doppler device, we can achieve the sensitivity of TCD without needing expert operators. This should vastly improve accessibility to this technology,” he said. “With such technology we can make significant strides into more accurate diagnoses on the cause of stroke, which should lead to better preventive treatments in those found to have right-to-left shunts.”  
 

Robotic detection of shunts

For the BUBL study, the robotic TCD technique was compared with the standard TTE in 129 patients who had a diagnosis of presumed embolic stroke or transient ischemic attack (TIA), with all patients undergoing both procedures.  

The robotic TCD device resembles a giant pair of headphones containing the ultrasound probes, which are attached to a frame. In the study, it was operated by a health care professional without TCD skills. Each ultrasound probe independently scans the temporal area autonomously – with angling and positive pressure against the scalp akin to a sonographer – to find and optimize bilateral middle cerebral artery signals, Dr. Rubin explained.

The primary endpoint was the detection of a right-to-left shunt. This occurred in 82 of the 129 patients (63.6%) with the robotic TCD device but in only 27 patients (20.9%) when TTE was used. This gives an absolute difference of 42.6% (95% confidence interval, 28.6%-56.7%; P < .001), which Dr. Rubin described as “astounding.”

However, he said he was not surprised by these results.

“In my experience with transcranial Doppler, I find shunts in patients every day that have not been seen with transthoracic echo,” he commented.

He noted that a previous meta-analysis has suggested a similar difference between TCD and transthoracic echo, but the current study provides prospectively collected data produced in a clinical trial setting and is therefore more reliable. 

“What I hope comes from this is that more patients will be able to undergo transcranial Doppler, which is a far superior screening technique for identifying right-to-left shunts. There is so much evidence to support the use of transcranial Doppler, but with this new artificial-intelligence robotic device, we don’t need an expert to use it,” Dr. Rubin said.   

He explained that finding a right-to-left shunt in stroke patients is particularly important, as it can direct treatment strategies to reduce future risk of recurrent strokes.

“If a patient has a large shunt, then they have a high risk of having another stroke, and the PFO should be closed.”

In this study, the robotic-assisted TCD detected three times as many large shunts that were considered “intervenable,” compared with transthoracic echo, identifying these shunts in 35 patients (27%) compared to just 13 (10%) with TTE.

“Of the 35 patients with intervenable shunts detected with robotic transcranial Doppler, TTE was completely negative in 18 of them and only suggested a small shunt in the others. So, the standard of care (TTE) missed half the patients with intervenable PFOs,” Dr. Rubin reported.
 

Study should ‘dramatically change’ practice

Commenting on the study, Patrick Lyden, MD, professor of physiology and neuroscience and of neurology, University of Southern California, Los Angeles, said: “Most clinicians hesitate to use transcranial Doppler given the need for specialized technical expertise to obtain a reliable result. This study showed that a robotic transcranial Doppler device – which can be applied by any cardiac non-invasive lab technician – provides reliable and rigorous data.”

He added: “This result will dramatically change the typical evaluation of patients with suspected PFO: In place of an invasive transesophageal echo that requires anesthesia and a cardiologist, most patients can have a non-invasive, robotic-guided transcranial Doppler and get the same diagnostic benefit.”

Dr. Lyden also pointed out that the cost of TCD is typically one-tenth that of TEE, although he said the cost of the robotic guided TCD “is not clear.”

A representative of the company that makes the robotic assisted device, NovaSignal, says the cost of the equipment is approximately $250,000, but “understanding the importance of the technology, we work with each hospital to meet their unique needs.”

The company adds that it currently has “over 45 commercial solutions deployed across 25 centers with 3-4 times growth expected year over year.”

The study was supported by NovaSignal, the company which makes the robotic device. Dr. Rubin reports acting as a consultant for the NovaSignal.

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

The use of a robotic-assisted device to perform transcranial Doppler ultrasound greatly improved the detection of right-to-left cardiac shunts in patients with presumed embolic strokes compared with the current standard of care – transthoracic echocardiography – in a new study.

Being far easier to perform than regular transcranial Doppler ultrasound, it’s hoped that use of the robotic device will enable many more patients to undergo the more sensitive transcranial screening modality and increase the number of shunts identified.

“I believe robot-assisted transcranial Doppler ultrasound can fill the gap between the gold standard transcranial Doppler and transthoracic echocardiography, which is the current standard of care,” said lead author Mark Rubin, MD.  

Dr. Rubin, who is assistant professor of neurology at University of Tennessee Health Science Center, Memphis, presented results of the BUBL study at the International Stroke Conference (ISC) 2022, where they were greeted with applause from the floor.
 

An improvement in the current standard of care

Dr. Rubin explained that patients with suspected embolic stroke are routinely screened for shunts in the heart, such as patent foramen ovale (PFO), that allow blood to flow from the right chamber to the left chamber and can lead to clots from the venous system, accessing the arterial system, then traveling to the brain and causing a stroke.

The current standard of care in screening for such shunts is the use of transthoracic echocardiography (TTE), a widely available and easy to perform, non-invasive procedure. “But we have known for decades that TTE does not pick up these shunts very well. With a sensitivity of only around 45%, it identifies less than half of the patients affected,” Dr. Rubin noted.  

The more sensitive transesophageal echocardiography (TEE) gives much better results, but it is an invasive and unpleasant procedure with the ultrasound probe being passed down the throat, and the patient needing to be sedated, so it’s not appropriate for everyone, he noted.

“Transcranial Doppler ultrasound (TCD) also gives excellent results, with a sensitivity of about 96% for detecting PFO, but this procedure is difficult to perform and requires a great deal of skill in placing the probes in the right position and interpreting the signal,” Dr. Rubin said. “TCD has been around for decades, but it hasn’t caught on, as it is too difficult to do. It takes a lot of time to learn the technique.”

“With the robotic-assisted transcranial Doppler device, we can achieve the sensitivity of TCD without needing expert operators. This should vastly improve accessibility to this technology,” he said. “With such technology we can make significant strides into more accurate diagnoses on the cause of stroke, which should lead to better preventive treatments in those found to have right-to-left shunts.”  
 

Robotic detection of shunts

For the BUBL study, the robotic TCD technique was compared with the standard TTE in 129 patients who had a diagnosis of presumed embolic stroke or transient ischemic attack (TIA), with all patients undergoing both procedures.  

The robotic TCD device resembles a giant pair of headphones containing the ultrasound probes, which are attached to a frame. In the study, it was operated by a health care professional without TCD skills. Each ultrasound probe independently scans the temporal area autonomously – with angling and positive pressure against the scalp akin to a sonographer – to find and optimize bilateral middle cerebral artery signals, Dr. Rubin explained.

The primary endpoint was the detection of a right-to-left shunt. This occurred in 82 of the 129 patients (63.6%) with the robotic TCD device but in only 27 patients (20.9%) when TTE was used. This gives an absolute difference of 42.6% (95% confidence interval, 28.6%-56.7%; P < .001), which Dr. Rubin described as “astounding.”

However, he said he was not surprised by these results.

“In my experience with transcranial Doppler, I find shunts in patients every day that have not been seen with transthoracic echo,” he commented.

He noted that a previous meta-analysis has suggested a similar difference between TCD and transthoracic echo, but the current study provides prospectively collected data produced in a clinical trial setting and is therefore more reliable. 

“What I hope comes from this is that more patients will be able to undergo transcranial Doppler, which is a far superior screening technique for identifying right-to-left shunts. There is so much evidence to support the use of transcranial Doppler, but with this new artificial-intelligence robotic device, we don’t need an expert to use it,” Dr. Rubin said.   

He explained that finding a right-to-left shunt in stroke patients is particularly important, as it can direct treatment strategies to reduce future risk of recurrent strokes.

“If a patient has a large shunt, then they have a high risk of having another stroke, and the PFO should be closed.”

In this study, the robotic-assisted TCD detected three times as many large shunts that were considered “intervenable,” compared with transthoracic echo, identifying these shunts in 35 patients (27%) compared to just 13 (10%) with TTE.

“Of the 35 patients with intervenable shunts detected with robotic transcranial Doppler, TTE was completely negative in 18 of them and only suggested a small shunt in the others. So, the standard of care (TTE) missed half the patients with intervenable PFOs,” Dr. Rubin reported.
 

Study should ‘dramatically change’ practice

Commenting on the study, Patrick Lyden, MD, professor of physiology and neuroscience and of neurology, University of Southern California, Los Angeles, said: “Most clinicians hesitate to use transcranial Doppler given the need for specialized technical expertise to obtain a reliable result. This study showed that a robotic transcranial Doppler device – which can be applied by any cardiac non-invasive lab technician – provides reliable and rigorous data.”

He added: “This result will dramatically change the typical evaluation of patients with suspected PFO: In place of an invasive transesophageal echo that requires anesthesia and a cardiologist, most patients can have a non-invasive, robotic-guided transcranial Doppler and get the same diagnostic benefit.”

Dr. Lyden also pointed out that the cost of TCD is typically one-tenth that of TEE, although he said the cost of the robotic guided TCD “is not clear.”

A representative of the company that makes the robotic assisted device, NovaSignal, says the cost of the equipment is approximately $250,000, but “understanding the importance of the technology, we work with each hospital to meet their unique needs.”

The company adds that it currently has “over 45 commercial solutions deployed across 25 centers with 3-4 times growth expected year over year.”

The study was supported by NovaSignal, the company which makes the robotic device. Dr. Rubin reports acting as a consultant for the NovaSignal.

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

The use of a robotic-assisted device to perform transcranial Doppler ultrasound greatly improved the detection of right-to-left cardiac shunts in patients with presumed embolic strokes compared with the current standard of care – transthoracic echocardiography – in a new study.

Being far easier to perform than regular transcranial Doppler ultrasound, it’s hoped that use of the robotic device will enable many more patients to undergo the more sensitive transcranial screening modality and increase the number of shunts identified.

“I believe robot-assisted transcranial Doppler ultrasound can fill the gap between the gold standard transcranial Doppler and transthoracic echocardiography, which is the current standard of care,” said lead author Mark Rubin, MD.  

Dr. Rubin, who is assistant professor of neurology at University of Tennessee Health Science Center, Memphis, presented results of the BUBL study at the International Stroke Conference (ISC) 2022, where they were greeted with applause from the floor.
 

An improvement in the current standard of care

Dr. Rubin explained that patients with suspected embolic stroke are routinely screened for shunts in the heart, such as patent foramen ovale (PFO), that allow blood to flow from the right chamber to the left chamber and can lead to clots from the venous system, accessing the arterial system, then traveling to the brain and causing a stroke.

The current standard of care in screening for such shunts is the use of transthoracic echocardiography (TTE), a widely available and easy to perform, non-invasive procedure. “But we have known for decades that TTE does not pick up these shunts very well. With a sensitivity of only around 45%, it identifies less than half of the patients affected,” Dr. Rubin noted.  

The more sensitive transesophageal echocardiography (TEE) gives much better results, but it is an invasive and unpleasant procedure with the ultrasound probe being passed down the throat, and the patient needing to be sedated, so it’s not appropriate for everyone, he noted.

“Transcranial Doppler ultrasound (TCD) also gives excellent results, with a sensitivity of about 96% for detecting PFO, but this procedure is difficult to perform and requires a great deal of skill in placing the probes in the right position and interpreting the signal,” Dr. Rubin said. “TCD has been around for decades, but it hasn’t caught on, as it is too difficult to do. It takes a lot of time to learn the technique.”

“With the robotic-assisted transcranial Doppler device, we can achieve the sensitivity of TCD without needing expert operators. This should vastly improve accessibility to this technology,” he said. “With such technology we can make significant strides into more accurate diagnoses on the cause of stroke, which should lead to better preventive treatments in those found to have right-to-left shunts.”  
 

Robotic detection of shunts

For the BUBL study, the robotic TCD technique was compared with the standard TTE in 129 patients who had a diagnosis of presumed embolic stroke or transient ischemic attack (TIA), with all patients undergoing both procedures.  

The robotic TCD device resembles a giant pair of headphones containing the ultrasound probes, which are attached to a frame. In the study, it was operated by a health care professional without TCD skills. Each ultrasound probe independently scans the temporal area autonomously – with angling and positive pressure against the scalp akin to a sonographer – to find and optimize bilateral middle cerebral artery signals, Dr. Rubin explained.

The primary endpoint was the detection of a right-to-left shunt. This occurred in 82 of the 129 patients (63.6%) with the robotic TCD device but in only 27 patients (20.9%) when TTE was used. This gives an absolute difference of 42.6% (95% confidence interval, 28.6%-56.7%; P < .001), which Dr. Rubin described as “astounding.”

However, he said he was not surprised by these results.

“In my experience with transcranial Doppler, I find shunts in patients every day that have not been seen with transthoracic echo,” he commented.

He noted that a previous meta-analysis has suggested a similar difference between TCD and transthoracic echo, but the current study provides prospectively collected data produced in a clinical trial setting and is therefore more reliable. 

“What I hope comes from this is that more patients will be able to undergo transcranial Doppler, which is a far superior screening technique for identifying right-to-left shunts. There is so much evidence to support the use of transcranial Doppler, but with this new artificial-intelligence robotic device, we don’t need an expert to use it,” Dr. Rubin said.   

He explained that finding a right-to-left shunt in stroke patients is particularly important, as it can direct treatment strategies to reduce future risk of recurrent strokes.

“If a patient has a large shunt, then they have a high risk of having another stroke, and the PFO should be closed.”

In this study, the robotic-assisted TCD detected three times as many large shunts that were considered “intervenable,” compared with transthoracic echo, identifying these shunts in 35 patients (27%) compared to just 13 (10%) with TTE.

“Of the 35 patients with intervenable shunts detected with robotic transcranial Doppler, TTE was completely negative in 18 of them and only suggested a small shunt in the others. So, the standard of care (TTE) missed half the patients with intervenable PFOs,” Dr. Rubin reported.
 

Study should ‘dramatically change’ practice

Commenting on the study, Patrick Lyden, MD, professor of physiology and neuroscience and of neurology, University of Southern California, Los Angeles, said: “Most clinicians hesitate to use transcranial Doppler given the need for specialized technical expertise to obtain a reliable result. This study showed that a robotic transcranial Doppler device – which can be applied by any cardiac non-invasive lab technician – provides reliable and rigorous data.”

He added: “This result will dramatically change the typical evaluation of patients with suspected PFO: In place of an invasive transesophageal echo that requires anesthesia and a cardiologist, most patients can have a non-invasive, robotic-guided transcranial Doppler and get the same diagnostic benefit.”

Dr. Lyden also pointed out that the cost of TCD is typically one-tenth that of TEE, although he said the cost of the robotic guided TCD “is not clear.”

A representative of the company that makes the robotic assisted device, NovaSignal, says the cost of the equipment is approximately $250,000, but “understanding the importance of the technology, we work with each hospital to meet their unique needs.”

The company adds that it currently has “over 45 commercial solutions deployed across 25 centers with 3-4 times growth expected year over year.”

The study was supported by NovaSignal, the company which makes the robotic device. Dr. Rubin reports acting as a consultant for the NovaSignal.

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

A healthy, diverse gut microbiome is associated with better cognitive function in middle age, new research suggests.

Investigators conducted cognitive testing and analyzed stool samples in close to 600 adults and found that beta-diversity, which is a between-person measure of gut microbial community composition, was significantly associated with cognitive scores.

Three specific bacterial genera showed a positive association with performance on at least one cognitive test, while one showed a negative association.

“Data from our study support an association between the gut microbial community and measure of cognitive function – results that are consistent with findings from other human and animal research,” study investigator Katie Meyer, ScD, assistant professor, department of nutrition, UNC Gillings School of Public Health, Chapel Hill, N.C., told this news organization.

“However, it is also important to recognize that we are still learning about how to characterize the role of this dynamic ecological community and delineate mechanistic pathways,” she said.

The study was published online Feb 8 in JAMA Network Open.
 

‘Novel’ research

“Communication pathways between gut bacteria and neurologic function (referred to as the ‘gut-brain axis’) have emerged as a novel area of research into potential mechanisms regulating brain health through immunologic, metabolic, and endocrine pathways,” the authors wrote.

A number of studies have “shown associations between gut microbial measures and neurological outcomes, including cognitive function and dementia,” but mechanisms underlying these associations “have not been fully established.”

Animal and small-scale human studies have suggested that reduced microbial diversity is associated with poorer cognition, but studies have not been conducted in community-based large and diverse populations.

The researchers therefore examined cross-sectional associations of gut microbial diversity and taxonomic composition with cognitive status in a large group of community-dwelling, sociodemographically diverse Black and White adults living in four metropolitan areas who were participants in the Coronary Artery Risk Development in Young Adults (CARDIA) study.

They hypothesized that microbial diversity would be positively associated with global as well as domain-specific cognitive status and that higher cognitive status would be associated with specific taxonomic groups involved in short-chain fatty acid production.

The CARDIA’s year 30 follow-up examination took place during 2015-2016, when the original participants ranged in age from 48 to 60 years. During that examination, participants took a battery of cognitive assessments, and 615 also provided a stool sample for a microbiome substudy; of these, 597 (mean [SD] age, 55.2 [3.5] years, 44.7% Black, 45.2% White) had both stool DNA available for sequencing and a complete complement of cognitive tests and were included in the current study.

The cognitive tests included the Digit Symbol Substitution Test (DSST); Rey-Auditory Verbal Learning Test (RAVLT); the timed Stroop test; letter fluency and category fluency; and the Montreal Cognitive Assessment (MoCA).

Covariates that might confound associations between microbial and cognitive measures, including body mass index, diabetes, age, sex, race, field center, education, physical activity, current smoking, diet quality, number of medications, and hypertension, were included in the analyses.

The investigators conducted three standard microbial analyses: within-person alpha-diversity; between-person beta-diversity; and individual taxa.
 

Potential pathways

The strongest associations in the variance tests for beta-diversity, which were significant for all cognition measures in multivariable-adjusted principal coordinates analysis (all Ps = .001 except for the Stroop, which was .007). However, the association with letter fluency was not deemed significant (P = .07).

After fully adjusting for sociodemographic variables, health behaviors, and clinical covariates, the researchers found that three genera were positively associated, while one was negatively associated with cognitive measures.

Starting point

Commenting for this news organization, Timothy Dinan, MD, PhD, professor of psychiatry and an investigator, APC Microbiome Institute, University College Cork, Ireland, said, “This is an important study, adding to the growing body of evidence that gut microbes influence brain function.”

Dr. Dinan, who was not involved with the study, continued: “In an impressively large sample, an association between cognition and gut microbiota architecture was demonstrated.”

He cautioned that the study “is limited by the fact that it is cross-sectional, and the relationships are correlational.” Nevertheless, “despite these obvious caveats, the paper undoubtedly advances the field.”

Dr. Meyer agreed, noting that there is “a paucity of biomarkers that can be used to predict cognitive decline and dementia,” but because their study was cross-sectional, “we cannot assess temporality (i.e., whether gut microbiota predicts cognitive decline); but, as a start, we can assess associations.”

She added that “at this point, we know far more about modifiable risk factors that have been shown to be positively associated with cognitive function,” including eating a Mediterranean diet and engaging in physical activity.

“It is possible that protective effects of diet and activity may, in part, operate thorough the gut microbiota,” Dr. Meyer suggested.

The CARDIA study is supported by the National Heart, Lung, and Blood Institute, the Intramural Research Program of the National Institute on Aging, and the University of North Carolina Nutrition Research Institute. Dr. Meyer and coauthors and Dr. Dinan report no relevant financial relationships.

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

A healthy, diverse gut microbiome is associated with better cognitive function in middle age, new research suggests.

Investigators conducted cognitive testing and analyzed stool samples in close to 600 adults and found that beta-diversity, which is a between-person measure of gut microbial community composition, was significantly associated with cognitive scores.

Three specific bacterial genera showed a positive association with performance on at least one cognitive test, while one showed a negative association.

“Data from our study support an association between the gut microbial community and measure of cognitive function – results that are consistent with findings from other human and animal research,” study investigator Katie Meyer, ScD, assistant professor, department of nutrition, UNC Gillings School of Public Health, Chapel Hill, N.C., told this news organization.

“However, it is also important to recognize that we are still learning about how to characterize the role of this dynamic ecological community and delineate mechanistic pathways,” she said.

The study was published online Feb 8 in JAMA Network Open.
 

‘Novel’ research

“Communication pathways between gut bacteria and neurologic function (referred to as the ‘gut-brain axis’) have emerged as a novel area of research into potential mechanisms regulating brain health through immunologic, metabolic, and endocrine pathways,” the authors wrote.

A number of studies have “shown associations between gut microbial measures and neurological outcomes, including cognitive function and dementia,” but mechanisms underlying these associations “have not been fully established.”

Animal and small-scale human studies have suggested that reduced microbial diversity is associated with poorer cognition, but studies have not been conducted in community-based large and diverse populations.

The researchers therefore examined cross-sectional associations of gut microbial diversity and taxonomic composition with cognitive status in a large group of community-dwelling, sociodemographically diverse Black and White adults living in four metropolitan areas who were participants in the Coronary Artery Risk Development in Young Adults (CARDIA) study.

They hypothesized that microbial diversity would be positively associated with global as well as domain-specific cognitive status and that higher cognitive status would be associated with specific taxonomic groups involved in short-chain fatty acid production.

The CARDIA’s year 30 follow-up examination took place during 2015-2016, when the original participants ranged in age from 48 to 60 years. During that examination, participants took a battery of cognitive assessments, and 615 also provided a stool sample for a microbiome substudy; of these, 597 (mean [SD] age, 55.2 [3.5] years, 44.7% Black, 45.2% White) had both stool DNA available for sequencing and a complete complement of cognitive tests and were included in the current study.

The cognitive tests included the Digit Symbol Substitution Test (DSST); Rey-Auditory Verbal Learning Test (RAVLT); the timed Stroop test; letter fluency and category fluency; and the Montreal Cognitive Assessment (MoCA).

Covariates that might confound associations between microbial and cognitive measures, including body mass index, diabetes, age, sex, race, field center, education, physical activity, current smoking, diet quality, number of medications, and hypertension, were included in the analyses.

The investigators conducted three standard microbial analyses: within-person alpha-diversity; between-person beta-diversity; and individual taxa.
 

Potential pathways

The strongest associations in the variance tests for beta-diversity, which were significant for all cognition measures in multivariable-adjusted principal coordinates analysis (all Ps = .001 except for the Stroop, which was .007). However, the association with letter fluency was not deemed significant (P = .07).

After fully adjusting for sociodemographic variables, health behaviors, and clinical covariates, the researchers found that three genera were positively associated, while one was negatively associated with cognitive measures.

Starting point

Commenting for this news organization, Timothy Dinan, MD, PhD, professor of psychiatry and an investigator, APC Microbiome Institute, University College Cork, Ireland, said, “This is an important study, adding to the growing body of evidence that gut microbes influence brain function.”

Dr. Dinan, who was not involved with the study, continued: “In an impressively large sample, an association between cognition and gut microbiota architecture was demonstrated.”

He cautioned that the study “is limited by the fact that it is cross-sectional, and the relationships are correlational.” Nevertheless, “despite these obvious caveats, the paper undoubtedly advances the field.”

Dr. Meyer agreed, noting that there is “a paucity of biomarkers that can be used to predict cognitive decline and dementia,” but because their study was cross-sectional, “we cannot assess temporality (i.e., whether gut microbiota predicts cognitive decline); but, as a start, we can assess associations.”

She added that “at this point, we know far more about modifiable risk factors that have been shown to be positively associated with cognitive function,” including eating a Mediterranean diet and engaging in physical activity.

“It is possible that protective effects of diet and activity may, in part, operate thorough the gut microbiota,” Dr. Meyer suggested.

The CARDIA study is supported by the National Heart, Lung, and Blood Institute, the Intramural Research Program of the National Institute on Aging, and the University of North Carolina Nutrition Research Institute. Dr. Meyer and coauthors and Dr. Dinan report no relevant financial relationships.

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

A healthy, diverse gut microbiome is associated with better cognitive function in middle age, new research suggests.

Investigators conducted cognitive testing and analyzed stool samples in close to 600 adults and found that beta-diversity, which is a between-person measure of gut microbial community composition, was significantly associated with cognitive scores.

Three specific bacterial genera showed a positive association with performance on at least one cognitive test, while one showed a negative association.

“Data from our study support an association between the gut microbial community and measure of cognitive function – results that are consistent with findings from other human and animal research,” study investigator Katie Meyer, ScD, assistant professor, department of nutrition, UNC Gillings School of Public Health, Chapel Hill, N.C., told this news organization.

“However, it is also important to recognize that we are still learning about how to characterize the role of this dynamic ecological community and delineate mechanistic pathways,” she said.

The study was published online Feb 8 in JAMA Network Open.
 

‘Novel’ research

“Communication pathways between gut bacteria and neurologic function (referred to as the ‘gut-brain axis’) have emerged as a novel area of research into potential mechanisms regulating brain health through immunologic, metabolic, and endocrine pathways,” the authors wrote.

A number of studies have “shown associations between gut microbial measures and neurological outcomes, including cognitive function and dementia,” but mechanisms underlying these associations “have not been fully established.”

Animal and small-scale human studies have suggested that reduced microbial diversity is associated with poorer cognition, but studies have not been conducted in community-based large and diverse populations.

The researchers therefore examined cross-sectional associations of gut microbial diversity and taxonomic composition with cognitive status in a large group of community-dwelling, sociodemographically diverse Black and White adults living in four metropolitan areas who were participants in the Coronary Artery Risk Development in Young Adults (CARDIA) study.

They hypothesized that microbial diversity would be positively associated with global as well as domain-specific cognitive status and that higher cognitive status would be associated with specific taxonomic groups involved in short-chain fatty acid production.

The CARDIA’s year 30 follow-up examination took place during 2015-2016, when the original participants ranged in age from 48 to 60 years. During that examination, participants took a battery of cognitive assessments, and 615 also provided a stool sample for a microbiome substudy; of these, 597 (mean [SD] age, 55.2 [3.5] years, 44.7% Black, 45.2% White) had both stool DNA available for sequencing and a complete complement of cognitive tests and were included in the current study.

The cognitive tests included the Digit Symbol Substitution Test (DSST); Rey-Auditory Verbal Learning Test (RAVLT); the timed Stroop test; letter fluency and category fluency; and the Montreal Cognitive Assessment (MoCA).

Covariates that might confound associations between microbial and cognitive measures, including body mass index, diabetes, age, sex, race, field center, education, physical activity, current smoking, diet quality, number of medications, and hypertension, were included in the analyses.

The investigators conducted three standard microbial analyses: within-person alpha-diversity; between-person beta-diversity; and individual taxa.
 

Potential pathways

The strongest associations in the variance tests for beta-diversity, which were significant for all cognition measures in multivariable-adjusted principal coordinates analysis (all Ps = .001 except for the Stroop, which was .007). However, the association with letter fluency was not deemed significant (P = .07).

After fully adjusting for sociodemographic variables, health behaviors, and clinical covariates, the researchers found that three genera were positively associated, while one was negatively associated with cognitive measures.

Starting point

Commenting for this news organization, Timothy Dinan, MD, PhD, professor of psychiatry and an investigator, APC Microbiome Institute, University College Cork, Ireland, said, “This is an important study, adding to the growing body of evidence that gut microbes influence brain function.”

Dr. Dinan, who was not involved with the study, continued: “In an impressively large sample, an association between cognition and gut microbiota architecture was demonstrated.”

He cautioned that the study “is limited by the fact that it is cross-sectional, and the relationships are correlational.” Nevertheless, “despite these obvious caveats, the paper undoubtedly advances the field.”

Dr. Meyer agreed, noting that there is “a paucity of biomarkers that can be used to predict cognitive decline and dementia,” but because their study was cross-sectional, “we cannot assess temporality (i.e., whether gut microbiota predicts cognitive decline); but, as a start, we can assess associations.”

She added that “at this point, we know far more about modifiable risk factors that have been shown to be positively associated with cognitive function,” including eating a Mediterranean diet and engaging in physical activity.

“It is possible that protective effects of diet and activity may, in part, operate thorough the gut microbiota,” Dr. Meyer suggested.

The CARDIA study is supported by the National Heart, Lung, and Blood Institute, the Intramural Research Program of the National Institute on Aging, and the University of North Carolina Nutrition Research Institute. Dr. Meyer and coauthors and Dr. Dinan report no relevant financial relationships.

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

The Onyx Liquid Embolic System (Medtronic) effectively occludes cerebral arteriovenous malformations (cAVMs), new observational data suggest. In a prospective, real-world study of more than 100 patients, use of the Onyx system was associated with a cure rate of 86% for cAVMs smaller than 3 cm.

“Endovascular treatment using Onyx is able to achieve, on its own, a very efficient cure rate with a low morbidity and mortality rate,” said investigator Laurent Spelle, MD, PhD, professor of neuroradiology at Paris-Saclay University and chair of NEURI, the Brain Vascular Center, Bicêtre Hospital, also in Paris.

Dr. Spelle presented the findings at the International Stroke Conference sponsored by the American Heart Association.
 

Prospective, multicenter study

Currently, the main treatment options for cAVM are embolization, neurosurgery, and radiosurgery. The Onyx liquid system, one method of providing embolization, uses a biocompatible ethylene vinyl alcohol copolymer.

It has been used in Europe for 22 years as a curative treatment and as a treatment before radiosurgery or neurosurgery. In the United States, Onyx is indicated for presurgical and preradiotherapy treatment only.

For this analysis, the researchers conducted a prospective, multicenter study to evaluate the long-term safety and efficacy of Onyx for the embolization of cAVM as curative treatment or preoperative preparation.

They enrolled 165 patients in the nonrandomized, observational study, which was conducted at 15 hospitals in France. Eligible participants had an untreated cAVM.

Patients were assigned to one of three groups, according to the hospital’s standard of care. One group underwent embolization with Onyx as curative treatment, one received Onyx as preparation for neurosurgery, and one underwent embolization with Onyx as preparation for radiosurgery.

The study’s safety endpoints were device- and procedure-related serious adverse events at 1 month after each embolization. The efficacy endpoints were recovery at 12 months after the last embolization or neurosurgery, or at a minimum of 36 months after radiosurgery.

The researchers defined morbidity as a worsening of modified Rankin Scale score of 2 or more points for patients presenting with baseline mRS of 0 or 1, or a worsening of 1 or more points for patients with an mRS of 2 or greater at baseline. An independent clinical events committee and core laboratory adjudicated the results.
 

‘A fantastic result’

In all, 140 patients were prospectively included, and 212 embolization procedures were performed. The population’s mean age was 41.4 years, and 60% of participants were men. About 61% of patients presented with symptoms, the most common of which were progressive neurologic deficit (41.2%) and headache (36.5%).

Approximately 64% of the cAVMs were ruptured. Most (75.7%) were smaller than 3 cm, and the remainder were between 3 and 6 cm. Most patients (59.3%) did not have an aneurysm.

Eight (3.8%) adverse events were associated with the use of Onyx. The rate of procedure-related neurologic serious adverse events was 7.1% within 1 month post embolization. Three deaths occurred (2.1%), one of which was considered device or procedure related.

A total of 87 patients underwent embolization alone, 14 of whom did not complete the study (2 died, 5 were lost to follow-up, and 7 withdrew). Of the 73 who completed the study, 58 (79.5%) had complete occlusion and full recovery at last follow-up. An additional 6.8% had 99% occlusion.

In addition, 3.4% of the population had significant morbidity, and 18.4% presented at baseline with mRS scores of 3-5. Of the latter group, 81.3% had mRS scores of 0-2 at last visit.

Of 21 patients who underwent subsequent neurosurgery, 18 completed follow-up. Of this group, 94.4% had complete occlusion. Of 32 patients receiving subsequent radiosurgery, 54.8% had complete occlusion, which was “a little bit disappointing,” said Dr. Spelle.

Overall, most patients (92.9%) had improved or stable mRS score. The overall mortality rate was 2.9%, and the rate of significant morbidity was 4.3%.

The rate of improved or stable mRS score was 94.3% for patients who underwent embolization alone, 85.7% for patients who also underwent neurosurgery, and 93.75% for patients who also underwent radiosurgery.

The mortality rate was 3.4% for patients who underwent embolization alone, 4.8% for patients who also underwent neurosurgery, and 0% for patients who also underwent radiosurgery.

The rate of significant morbidity was 2.3% for patients who underwent embolization alone, 9.5% for those who also underwent neurosurgery, and 6.25% for those who also underwent radiosurgery.

“We knew that this treatment was very effective, but this effectiveness was only known in a limited number of centers with a very high level of expertise,” said Dr. Spelle. “We were very pleasantly surprised that a larger-scale, multicenter study conducted in 15 different hospitals in France could achieve such a fantastic result.”

The study sites, however, were all departments in university hospitals with great experience in endovascular treatment of cAVM, he added.
 

Effective in unruptured AVMs?

Commenting on the findings, Mitchell Elkind, MD, professor of neurology and epidemiology, Columbia University, New York, said: “Arteriovenous malformations remain a relatively uncommon but serious cerebrovascular disorder. Any additional tool in the armamentarium to treat these lesions is welcome.”

The study results are encouraging, said Dr. Elkind, who was not involved in the study. They suggest that Onyx embolization can play an important role in the care of these patients. The treatment is associated with “low morbidity and excellent efficacy, particularly in combination with other surgical and radiographic approaches.”

The lack of a direct comparison with alternative embolization materials is a limitation of the study, however. “It is hard to compare Onyx to other agents based on these results,” said Dr. Elkind.

“It is also notable that one-third of the patients in the study had unruptured AVMs, which at least in one randomized trial, ARUBA, were not clearly shown to benefit from an intervention at all,” he continued.

It would have been valuable for the researchers to stratify the study results by ruptured versus unruptured AVMs, Dr. Elkind said.

The study was funded by Medtronic. Dr. Spelle reported receiving honoraria from the company. Dr. Elkind disclosed no relevant financial relationships.

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

The Onyx Liquid Embolic System (Medtronic) effectively occludes cerebral arteriovenous malformations (cAVMs), new observational data suggest. In a prospective, real-world study of more than 100 patients, use of the Onyx system was associated with a cure rate of 86% for cAVMs smaller than 3 cm.

“Endovascular treatment using Onyx is able to achieve, on its own, a very efficient cure rate with a low morbidity and mortality rate,” said investigator Laurent Spelle, MD, PhD, professor of neuroradiology at Paris-Saclay University and chair of NEURI, the Brain Vascular Center, Bicêtre Hospital, also in Paris.

Dr. Spelle presented the findings at the International Stroke Conference sponsored by the American Heart Association.
 

Prospective, multicenter study

Currently, the main treatment options for cAVM are embolization, neurosurgery, and radiosurgery. The Onyx liquid system, one method of providing embolization, uses a biocompatible ethylene vinyl alcohol copolymer.

It has been used in Europe for 22 years as a curative treatment and as a treatment before radiosurgery or neurosurgery. In the United States, Onyx is indicated for presurgical and preradiotherapy treatment only.

For this analysis, the researchers conducted a prospective, multicenter study to evaluate the long-term safety and efficacy of Onyx for the embolization of cAVM as curative treatment or preoperative preparation.

They enrolled 165 patients in the nonrandomized, observational study, which was conducted at 15 hospitals in France. Eligible participants had an untreated cAVM.

Patients were assigned to one of three groups, according to the hospital’s standard of care. One group underwent embolization with Onyx as curative treatment, one received Onyx as preparation for neurosurgery, and one underwent embolization with Onyx as preparation for radiosurgery.

The study’s safety endpoints were device- and procedure-related serious adverse events at 1 month after each embolization. The efficacy endpoints were recovery at 12 months after the last embolization or neurosurgery, or at a minimum of 36 months after radiosurgery.

The researchers defined morbidity as a worsening of modified Rankin Scale score of 2 or more points for patients presenting with baseline mRS of 0 or 1, or a worsening of 1 or more points for patients with an mRS of 2 or greater at baseline. An independent clinical events committee and core laboratory adjudicated the results.
 

‘A fantastic result’

In all, 140 patients were prospectively included, and 212 embolization procedures were performed. The population’s mean age was 41.4 years, and 60% of participants were men. About 61% of patients presented with symptoms, the most common of which were progressive neurologic deficit (41.2%) and headache (36.5%).

Approximately 64% of the cAVMs were ruptured. Most (75.7%) were smaller than 3 cm, and the remainder were between 3 and 6 cm. Most patients (59.3%) did not have an aneurysm.

Eight (3.8%) adverse events were associated with the use of Onyx. The rate of procedure-related neurologic serious adverse events was 7.1% within 1 month post embolization. Three deaths occurred (2.1%), one of which was considered device or procedure related.

A total of 87 patients underwent embolization alone, 14 of whom did not complete the study (2 died, 5 were lost to follow-up, and 7 withdrew). Of the 73 who completed the study, 58 (79.5%) had complete occlusion and full recovery at last follow-up. An additional 6.8% had 99% occlusion.

In addition, 3.4% of the population had significant morbidity, and 18.4% presented at baseline with mRS scores of 3-5. Of the latter group, 81.3% had mRS scores of 0-2 at last visit.

Of 21 patients who underwent subsequent neurosurgery, 18 completed follow-up. Of this group, 94.4% had complete occlusion. Of 32 patients receiving subsequent radiosurgery, 54.8% had complete occlusion, which was “a little bit disappointing,” said Dr. Spelle.

Overall, most patients (92.9%) had improved or stable mRS score. The overall mortality rate was 2.9%, and the rate of significant morbidity was 4.3%.

The rate of improved or stable mRS score was 94.3% for patients who underwent embolization alone, 85.7% for patients who also underwent neurosurgery, and 93.75% for patients who also underwent radiosurgery.

The mortality rate was 3.4% for patients who underwent embolization alone, 4.8% for patients who also underwent neurosurgery, and 0% for patients who also underwent radiosurgery.

The rate of significant morbidity was 2.3% for patients who underwent embolization alone, 9.5% for those who also underwent neurosurgery, and 6.25% for those who also underwent radiosurgery.

“We knew that this treatment was very effective, but this effectiveness was only known in a limited number of centers with a very high level of expertise,” said Dr. Spelle. “We were very pleasantly surprised that a larger-scale, multicenter study conducted in 15 different hospitals in France could achieve such a fantastic result.”

The study sites, however, were all departments in university hospitals with great experience in endovascular treatment of cAVM, he added.
 

Effective in unruptured AVMs?

Commenting on the findings, Mitchell Elkind, MD, professor of neurology and epidemiology, Columbia University, New York, said: “Arteriovenous malformations remain a relatively uncommon but serious cerebrovascular disorder. Any additional tool in the armamentarium to treat these lesions is welcome.”

The study results are encouraging, said Dr. Elkind, who was not involved in the study. They suggest that Onyx embolization can play an important role in the care of these patients. The treatment is associated with “low morbidity and excellent efficacy, particularly in combination with other surgical and radiographic approaches.”

The lack of a direct comparison with alternative embolization materials is a limitation of the study, however. “It is hard to compare Onyx to other agents based on these results,” said Dr. Elkind.

“It is also notable that one-third of the patients in the study had unruptured AVMs, which at least in one randomized trial, ARUBA, were not clearly shown to benefit from an intervention at all,” he continued.

It would have been valuable for the researchers to stratify the study results by ruptured versus unruptured AVMs, Dr. Elkind said.

The study was funded by Medtronic. Dr. Spelle reported receiving honoraria from the company. Dr. Elkind disclosed no relevant financial relationships.

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

The Onyx Liquid Embolic System (Medtronic) effectively occludes cerebral arteriovenous malformations (cAVMs), new observational data suggest. In a prospective, real-world study of more than 100 patients, use of the Onyx system was associated with a cure rate of 86% for cAVMs smaller than 3 cm.

“Endovascular treatment using Onyx is able to achieve, on its own, a very efficient cure rate with a low morbidity and mortality rate,” said investigator Laurent Spelle, MD, PhD, professor of neuroradiology at Paris-Saclay University and chair of NEURI, the Brain Vascular Center, Bicêtre Hospital, also in Paris.

Dr. Spelle presented the findings at the International Stroke Conference sponsored by the American Heart Association.
 

Prospective, multicenter study

Currently, the main treatment options for cAVM are embolization, neurosurgery, and radiosurgery. The Onyx liquid system, one method of providing embolization, uses a biocompatible ethylene vinyl alcohol copolymer.

It has been used in Europe for 22 years as a curative treatment and as a treatment before radiosurgery or neurosurgery. In the United States, Onyx is indicated for presurgical and preradiotherapy treatment only.

For this analysis, the researchers conducted a prospective, multicenter study to evaluate the long-term safety and efficacy of Onyx for the embolization of cAVM as curative treatment or preoperative preparation.

They enrolled 165 patients in the nonrandomized, observational study, which was conducted at 15 hospitals in France. Eligible participants had an untreated cAVM.

Patients were assigned to one of three groups, according to the hospital’s standard of care. One group underwent embolization with Onyx as curative treatment, one received Onyx as preparation for neurosurgery, and one underwent embolization with Onyx as preparation for radiosurgery.

The study’s safety endpoints were device- and procedure-related serious adverse events at 1 month after each embolization. The efficacy endpoints were recovery at 12 months after the last embolization or neurosurgery, or at a minimum of 36 months after radiosurgery.

The researchers defined morbidity as a worsening of modified Rankin Scale score of 2 or more points for patients presenting with baseline mRS of 0 or 1, or a worsening of 1 or more points for patients with an mRS of 2 or greater at baseline. An independent clinical events committee and core laboratory adjudicated the results.
 

‘A fantastic result’

In all, 140 patients were prospectively included, and 212 embolization procedures were performed. The population’s mean age was 41.4 years, and 60% of participants were men. About 61% of patients presented with symptoms, the most common of which were progressive neurologic deficit (41.2%) and headache (36.5%).

Approximately 64% of the cAVMs were ruptured. Most (75.7%) were smaller than 3 cm, and the remainder were between 3 and 6 cm. Most patients (59.3%) did not have an aneurysm.

Eight (3.8%) adverse events were associated with the use of Onyx. The rate of procedure-related neurologic serious adverse events was 7.1% within 1 month post embolization. Three deaths occurred (2.1%), one of which was considered device or procedure related.

A total of 87 patients underwent embolization alone, 14 of whom did not complete the study (2 died, 5 were lost to follow-up, and 7 withdrew). Of the 73 who completed the study, 58 (79.5%) had complete occlusion and full recovery at last follow-up. An additional 6.8% had 99% occlusion.

In addition, 3.4% of the population had significant morbidity, and 18.4% presented at baseline with mRS scores of 3-5. Of the latter group, 81.3% had mRS scores of 0-2 at last visit.

Of 21 patients who underwent subsequent neurosurgery, 18 completed follow-up. Of this group, 94.4% had complete occlusion. Of 32 patients receiving subsequent radiosurgery, 54.8% had complete occlusion, which was “a little bit disappointing,” said Dr. Spelle.

Overall, most patients (92.9%) had improved or stable mRS score. The overall mortality rate was 2.9%, and the rate of significant morbidity was 4.3%.

The rate of improved or stable mRS score was 94.3% for patients who underwent embolization alone, 85.7% for patients who also underwent neurosurgery, and 93.75% for patients who also underwent radiosurgery.

The mortality rate was 3.4% for patients who underwent embolization alone, 4.8% for patients who also underwent neurosurgery, and 0% for patients who also underwent radiosurgery.

The rate of significant morbidity was 2.3% for patients who underwent embolization alone, 9.5% for those who also underwent neurosurgery, and 6.25% for those who also underwent radiosurgery.

“We knew that this treatment was very effective, but this effectiveness was only known in a limited number of centers with a very high level of expertise,” said Dr. Spelle. “We were very pleasantly surprised that a larger-scale, multicenter study conducted in 15 different hospitals in France could achieve such a fantastic result.”

The study sites, however, were all departments in university hospitals with great experience in endovascular treatment of cAVM, he added.
 

Effective in unruptured AVMs?

Commenting on the findings, Mitchell Elkind, MD, professor of neurology and epidemiology, Columbia University, New York, said: “Arteriovenous malformations remain a relatively uncommon but serious cerebrovascular disorder. Any additional tool in the armamentarium to treat these lesions is welcome.”

The study results are encouraging, said Dr. Elkind, who was not involved in the study. They suggest that Onyx embolization can play an important role in the care of these patients. The treatment is associated with “low morbidity and excellent efficacy, particularly in combination with other surgical and radiographic approaches.”

The lack of a direct comparison with alternative embolization materials is a limitation of the study, however. “It is hard to compare Onyx to other agents based on these results,” said Dr. Elkind.

“It is also notable that one-third of the patients in the study had unruptured AVMs, which at least in one randomized trial, ARUBA, were not clearly shown to benefit from an intervention at all,” he continued.

It would have been valuable for the researchers to stratify the study results by ruptured versus unruptured AVMs, Dr. Elkind said.

The study was funded by Medtronic. Dr. Spelle reported receiving honoraria from the company. Dr. Elkind disclosed no relevant financial relationships.

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

When a recent study from Columbia University reported that suicide and self-harm were nearly four times more likely in adults with autism spectrum disorder (ASD) than in the general population, the findings were sobering. But to many in the field, they were not surprising.

Previous analyses showed individuals with ASD were up to six times more likely to attempt suicide and nearly eight times as likely to succeed. However, the recent study published in JAMA Network Open is one of only a few on self-harm and suicide in autism spectrum disorder (ASD) to include a focus on adults.

“Previously there was relatively little information about adults with autism in general and on injury risk among adults with autism specifically,” study investigator Guohua Li, DrPH, MD, professor of epidemiology at Columbia University Mailman School of Public Health, New York, told this news organization.

“How to continue to provide social support and health care services to adults with autism presents a real challenge to society and is a public health issue,” Dr. Li said.
 

Falling off a ‘services cliff’

The ASD rate among children is at a record-high in the United States, which means the number of adults on the spectrum will also continue to climb. The incidence of adults with newly diagnosed ASD, who are sometimes described as the “lost generation,” is also increasing. Despite these realities, adults with ASD remain largely underserved and understudied.

The data that are available paint a concerning picture. Adolescents with ASD face a “services cliff” as they transition to adulthood and fall into a landscape with a serious lack of services, support, and clinicians trained to treat adults with ASD.

Compared with young adults without ASD, those on the spectrum have significantly lower college graduation rates, have a harder time finding and keeping a job, are more likely to have a co-occurring mental illness, and are far less likely to live independently.

Patients who receive their initial ASD diagnosis in adulthood face even greater challenges, including a significantly higher risk for suicide and self-harm than those who are diagnosed as children.

Before 2020, there were no national data on the number of U.S. adults with autism. That year, the Centers for Disease Control and Prevention released its first-ever report on adult autism prevalence, estimated to be 5.4 million.

That figure is almost definitely low, Matthew Maenner, PhD, autism surveillance team lead with the CDC’s National Center on Birth Defects and Developmental Disabilities, told this news organization.

Researchers use school and medical records to calculate child ASD rates, but counting adults with the disorder is far more difficult.

The CDC’s estimate was based on modeling reports from 2017 state-based population and mortality records and parent-reported survey data of U.S. children diagnosed with ASD. It was inexact, said Dr. Maenner, but it was a start.

“There are no good data on the prevalence of autism in adults. Anywhere,” he added.
 

Masking and camouflaging

Only about 3.5% of published studies on autism focus on adults, one review showed. In the recently published “The Lancet Commission on the future of care and clinical research in autism,” the section on research on adolescents and adults was a mere 189 words long.

“The brevity of this paragraph reflects the little data available in this area, not its importance” the authors write.

The recent report of higher self-harm risk in adults on the spectrum offers further evidence that “there just aren’t enough services and research on adults on [the] autism spectrum,” Edward S. Brodkin, MD, associate professor of psychiatry and director of the Adult Autism Spectrum Program at the University of Pennsylvania Perelman School of Medicine in Philadelphia, told this news organization.

Founded by Dr. Brodkin in 2013, the program provides ASD diagnostic and support services for adults with ASD. Like others in the field, Dr. Brodkin has noted a sharp increase in the number of previously undiagnosed adults seeking evaluation for possible ASD.

Many of his patients have recently diagnosed children and realized they share some of the same ASD symptoms. Others have long recognized traits common in autism but have engaged in what clinicians call “masking” or “camouflaging.” This is particularly true in women, who are diagnosed with autism at far lower rates than men.

The “lost generation” of adults who receive an ASD diagnosis later in life have a lower quality of life, studies suggest, and have the highest risk for suicide among all individuals with autism.

The recent study from Dr. Li and colleagues offers new evidence in both children and adults. But although the systematic review and meta-analysis of 31 studies showed high rates of self-injurious behavior and suicidality in both groups, Dr. Li said it’s the data on adults that was most alarming.

The OR of suicidality in children was 2.53, but the risk in adults was significantly higher, with an odds ratio (OR) of 3.84.

Adults were at greater risk for self-harm than children (OR, 1.45; 95% confidence interval, 1.04-2.03), with higher odds of self-injurious behavior (OR, 3.38; 95% CI, 2.54-4.50) and suicidality (OR, 3.84; 95% CI, 2.78-5.30), compared with children (OR, 2.99; 95% CI, 1.93-4.64 for self-injurious behavior, and OR, 2.53; 95% CI, 1.70-3.76 for suicidality).
 

Lightbulb moment?

Commenting for this news organization, Brenna Maddox, PhD, assistant professor of psychiatry at UNC Chapel Hill and co-chair of the American Association of Suicidology’s Autism and Suicide Committee, said “the sad reality” is that these findings won’t be surprising to many who work in the field.

“But for some clinicians and the public, this will be a lightbulb kind of moment, increasing awareness about a problem many of us have been talking about for a while,” said Dr. Maddox, who was not involved with the current research.

In January, she launched a 5-year, $9 million study to compare the efficacy of two suicide intervention programs in adolescents and young adults with autism.

The interventions use a well-known suicide prevention tool that has been newly modified for use in people with autism. One program would rely on the intervention alone, and the other would add a structured clinical follow-up.

“There has to be much more than awareness. We need more training for clinicians, we need more tools, we need to know which tools are going to work,” Dr. Maddox said.

Her new project could address all of those needs. Funded by the nonprofit Patient-Centered Outcomes Research Institute (PCORI), it will train 150 clinicians at centers in four states to identify suicidal risk among young adults with autism, utilize the prevention tool, and collect data on its efficacy alone or with follow-up.

Clinician training will begin this spring, and researchers hope to have the first patient data in the fall.
 

Scaling the ‘services cliff’

While Dr. Maddox’s study could yield a potential suicide prevention tool, she is quick to point out that the ultimate goal would be to have fewer people reach the point where such a tool is needed. However, that will take a multidisciplinary approach that begins with access to clinical care, including mental health care, she noted.

“Our mental health care system in general is not great for people on the spectrum, but it’s even worse for adults,” Dr. Maddox said.

Compared with neurotypical adults, adults with autism use more mental health services, have higher hospitalization rates, and are more likely to use primary care services, one recent study showed. The problem, Dr. Maddox notes, is that there are too few clinicians in those areas who are trained in autism care.

One way to address that issue is to mandate autism instruction in the medical curriculum, Catherine Lord, PhD, told this news organization when asked for comment. Dr. Lord is cochair of The Lancet commission on the future of care and clinical research in autism and professor of psychiatry at the Semel Institute for Neuroscience and Human Behavior at UCLA.

“Medical schools offer very little training on ASD, even in standard psychiatry training. For people who don’t specialize in child or adolescence psychiatry, there’s almost none,” Dr. Lord said.

Dr. Maddox agrees. One goal of the PCORI study is to turn their findings into a transportable training program, perhaps available via a webinar for clinicians, crisis center staff, and others who may encounter an adult with autism who is contemplating suicide.

“This is a life and death situation,” Dr. Maddox said. “We have to marshal every resource we have, and we have to do it now. We can’t waste time.”

Dr. Li’s study was funded by the Eunice Kennedy Shriver National Institute of Child Health and Human Development of the National Institutes of Health. Study authors and other sources reported no relevant financial relationships.

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

When a recent study from Columbia University reported that suicide and self-harm were nearly four times more likely in adults with autism spectrum disorder (ASD) than in the general population, the findings were sobering. But to many in the field, they were not surprising.

Previous analyses showed individuals with ASD were up to six times more likely to attempt suicide and nearly eight times as likely to succeed. However, the recent study published in JAMA Network Open is one of only a few on self-harm and suicide in autism spectrum disorder (ASD) to include a focus on adults.

“Previously there was relatively little information about adults with autism in general and on injury risk among adults with autism specifically,” study investigator Guohua Li, DrPH, MD, professor of epidemiology at Columbia University Mailman School of Public Health, New York, told this news organization.

“How to continue to provide social support and health care services to adults with autism presents a real challenge to society and is a public health issue,” Dr. Li said.
 

Falling off a ‘services cliff’

The ASD rate among children is at a record-high in the United States, which means the number of adults on the spectrum will also continue to climb. The incidence of adults with newly diagnosed ASD, who are sometimes described as the “lost generation,” is also increasing. Despite these realities, adults with ASD remain largely underserved and understudied.

The data that are available paint a concerning picture. Adolescents with ASD face a “services cliff” as they transition to adulthood and fall into a landscape with a serious lack of services, support, and clinicians trained to treat adults with ASD.

Compared with young adults without ASD, those on the spectrum have significantly lower college graduation rates, have a harder time finding and keeping a job, are more likely to have a co-occurring mental illness, and are far less likely to live independently.

Patients who receive their initial ASD diagnosis in adulthood face even greater challenges, including a significantly higher risk for suicide and self-harm than those who are diagnosed as children.

Before 2020, there were no national data on the number of U.S. adults with autism. That year, the Centers for Disease Control and Prevention released its first-ever report on adult autism prevalence, estimated to be 5.4 million.

That figure is almost definitely low, Matthew Maenner, PhD, autism surveillance team lead with the CDC’s National Center on Birth Defects and Developmental Disabilities, told this news organization.

Researchers use school and medical records to calculate child ASD rates, but counting adults with the disorder is far more difficult.

The CDC’s estimate was based on modeling reports from 2017 state-based population and mortality records and parent-reported survey data of U.S. children diagnosed with ASD. It was inexact, said Dr. Maenner, but it was a start.

“There are no good data on the prevalence of autism in adults. Anywhere,” he added.
 

Masking and camouflaging

Only about 3.5% of published studies on autism focus on adults, one review showed. In the recently published “The Lancet Commission on the future of care and clinical research in autism,” the section on research on adolescents and adults was a mere 189 words long.

“The brevity of this paragraph reflects the little data available in this area, not its importance” the authors write.

The recent report of higher self-harm risk in adults on the spectrum offers further evidence that “there just aren’t enough services and research on adults on [the] autism spectrum,” Edward S. Brodkin, MD, associate professor of psychiatry and director of the Adult Autism Spectrum Program at the University of Pennsylvania Perelman School of Medicine in Philadelphia, told this news organization.

Founded by Dr. Brodkin in 2013, the program provides ASD diagnostic and support services for adults with ASD. Like others in the field, Dr. Brodkin has noted a sharp increase in the number of previously undiagnosed adults seeking evaluation for possible ASD.

Many of his patients have recently diagnosed children and realized they share some of the same ASD symptoms. Others have long recognized traits common in autism but have engaged in what clinicians call “masking” or “camouflaging.” This is particularly true in women, who are diagnosed with autism at far lower rates than men.

The “lost generation” of adults who receive an ASD diagnosis later in life have a lower quality of life, studies suggest, and have the highest risk for suicide among all individuals with autism.

The recent study from Dr. Li and colleagues offers new evidence in both children and adults. But although the systematic review and meta-analysis of 31 studies showed high rates of self-injurious behavior and suicidality in both groups, Dr. Li said it’s the data on adults that was most alarming.

The OR of suicidality in children was 2.53, but the risk in adults was significantly higher, with an odds ratio (OR) of 3.84.

Adults were at greater risk for self-harm than children (OR, 1.45; 95% confidence interval, 1.04-2.03), with higher odds of self-injurious behavior (OR, 3.38; 95% CI, 2.54-4.50) and suicidality (OR, 3.84; 95% CI, 2.78-5.30), compared with children (OR, 2.99; 95% CI, 1.93-4.64 for self-injurious behavior, and OR, 2.53; 95% CI, 1.70-3.76 for suicidality).
 

Lightbulb moment?

Commenting for this news organization, Brenna Maddox, PhD, assistant professor of psychiatry at UNC Chapel Hill and co-chair of the American Association of Suicidology’s Autism and Suicide Committee, said “the sad reality” is that these findings won’t be surprising to many who work in the field.

“But for some clinicians and the public, this will be a lightbulb kind of moment, increasing awareness about a problem many of us have been talking about for a while,” said Dr. Maddox, who was not involved with the current research.

In January, she launched a 5-year, $9 million study to compare the efficacy of two suicide intervention programs in adolescents and young adults with autism.

The interventions use a well-known suicide prevention tool that has been newly modified for use in people with autism. One program would rely on the intervention alone, and the other would add a structured clinical follow-up.

“There has to be much more than awareness. We need more training for clinicians, we need more tools, we need to know which tools are going to work,” Dr. Maddox said.

Her new project could address all of those needs. Funded by the nonprofit Patient-Centered Outcomes Research Institute (PCORI), it will train 150 clinicians at centers in four states to identify suicidal risk among young adults with autism, utilize the prevention tool, and collect data on its efficacy alone or with follow-up.

Clinician training will begin this spring, and researchers hope to have the first patient data in the fall.
 

Scaling the ‘services cliff’

While Dr. Maddox’s study could yield a potential suicide prevention tool, she is quick to point out that the ultimate goal would be to have fewer people reach the point where such a tool is needed. However, that will take a multidisciplinary approach that begins with access to clinical care, including mental health care, she noted.

“Our mental health care system in general is not great for people on the spectrum, but it’s even worse for adults,” Dr. Maddox said.

Compared with neurotypical adults, adults with autism use more mental health services, have higher hospitalization rates, and are more likely to use primary care services, one recent study showed. The problem, Dr. Maddox notes, is that there are too few clinicians in those areas who are trained in autism care.

One way to address that issue is to mandate autism instruction in the medical curriculum, Catherine Lord, PhD, told this news organization when asked for comment. Dr. Lord is cochair of The Lancet commission on the future of care and clinical research in autism and professor of psychiatry at the Semel Institute for Neuroscience and Human Behavior at UCLA.

“Medical schools offer very little training on ASD, even in standard psychiatry training. For people who don’t specialize in child or adolescence psychiatry, there’s almost none,” Dr. Lord said.

Dr. Maddox agrees. One goal of the PCORI study is to turn their findings into a transportable training program, perhaps available via a webinar for clinicians, crisis center staff, and others who may encounter an adult with autism who is contemplating suicide.

“This is a life and death situation,” Dr. Maddox said. “We have to marshal every resource we have, and we have to do it now. We can’t waste time.”

Dr. Li’s study was funded by the Eunice Kennedy Shriver National Institute of Child Health and Human Development of the National Institutes of Health. Study authors and other sources reported no relevant financial relationships.

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

When a recent study from Columbia University reported that suicide and self-harm were nearly four times more likely in adults with autism spectrum disorder (ASD) than in the general population, the findings were sobering. But to many in the field, they were not surprising.

Previous analyses showed individuals with ASD were up to six times more likely to attempt suicide and nearly eight times as likely to succeed. However, the recent study published in JAMA Network Open is one of only a few on self-harm and suicide in autism spectrum disorder (ASD) to include a focus on adults.

“Previously there was relatively little information about adults with autism in general and on injury risk among adults with autism specifically,” study investigator Guohua Li, DrPH, MD, professor of epidemiology at Columbia University Mailman School of Public Health, New York, told this news organization.

“How to continue to provide social support and health care services to adults with autism presents a real challenge to society and is a public health issue,” Dr. Li said.
 

Falling off a ‘services cliff’

The ASD rate among children is at a record-high in the United States, which means the number of adults on the spectrum will also continue to climb. The incidence of adults with newly diagnosed ASD, who are sometimes described as the “lost generation,” is also increasing. Despite these realities, adults with ASD remain largely underserved and understudied.

The data that are available paint a concerning picture. Adolescents with ASD face a “services cliff” as they transition to adulthood and fall into a landscape with a serious lack of services, support, and clinicians trained to treat adults with ASD.

Compared with young adults without ASD, those on the spectrum have significantly lower college graduation rates, have a harder time finding and keeping a job, are more likely to have a co-occurring mental illness, and are far less likely to live independently.

Patients who receive their initial ASD diagnosis in adulthood face even greater challenges, including a significantly higher risk for suicide and self-harm than those who are diagnosed as children.

Before 2020, there were no national data on the number of U.S. adults with autism. That year, the Centers for Disease Control and Prevention released its first-ever report on adult autism prevalence, estimated to be 5.4 million.

That figure is almost definitely low, Matthew Maenner, PhD, autism surveillance team lead with the CDC’s National Center on Birth Defects and Developmental Disabilities, told this news organization.

Researchers use school and medical records to calculate child ASD rates, but counting adults with the disorder is far more difficult.

The CDC’s estimate was based on modeling reports from 2017 state-based population and mortality records and parent-reported survey data of U.S. children diagnosed with ASD. It was inexact, said Dr. Maenner, but it was a start.

“There are no good data on the prevalence of autism in adults. Anywhere,” he added.
 

Masking and camouflaging

Only about 3.5% of published studies on autism focus on adults, one review showed. In the recently published “The Lancet Commission on the future of care and clinical research in autism,” the section on research on adolescents and adults was a mere 189 words long.

“The brevity of this paragraph reflects the little data available in this area, not its importance” the authors write.

The recent report of higher self-harm risk in adults on the spectrum offers further evidence that “there just aren’t enough services and research on adults on [the] autism spectrum,” Edward S. Brodkin, MD, associate professor of psychiatry and director of the Adult Autism Spectrum Program at the University of Pennsylvania Perelman School of Medicine in Philadelphia, told this news organization.

Founded by Dr. Brodkin in 2013, the program provides ASD diagnostic and support services for adults with ASD. Like others in the field, Dr. Brodkin has noted a sharp increase in the number of previously undiagnosed adults seeking evaluation for possible ASD.

Many of his patients have recently diagnosed children and realized they share some of the same ASD symptoms. Others have long recognized traits common in autism but have engaged in what clinicians call “masking” or “camouflaging.” This is particularly true in women, who are diagnosed with autism at far lower rates than men.

The “lost generation” of adults who receive an ASD diagnosis later in life have a lower quality of life, studies suggest, and have the highest risk for suicide among all individuals with autism.

The recent study from Dr. Li and colleagues offers new evidence in both children and adults. But although the systematic review and meta-analysis of 31 studies showed high rates of self-injurious behavior and suicidality in both groups, Dr. Li said it’s the data on adults that was most alarming.

The OR of suicidality in children was 2.53, but the risk in adults was significantly higher, with an odds ratio (OR) of 3.84.

Adults were at greater risk for self-harm than children (OR, 1.45; 95% confidence interval, 1.04-2.03), with higher odds of self-injurious behavior (OR, 3.38; 95% CI, 2.54-4.50) and suicidality (OR, 3.84; 95% CI, 2.78-5.30), compared with children (OR, 2.99; 95% CI, 1.93-4.64 for self-injurious behavior, and OR, 2.53; 95% CI, 1.70-3.76 for suicidality).
 

Lightbulb moment?

Commenting for this news organization, Brenna Maddox, PhD, assistant professor of psychiatry at UNC Chapel Hill and co-chair of the American Association of Suicidology’s Autism and Suicide Committee, said “the sad reality” is that these findings won’t be surprising to many who work in the field.

“But for some clinicians and the public, this will be a lightbulb kind of moment, increasing awareness about a problem many of us have been talking about for a while,” said Dr. Maddox, who was not involved with the current research.

In January, she launched a 5-year, $9 million study to compare the efficacy of two suicide intervention programs in adolescents and young adults with autism.

The interventions use a well-known suicide prevention tool that has been newly modified for use in people with autism. One program would rely on the intervention alone, and the other would add a structured clinical follow-up.

“There has to be much more than awareness. We need more training for clinicians, we need more tools, we need to know which tools are going to work,” Dr. Maddox said.

Her new project could address all of those needs. Funded by the nonprofit Patient-Centered Outcomes Research Institute (PCORI), it will train 150 clinicians at centers in four states to identify suicidal risk among young adults with autism, utilize the prevention tool, and collect data on its efficacy alone or with follow-up.

Clinician training will begin this spring, and researchers hope to have the first patient data in the fall.
 

Scaling the ‘services cliff’

While Dr. Maddox’s study could yield a potential suicide prevention tool, she is quick to point out that the ultimate goal would be to have fewer people reach the point where such a tool is needed. However, that will take a multidisciplinary approach that begins with access to clinical care, including mental health care, she noted.

“Our mental health care system in general is not great for people on the spectrum, but it’s even worse for adults,” Dr. Maddox said.

Compared with neurotypical adults, adults with autism use more mental health services, have higher hospitalization rates, and are more likely to use primary care services, one recent study showed. The problem, Dr. Maddox notes, is that there are too few clinicians in those areas who are trained in autism care.

One way to address that issue is to mandate autism instruction in the medical curriculum, Catherine Lord, PhD, told this news organization when asked for comment. Dr. Lord is cochair of The Lancet commission on the future of care and clinical research in autism and professor of psychiatry at the Semel Institute for Neuroscience and Human Behavior at UCLA.

“Medical schools offer very little training on ASD, even in standard psychiatry training. For people who don’t specialize in child or adolescence psychiatry, there’s almost none,” Dr. Lord said.

Dr. Maddox agrees. One goal of the PCORI study is to turn their findings into a transportable training program, perhaps available via a webinar for clinicians, crisis center staff, and others who may encounter an adult with autism who is contemplating suicide.

“This is a life and death situation,” Dr. Maddox said. “We have to marshal every resource we have, and we have to do it now. We can’t waste time.”

Dr. Li’s study was funded by the Eunice Kennedy Shriver National Institute of Child Health and Human Development of the National Institutes of Health. Study authors and other sources reported no relevant financial relationships.

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

 Patients who have had a myocardial infarction experience faster cognitive decline over time than immediately after the event, new research suggests.

Although cognition in the acute phase after MI was not different than those without an MI in large observational cohorts, cognitive decline became significantly different over a median 6.5 years of follow-up.

The results reinforce the idea that heart health is closely tied to brain health, lead study author Michelle C. Johansen, MD, PhD, assistant professor of neurology cerebrovascular division, Johns Hopkins University, Baltimore, said in an interview. “From a clinical standpoint, heart health affects brain health and there may be effective interventions to prevent heart attack from happening that could reduce the rate of cognitive decline.”

The study was presented during the International Stroke Conference sponsored by the American Heart Association.

Researchers are increasingly recognizing the vascular contribution to cognitive impairment, said Dr. Johansen. This could involve “silent” or subclinical strokes that go unrecognized until seen on imaging.

The study included 31,377 adults free of MI and dementia from six large, well-known cohort studies: the Atherosclerosis Risk in Communities Study, the Coronary Artery Risk Development in Young Adults Study, the Cardiovascular Health Study, the Framingham Offspring Study, the Multi-Ethnic Study of Atherosclerosis, and the Northern Manhattan Study

About 56% of study participants were women, 23% were Black, 8% were Hispanic, and 69% were White.

They were followed from 1971 to 2017 with investigators repeatedly measuring vascular risk factors. The median study follow-up was 6.5 years, but some were followed for up to 20 years. During that time, there were 1,047 incident MIs.

The researchers performed a pooled analysis from these studies “using some fancy statistical techniques,” said Dr. Johansen. “The unique thing about this study was we were able to harmonize the cognitive measures.”

This allowed the researchers to determine if incident MI affected cognitive decline soon after the event and then long-term after the event. The primary outcome was change in global cognition. Additional outcomes were memory and executive function.

The median time between the first MI and the cognitive assessment was about 1.8 years but ranged from about 6 months to 4 years, said Dr. Johansen. Participants were a median age of 60 years at the time of the first cognitive assessment.

The researchers adjusted results for demographic factors, heart disease risk factors, and cognitive test results prior to the MI. Participants who had a stroke during the follow-up period were excluded from the analysis as stroke can affect cognition.

The study showed incident MI was associated with significant decline in global cognition (–0.71; 95% confidence interval, –1.02 to 0.42; P < .0001) and executive function (–0.68; 95% CI, –0.97 to 0.39; P < .004), but not memory, after the MI.

As cognition naturally declines with age, the researchers took that into consideration. “We anticipated cognition over time was going to go down, which it did, but the question we asked was: ‘How did the slope, which we knew was going to decline over time, compare in people who did not have a MI versus those that did?’ ” said Dr. Johansen.

After adjusting the model accordingly, the effect estimates indicating declines in global cognition and executive function were not significant.

However, another model that looked at the effect of incident MI on decline in cognitive function over the years following the event found significant differences.

Compared with participants without MI, those with incident MI had significantly faster declines in global cognition (–0.15 points/year faster, 95% CI, –0.21 to –0.10; P < .002), memory (–0.13 points/year faster, 95% CI, –0.23 to –0.04; P = .004), and executive function (–0.14 points/year faster, 95% CI, –0.20 to –0.08; P < .0001).

Dr. Johansen surmised that MI may result in subclinical infarcts or inflammation, or that MI and cognitive decline have shared vascular risk factors.

She said she can only speculate about why there was not more of a cognitive decline surrounding the MI. “It may be that right after the event, subjects are kind of sick from other things so it’s hard to see exactly what’s going on. Sometimes people can have other problems just from being in the hospital and having a heart attack may make cognition difficult to assess.”

The researchers also looked at those who had a second MI. “We asked whether the decline we saw after the first heart attack among those who had two heart attacks was explained by the fact they had more than one heart attack, and the answer to that question is no,” Dr. Johansen said.

The next research steps for Dr. Johansen and associates are to look at differences in race and sex.

Karen L. Furie, MD, chair, department of neurology, Brown University, and chief of neurology at Rhode Island Hospital, the Miriam Hospital, and the Bradley Hospital, all in Providence, provided a comment on the research.

MI and cognitive decline have a number of common risk factors, including hypertension, diabetes, high cholesterol, smoking, physical inactivity, and poor diet that can lead to obesity, said Dr. Furie.

“It’s critically important to identify these risk factors as early as possible,” she said. “People in early and middle life may not be receiving optimal medical management or engaging in ideal lifestyle choices and these contribute to the development and progression of atherosclerotic disease over the subsequent decades.”

In theory, she said, if these risk factors were eliminated or adequately treated earlier in life, “both the heart and brain could age naturally and in a healthy manner, enabling a higher functioning and better quality of life.”

The study was funded by the National Institute of Neurological Disorders and Stroke and the National Institute of Aging of the National Institutes of Health. Dr. Johansen receives research funding from NINDS.

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

 Patients who have had a myocardial infarction experience faster cognitive decline over time than immediately after the event, new research suggests.

Although cognition in the acute phase after MI was not different than those without an MI in large observational cohorts, cognitive decline became significantly different over a median 6.5 years of follow-up.

The results reinforce the idea that heart health is closely tied to brain health, lead study author Michelle C. Johansen, MD, PhD, assistant professor of neurology cerebrovascular division, Johns Hopkins University, Baltimore, said in an interview. “From a clinical standpoint, heart health affects brain health and there may be effective interventions to prevent heart attack from happening that could reduce the rate of cognitive decline.”

The study was presented during the International Stroke Conference sponsored by the American Heart Association.

Researchers are increasingly recognizing the vascular contribution to cognitive impairment, said Dr. Johansen. This could involve “silent” or subclinical strokes that go unrecognized until seen on imaging.

The study included 31,377 adults free of MI and dementia from six large, well-known cohort studies: the Atherosclerosis Risk in Communities Study, the Coronary Artery Risk Development in Young Adults Study, the Cardiovascular Health Study, the Framingham Offspring Study, the Multi-Ethnic Study of Atherosclerosis, and the Northern Manhattan Study

About 56% of study participants were women, 23% were Black, 8% were Hispanic, and 69% were White.

They were followed from 1971 to 2017 with investigators repeatedly measuring vascular risk factors. The median study follow-up was 6.5 years, but some were followed for up to 20 years. During that time, there were 1,047 incident MIs.

The researchers performed a pooled analysis from these studies “using some fancy statistical techniques,” said Dr. Johansen. “The unique thing about this study was we were able to harmonize the cognitive measures.”

This allowed the researchers to determine if incident MI affected cognitive decline soon after the event and then long-term after the event. The primary outcome was change in global cognition. Additional outcomes were memory and executive function.

The median time between the first MI and the cognitive assessment was about 1.8 years but ranged from about 6 months to 4 years, said Dr. Johansen. Participants were a median age of 60 years at the time of the first cognitive assessment.

The researchers adjusted results for demographic factors, heart disease risk factors, and cognitive test results prior to the MI. Participants who had a stroke during the follow-up period were excluded from the analysis as stroke can affect cognition.

The study showed incident MI was associated with significant decline in global cognition (–0.71; 95% confidence interval, –1.02 to 0.42; P < .0001) and executive function (–0.68; 95% CI, –0.97 to 0.39; P < .004), but not memory, after the MI.

As cognition naturally declines with age, the researchers took that into consideration. “We anticipated cognition over time was going to go down, which it did, but the question we asked was: ‘How did the slope, which we knew was going to decline over time, compare in people who did not have a MI versus those that did?’ ” said Dr. Johansen.

After adjusting the model accordingly, the effect estimates indicating declines in global cognition and executive function were not significant.

However, another model that looked at the effect of incident MI on decline in cognitive function over the years following the event found significant differences.

Compared with participants without MI, those with incident MI had significantly faster declines in global cognition (–0.15 points/year faster, 95% CI, –0.21 to –0.10; P < .002), memory (–0.13 points/year faster, 95% CI, –0.23 to –0.04; P = .004), and executive function (–0.14 points/year faster, 95% CI, –0.20 to –0.08; P < .0001).

Dr. Johansen surmised that MI may result in subclinical infarcts or inflammation, or that MI and cognitive decline have shared vascular risk factors.

She said she can only speculate about why there was not more of a cognitive decline surrounding the MI. “It may be that right after the event, subjects are kind of sick from other things so it’s hard to see exactly what’s going on. Sometimes people can have other problems just from being in the hospital and having a heart attack may make cognition difficult to assess.”

The researchers also looked at those who had a second MI. “We asked whether the decline we saw after the first heart attack among those who had two heart attacks was explained by the fact they had more than one heart attack, and the answer to that question is no,” Dr. Johansen said.

The next research steps for Dr. Johansen and associates are to look at differences in race and sex.

Karen L. Furie, MD, chair, department of neurology, Brown University, and chief of neurology at Rhode Island Hospital, the Miriam Hospital, and the Bradley Hospital, all in Providence, provided a comment on the research.

MI and cognitive decline have a number of common risk factors, including hypertension, diabetes, high cholesterol, smoking, physical inactivity, and poor diet that can lead to obesity, said Dr. Furie.

“It’s critically important to identify these risk factors as early as possible,” she said. “People in early and middle life may not be receiving optimal medical management or engaging in ideal lifestyle choices and these contribute to the development and progression of atherosclerotic disease over the subsequent decades.”

In theory, she said, if these risk factors were eliminated or adequately treated earlier in life, “both the heart and brain could age naturally and in a healthy manner, enabling a higher functioning and better quality of life.”

The study was funded by the National Institute of Neurological Disorders and Stroke and the National Institute of Aging of the National Institutes of Health. Dr. Johansen receives research funding from NINDS.

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

 Patients who have had a myocardial infarction experience faster cognitive decline over time than immediately after the event, new research suggests.

Although cognition in the acute phase after MI was not different than those without an MI in large observational cohorts, cognitive decline became significantly different over a median 6.5 years of follow-up.

The results reinforce the idea that heart health is closely tied to brain health, lead study author Michelle C. Johansen, MD, PhD, assistant professor of neurology cerebrovascular division, Johns Hopkins University, Baltimore, said in an interview. “From a clinical standpoint, heart health affects brain health and there may be effective interventions to prevent heart attack from happening that could reduce the rate of cognitive decline.”

The study was presented during the International Stroke Conference sponsored by the American Heart Association.

Researchers are increasingly recognizing the vascular contribution to cognitive impairment, said Dr. Johansen. This could involve “silent” or subclinical strokes that go unrecognized until seen on imaging.

The study included 31,377 adults free of MI and dementia from six large, well-known cohort studies: the Atherosclerosis Risk in Communities Study, the Coronary Artery Risk Development in Young Adults Study, the Cardiovascular Health Study, the Framingham Offspring Study, the Multi-Ethnic Study of Atherosclerosis, and the Northern Manhattan Study

About 56% of study participants were women, 23% were Black, 8% were Hispanic, and 69% were White.

They were followed from 1971 to 2017 with investigators repeatedly measuring vascular risk factors. The median study follow-up was 6.5 years, but some were followed for up to 20 years. During that time, there were 1,047 incident MIs.

The researchers performed a pooled analysis from these studies “using some fancy statistical techniques,” said Dr. Johansen. “The unique thing about this study was we were able to harmonize the cognitive measures.”

This allowed the researchers to determine if incident MI affected cognitive decline soon after the event and then long-term after the event. The primary outcome was change in global cognition. Additional outcomes were memory and executive function.

The median time between the first MI and the cognitive assessment was about 1.8 years but ranged from about 6 months to 4 years, said Dr. Johansen. Participants were a median age of 60 years at the time of the first cognitive assessment.

The researchers adjusted results for demographic factors, heart disease risk factors, and cognitive test results prior to the MI. Participants who had a stroke during the follow-up period were excluded from the analysis as stroke can affect cognition.

The study showed incident MI was associated with significant decline in global cognition (–0.71; 95% confidence interval, –1.02 to 0.42; P < .0001) and executive function (–0.68; 95% CI, –0.97 to 0.39; P < .004), but not memory, after the MI.

As cognition naturally declines with age, the researchers took that into consideration. “We anticipated cognition over time was going to go down, which it did, but the question we asked was: ‘How did the slope, which we knew was going to decline over time, compare in people who did not have a MI versus those that did?’ ” said Dr. Johansen.

After adjusting the model accordingly, the effect estimates indicating declines in global cognition and executive function were not significant.

However, another model that looked at the effect of incident MI on decline in cognitive function over the years following the event found significant differences.

Compared with participants without MI, those with incident MI had significantly faster declines in global cognition (–0.15 points/year faster, 95% CI, –0.21 to –0.10; P < .002), memory (–0.13 points/year faster, 95% CI, –0.23 to –0.04; P = .004), and executive function (–0.14 points/year faster, 95% CI, –0.20 to –0.08; P < .0001).

Dr. Johansen surmised that MI may result in subclinical infarcts or inflammation, or that MI and cognitive decline have shared vascular risk factors.

She said she can only speculate about why there was not more of a cognitive decline surrounding the MI. “It may be that right after the event, subjects are kind of sick from other things so it’s hard to see exactly what’s going on. Sometimes people can have other problems just from being in the hospital and having a heart attack may make cognition difficult to assess.”

The researchers also looked at those who had a second MI. “We asked whether the decline we saw after the first heart attack among those who had two heart attacks was explained by the fact they had more than one heart attack, and the answer to that question is no,” Dr. Johansen said.

The next research steps for Dr. Johansen and associates are to look at differences in race and sex.

Karen L. Furie, MD, chair, department of neurology, Brown University, and chief of neurology at Rhode Island Hospital, the Miriam Hospital, and the Bradley Hospital, all in Providence, provided a comment on the research.

MI and cognitive decline have a number of common risk factors, including hypertension, diabetes, high cholesterol, smoking, physical inactivity, and poor diet that can lead to obesity, said Dr. Furie.

“It’s critically important to identify these risk factors as early as possible,” she said. “People in early and middle life may not be receiving optimal medical management or engaging in ideal lifestyle choices and these contribute to the development and progression of atherosclerotic disease over the subsequent decades.”

In theory, she said, if these risk factors were eliminated or adequately treated earlier in life, “both the heart and brain could age naturally and in a healthy manner, enabling a higher functioning and better quality of life.”

The study was funded by the National Institute of Neurological Disorders and Stroke and the National Institute of Aging of the National Institutes of Health. Dr. Johansen receives research funding from NINDS.

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

The thrombolytic tenecteplase may have a role in reestablishing blood flow in patients with large-vessel acute ischemic stroke up to 24 hours after stroke onset selected by perfusion imaging, a new trial from China suggests.

The phase 2a CHABLIS trial was presented at the International Stroke Conference by Xin Cheng, MD, associate professor of neurology at the Huashan Hospital of Fudan University and the National Center for Neurological Disorders in Shanghai, China.

“These results are the first to be reported with tenecteplase in the extended time window and suggest that it may be feasible to extend the time window of intravenous thrombolysis to 24 hours after last known well through perfusion imaging selection,” she concluded at the conference presented by the American Stroke Association, a division of the American Heart Association.

Dr. Cheng noted that alteplase (tissue plasminogen activator) is the standard of care for thrombolysis in stroke, with a time window of up to 4.5 hours after stroke onset. However, the recent EXTEND trial suggested benefit of alteplase in patients who were between 4.5 and 9 hours of stroke onset and who had hypoperfused but salvageable regions of brain detected on automated perfusion imaging.

Tenecteplase is a genetically modified variant of alteplase. It has received regulatory approval for treatment of myocardial infarction. Dr. Cheng said there is increasing interest in tenecteplase as an alternative to alteplase, mainly because of its practical advantages (single bolus, rather than 1-hour infusion) and its having a number of hypothetical advantages over alteplase, including greater fibrin specificity and lesser likelihood of fibrinogen depletion.

Until now, studies of tenecteplase in stroke have included patients in the traditional time window, which has been no longer than 6 hours from stroke onset, she added.

For the current CHABLIS trial, the Chinese researchers investigated the use of tenecteplase administered to ischemic stroke patients at 4.5-24 hours from time of their being last seen well who were selected by significant penumbral mismatch on perfusion imaging. The trial included 86 patients who had an anterior large-vessel occlusion or severe stenosis identified on head and neck CT angiography and penumbral mismatch on CT perfusion imaging. They were randomized to one of two doses of tenecteplase, 0.25 mg/kg or 0.32 mg/kg.

The primary outcome was the achievement of reperfusion without symptomatic intracranial hemorrhage at 24-48 hours after thrombolysis. This occurred in 32% of the 0.25-mg/kg group versus 23.3% of the 0.32-mg/kg group.

Recanalization at 4-6 hours occurred in 44% of both groups.

In terms of neurologic outcomes, an excellent functional outcome, defined as a Modified Rankin Scale (mRS) score of 0-1 at 90 days, was achieved in 28% of the 0.25-mg/kg group and 49% of the 0.32-mg/kg group. A good functional outcome (mRS, 0-2) occurred in 46% of the 0.25-mg/kg group versus 60% of the 0.32-mg/kg group.

Limitations of the study included a small sample size and the lack of a control group. In addition, the study included only Chinese patients, who are known to have different stroke etiologies in comparison with White patients, Dr. Cheng noted.

In the subset of patients who received tenecteplase and who underwent endovascular therapy, fewer patients (8.8%) reached the primary outcome measure of reperfusion without symptomatic ICH, compared with those who received only tenecteplase (40.4%).

“In our study, tenecteplase seems to be quite effective and safe in patients who do not need endovascular therapy,” Dr. Cheng said. “More research is needed to understand why tenecteplase was less effective in restoring blood flow and more likely to result in symptomatic brain bleeding among those who had endovascular therapy.”

The researchers have now started a phase 2b trial, CHABLIS-2. This is a randomized, multicenter, controlled, open-label study of the 0.25-mg/kg dose of tenecteplase.

Commenting on the current study at an ISC press conference, Tudor G. Jovin, MD, chair of neurology at Cooper University Hospital, Cherry Hill, New Jersey, said: “This is very important study looking at the question of using thrombolysis out to 24 hours, and it does suggest a benefit, but we don’t know the best dose yet.”

He noted that his hospital system has already switched from alteplase to tenecteplase in the treatment of stroke, and several other centers are also making this switch. “In our center, we use the 0.25-mg/kg dose, but we don’t routinely treat patients beyond the 4.5-hour time window,” Dr. Jovin reported.

“The signals are there for a longer treatment window,” he said. “But this study was not aiming to directly answer whether tenecteplase is better than no treatment or alteplase, or its use with endovascular therapy.”

Noting that there are similar randomized trials ongoing in the United States and other countries exploring the same doses of tenecteplase, he said he thought the “dose and approach is applicable to U.S. practice.”

The CHABLIS study was funded by national key research and development program of China from the Science and Technology Ministry. Tenecteplase was provided by Guangzhou Recomgen Biotech.

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

The thrombolytic tenecteplase may have a role in reestablishing blood flow in patients with large-vessel acute ischemic stroke up to 24 hours after stroke onset selected by perfusion imaging, a new trial from China suggests.

The phase 2a CHABLIS trial was presented at the International Stroke Conference by Xin Cheng, MD, associate professor of neurology at the Huashan Hospital of Fudan University and the National Center for Neurological Disorders in Shanghai, China.

“These results are the first to be reported with tenecteplase in the extended time window and suggest that it may be feasible to extend the time window of intravenous thrombolysis to 24 hours after last known well through perfusion imaging selection,” she concluded at the conference presented by the American Stroke Association, a division of the American Heart Association.

Dr. Cheng noted that alteplase (tissue plasminogen activator) is the standard of care for thrombolysis in stroke, with a time window of up to 4.5 hours after stroke onset. However, the recent EXTEND trial suggested benefit of alteplase in patients who were between 4.5 and 9 hours of stroke onset and who had hypoperfused but salvageable regions of brain detected on automated perfusion imaging.

Tenecteplase is a genetically modified variant of alteplase. It has received regulatory approval for treatment of myocardial infarction. Dr. Cheng said there is increasing interest in tenecteplase as an alternative to alteplase, mainly because of its practical advantages (single bolus, rather than 1-hour infusion) and its having a number of hypothetical advantages over alteplase, including greater fibrin specificity and lesser likelihood of fibrinogen depletion.

Until now, studies of tenecteplase in stroke have included patients in the traditional time window, which has been no longer than 6 hours from stroke onset, she added.

For the current CHABLIS trial, the Chinese researchers investigated the use of tenecteplase administered to ischemic stroke patients at 4.5-24 hours from time of their being last seen well who were selected by significant penumbral mismatch on perfusion imaging. The trial included 86 patients who had an anterior large-vessel occlusion or severe stenosis identified on head and neck CT angiography and penumbral mismatch on CT perfusion imaging. They were randomized to one of two doses of tenecteplase, 0.25 mg/kg or 0.32 mg/kg.

The primary outcome was the achievement of reperfusion without symptomatic intracranial hemorrhage at 24-48 hours after thrombolysis. This occurred in 32% of the 0.25-mg/kg group versus 23.3% of the 0.32-mg/kg group.

Recanalization at 4-6 hours occurred in 44% of both groups.

In terms of neurologic outcomes, an excellent functional outcome, defined as a Modified Rankin Scale (mRS) score of 0-1 at 90 days, was achieved in 28% of the 0.25-mg/kg group and 49% of the 0.32-mg/kg group. A good functional outcome (mRS, 0-2) occurred in 46% of the 0.25-mg/kg group versus 60% of the 0.32-mg/kg group.

Limitations of the study included a small sample size and the lack of a control group. In addition, the study included only Chinese patients, who are known to have different stroke etiologies in comparison with White patients, Dr. Cheng noted.

In the subset of patients who received tenecteplase and who underwent endovascular therapy, fewer patients (8.8%) reached the primary outcome measure of reperfusion without symptomatic ICH, compared with those who received only tenecteplase (40.4%).

“In our study, tenecteplase seems to be quite effective and safe in patients who do not need endovascular therapy,” Dr. Cheng said. “More research is needed to understand why tenecteplase was less effective in restoring blood flow and more likely to result in symptomatic brain bleeding among those who had endovascular therapy.”

The researchers have now started a phase 2b trial, CHABLIS-2. This is a randomized, multicenter, controlled, open-label study of the 0.25-mg/kg dose of tenecteplase.

Commenting on the current study at an ISC press conference, Tudor G. Jovin, MD, chair of neurology at Cooper University Hospital, Cherry Hill, New Jersey, said: “This is very important study looking at the question of using thrombolysis out to 24 hours, and it does suggest a benefit, but we don’t know the best dose yet.”

He noted that his hospital system has already switched from alteplase to tenecteplase in the treatment of stroke, and several other centers are also making this switch. “In our center, we use the 0.25-mg/kg dose, but we don’t routinely treat patients beyond the 4.5-hour time window,” Dr. Jovin reported.

“The signals are there for a longer treatment window,” he said. “But this study was not aiming to directly answer whether tenecteplase is better than no treatment or alteplase, or its use with endovascular therapy.”

Noting that there are similar randomized trials ongoing in the United States and other countries exploring the same doses of tenecteplase, he said he thought the “dose and approach is applicable to U.S. practice.”

The CHABLIS study was funded by national key research and development program of China from the Science and Technology Ministry. Tenecteplase was provided by Guangzhou Recomgen Biotech.

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

The thrombolytic tenecteplase may have a role in reestablishing blood flow in patients with large-vessel acute ischemic stroke up to 24 hours after stroke onset selected by perfusion imaging, a new trial from China suggests.

The phase 2a CHABLIS trial was presented at the International Stroke Conference by Xin Cheng, MD, associate professor of neurology at the Huashan Hospital of Fudan University and the National Center for Neurological Disorders in Shanghai, China.

“These results are the first to be reported with tenecteplase in the extended time window and suggest that it may be feasible to extend the time window of intravenous thrombolysis to 24 hours after last known well through perfusion imaging selection,” she concluded at the conference presented by the American Stroke Association, a division of the American Heart Association.

Dr. Cheng noted that alteplase (tissue plasminogen activator) is the standard of care for thrombolysis in stroke, with a time window of up to 4.5 hours after stroke onset. However, the recent EXTEND trial suggested benefit of alteplase in patients who were between 4.5 and 9 hours of stroke onset and who had hypoperfused but salvageable regions of brain detected on automated perfusion imaging.

Tenecteplase is a genetically modified variant of alteplase. It has received regulatory approval for treatment of myocardial infarction. Dr. Cheng said there is increasing interest in tenecteplase as an alternative to alteplase, mainly because of its practical advantages (single bolus, rather than 1-hour infusion) and its having a number of hypothetical advantages over alteplase, including greater fibrin specificity and lesser likelihood of fibrinogen depletion.

Until now, studies of tenecteplase in stroke have included patients in the traditional time window, which has been no longer than 6 hours from stroke onset, she added.

For the current CHABLIS trial, the Chinese researchers investigated the use of tenecteplase administered to ischemic stroke patients at 4.5-24 hours from time of their being last seen well who were selected by significant penumbral mismatch on perfusion imaging. The trial included 86 patients who had an anterior large-vessel occlusion or severe stenosis identified on head and neck CT angiography and penumbral mismatch on CT perfusion imaging. They were randomized to one of two doses of tenecteplase, 0.25 mg/kg or 0.32 mg/kg.

The primary outcome was the achievement of reperfusion without symptomatic intracranial hemorrhage at 24-48 hours after thrombolysis. This occurred in 32% of the 0.25-mg/kg group versus 23.3% of the 0.32-mg/kg group.

Recanalization at 4-6 hours occurred in 44% of both groups.

In terms of neurologic outcomes, an excellent functional outcome, defined as a Modified Rankin Scale (mRS) score of 0-1 at 90 days, was achieved in 28% of the 0.25-mg/kg group and 49% of the 0.32-mg/kg group. A good functional outcome (mRS, 0-2) occurred in 46% of the 0.25-mg/kg group versus 60% of the 0.32-mg/kg group.

Limitations of the study included a small sample size and the lack of a control group. In addition, the study included only Chinese patients, who are known to have different stroke etiologies in comparison with White patients, Dr. Cheng noted.

In the subset of patients who received tenecteplase and who underwent endovascular therapy, fewer patients (8.8%) reached the primary outcome measure of reperfusion without symptomatic ICH, compared with those who received only tenecteplase (40.4%).

“In our study, tenecteplase seems to be quite effective and safe in patients who do not need endovascular therapy,” Dr. Cheng said. “More research is needed to understand why tenecteplase was less effective in restoring blood flow and more likely to result in symptomatic brain bleeding among those who had endovascular therapy.”

The researchers have now started a phase 2b trial, CHABLIS-2. This is a randomized, multicenter, controlled, open-label study of the 0.25-mg/kg dose of tenecteplase.

Commenting on the current study at an ISC press conference, Tudor G. Jovin, MD, chair of neurology at Cooper University Hospital, Cherry Hill, New Jersey, said: “This is very important study looking at the question of using thrombolysis out to 24 hours, and it does suggest a benefit, but we don’t know the best dose yet.”

He noted that his hospital system has already switched from alteplase to tenecteplase in the treatment of stroke, and several other centers are also making this switch. “In our center, we use the 0.25-mg/kg dose, but we don’t routinely treat patients beyond the 4.5-hour time window,” Dr. Jovin reported.

“The signals are there for a longer treatment window,” he said. “But this study was not aiming to directly answer whether tenecteplase is better than no treatment or alteplase, or its use with endovascular therapy.”

Noting that there are similar randomized trials ongoing in the United States and other countries exploring the same doses of tenecteplase, he said he thought the “dose and approach is applicable to U.S. practice.”

The CHABLIS study was funded by national key research and development program of China from the Science and Technology Ministry. Tenecteplase was provided by Guangzhou Recomgen Biotech.

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

LAS VEGAS – In the opinion of Christoph U. Correll, MD, tardive dyskinesia (TD) “has been somewhat forgotten” by psychiatrists because the risk of patients developing the condition is considered to be significantly lower with second-generation antipsychotics compared with first-generation antipsychotics.

“But this does not seem to always be the case, because there is still a risk of TD, and we need to monitor for it,” Dr. Correll, professor of psychiatry and molecular medicine at The Donald and Barbara Zucker School of Medicine at Hofstra/Northwell, New York, said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “It is important to minimize the risk of TD by educating patients and caregivers about the risks of and alternatives to antipsychotic medication and early signs of TD.”

First described in 1957, TD is characterized by involuntary repetitive but irregular movements, mostly in the oral, lingual, and buccal regions – such as tongue protruding, puckering, chewing, and grimacing. Less often, there are movements in the hands, legs, feet, and torso. Symptoms can include mannerisms, stereotypies, tics, myoclonus, dystonias, tremor, and akathisia. “TD can be severe, persistent, and have medical and psychosocial consequences,” Dr. Correll said. “It can occur in untreated patients, but treatment with dopamine blocking agents – antipsychotics and metoclopramide – increases risk for TD.”

Differential diagnoses to consider include morbus Huntington, benign familial Chorea, and Sydenham’s Chorea. Less frequent causes of TD include metabolic conditions such as uremia, hyponatremia, hypernatremia, hypoparathyroidism, and hyperparathyroidism. “Those would need to be ruled out during the physical exam,” he said. There can also be inflammatory causes of TD such as herpes simplex virus, varicella, measles, mumps, and rubella.

A standard measure for TD diagnosis is the Abnormal Involuntary Movement Scale (AIMS), an observer-rated 12-item anchored scale that takes 5-10 minutes to administer. However, the AIMS on its own does not diagnose TD. In 1982, researchers developed three diagnostic criteria for TD: At least 3 months of cumulative antipsychotic drug exposure; presence of at least moderate abnormal involuntary movements in one or more body area(s) or mild movements in two or more body areas, and absence of other conditions that might produce involuntary movements (Arch Gen Psychiatry 1982;39:486-7).

The impact of TD on everyday functioning depends on anatomic location as well as severity, Dr. Correll continued. The condition can cause impairments to speech, verbal communication, dentition, temporomandibular joint pain/myalgia, swallowing difficulties, and fine motor skills including instrumental activities of daily living and written communication. Truncal and lower extremity TD can affect gait, posture and postural stability, strength, power flexibility, physical capacity, and one’s ability to exercise. “There are also psychological impairments,” he said. “Patients can develop different awareness so they become self-conscious; there can be cognitive abnormalities, and they can become more anxious or [have an] increased sense of paranoia, isolation, stigma, social and/or educational/vocational impairment.”

According to research by Dr. Correll and colleagues, unmodifiable patient-related risk factors for TD include older age, female sex, and being of white or African descent (J Neurol Sci 2018 June 15; 389:21-7). Unmodifiable illness-related risk factors include longer duration of illness, intellectual disability and brain damage, negative symptoms in schizophrenia, mood disorders, cognitive symptoms in mood disorders, and gene polymorphisms involving antipsychotic metabolism and dopamine functioning. Modifiable comorbidity-related factors include diabetes, smoking, and alcohol/substance abuse, while modifiable treatment-related factors include dopamine receptor blockers, higher cumulative and current antipsychotic dose or plasma levels, early parkinsonian side effects, treatment-emergent akathisia, and anticholinergic co-treatment. In a meta-analysis of 41 studies that aimed to determine the prevalence of TD, the mean age of the 11,493 patients was 43, 66% were male, and 77% had schizophrenia spectrum disorders (J Clin Psychiatry. 2017 Mar;78[3]:e264-78). The global mean TD prevalence was 25%, but the rates were lower with patients on current treatment with second-generation antipsychotics compared with those on first-generation antipsychotics (21% vs. 30%, respectively).

According to Dr. Correll, strategies for preventing TD include confirming and documenting the indication for dopamine antagonist antipsychotic medications, using conservative maintenance doses, and considering the use of SGAs, especially in those at high risk for EPS (extrapyramidal symptoms). “Don’t go too high [with the dose],” he said. “Stay below the EPS threshold. Inform patients and caregivers of the risk of TD and assess for incipient signs regularly using the AIMS.”

Treatment options include discontinuing antipsychotics, adjusting their dose, or switching patients from a first-generation antipsychotic to a second-generation antipsychotic. Supplementation with antioxidants/radical scavengers such as vitamin E, vitamin B₆, ginkgo biloba, and fish oil “can be tried, but have limited evidence, as is the case for melatonin.” Other options include clonazepam, amantadine, donepezil, and tetrabenazine, a reversible and specific inhibitor of vesicular monoamine transporter-2 (VMAT-2), a transporter that packages neurotransmitters (preferentially dopamine) into vesicles for release into the synapse and was approved in 2008 as an orphan drug for the treatment of choreiform movements associated with Huntington’s disease. “Neurologists have using tetrabenazine off-label for TD, but in schizophrenia and other psychiatric care, we rarely use it because it has to be given three times a day and it has a black box warning for depression and suicidality,” he said.

Dr. Correll noted that the Food and Drug Administration approval of two more recent VMAT-2 inhibitors – deutetrabenazine (Austedo) and valbenazine (Ingrezza) – provides an evidence-based care option for the effective management of TD. Deutetrabenazine requires titration over several weeks and twice-daily dosing, while valbenazine can reach the maximum dose by the beginning of week 2 and is dosed once daily. Deutetrabenazine should be taken with food, which is not required valbenazine.

“Both VMAT-2 inhibitors are generally well tolerated and have a positive benefit-risk ratio,” he said. “Both are recommended by the APA guidelines as the preferred and only evidence-based treatment for TD.”

Dr. Correll reported that he has received honoraria from and has been an advisory board member for numerous pharmaceutical companies. He has also received grant support from Janssen, the National Institute of Mental Health, the Patient Centered Outcomes Research Institute, Takeda, and the Thrasher Foundation.

LAS VEGAS – In the opinion of Christoph U. Correll, MD, tardive dyskinesia (TD) “has been somewhat forgotten” by psychiatrists because the risk of patients developing the condition is considered to be significantly lower with second-generation antipsychotics compared with first-generation antipsychotics.

“But this does not seem to always be the case, because there is still a risk of TD, and we need to monitor for it,” Dr. Correll, professor of psychiatry and molecular medicine at The Donald and Barbara Zucker School of Medicine at Hofstra/Northwell, New York, said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “It is important to minimize the risk of TD by educating patients and caregivers about the risks of and alternatives to antipsychotic medication and early signs of TD.”

First described in 1957, TD is characterized by involuntary repetitive but irregular movements, mostly in the oral, lingual, and buccal regions – such as tongue protruding, puckering, chewing, and grimacing. Less often, there are movements in the hands, legs, feet, and torso. Symptoms can include mannerisms, stereotypies, tics, myoclonus, dystonias, tremor, and akathisia. “TD can be severe, persistent, and have medical and psychosocial consequences,” Dr. Correll said. “It can occur in untreated patients, but treatment with dopamine blocking agents – antipsychotics and metoclopramide – increases risk for TD.”

Differential diagnoses to consider include morbus Huntington, benign familial Chorea, and Sydenham’s Chorea. Less frequent causes of TD include metabolic conditions such as uremia, hyponatremia, hypernatremia, hypoparathyroidism, and hyperparathyroidism. “Those would need to be ruled out during the physical exam,” he said. There can also be inflammatory causes of TD such as herpes simplex virus, varicella, measles, mumps, and rubella.

A standard measure for TD diagnosis is the Abnormal Involuntary Movement Scale (AIMS), an observer-rated 12-item anchored scale that takes 5-10 minutes to administer. However, the AIMS on its own does not diagnose TD. In 1982, researchers developed three diagnostic criteria for TD: At least 3 months of cumulative antipsychotic drug exposure; presence of at least moderate abnormal involuntary movements in one or more body area(s) or mild movements in two or more body areas, and absence of other conditions that might produce involuntary movements (Arch Gen Psychiatry 1982;39:486-7).

The impact of TD on everyday functioning depends on anatomic location as well as severity, Dr. Correll continued. The condition can cause impairments to speech, verbal communication, dentition, temporomandibular joint pain/myalgia, swallowing difficulties, and fine motor skills including instrumental activities of daily living and written communication. Truncal and lower extremity TD can affect gait, posture and postural stability, strength, power flexibility, physical capacity, and one’s ability to exercise. “There are also psychological impairments,” he said. “Patients can develop different awareness so they become self-conscious; there can be cognitive abnormalities, and they can become more anxious or [have an] increased sense of paranoia, isolation, stigma, social and/or educational/vocational impairment.”

According to research by Dr. Correll and colleagues, unmodifiable patient-related risk factors for TD include older age, female sex, and being of white or African descent (J Neurol Sci 2018 June 15; 389:21-7). Unmodifiable illness-related risk factors include longer duration of illness, intellectual disability and brain damage, negative symptoms in schizophrenia, mood disorders, cognitive symptoms in mood disorders, and gene polymorphisms involving antipsychotic metabolism and dopamine functioning. Modifiable comorbidity-related factors include diabetes, smoking, and alcohol/substance abuse, while modifiable treatment-related factors include dopamine receptor blockers, higher cumulative and current antipsychotic dose or plasma levels, early parkinsonian side effects, treatment-emergent akathisia, and anticholinergic co-treatment. In a meta-analysis of 41 studies that aimed to determine the prevalence of TD, the mean age of the 11,493 patients was 43, 66% were male, and 77% had schizophrenia spectrum disorders (J Clin Psychiatry. 2017 Mar;78[3]:e264-78). The global mean TD prevalence was 25%, but the rates were lower with patients on current treatment with second-generation antipsychotics compared with those on first-generation antipsychotics (21% vs. 30%, respectively).

According to Dr. Correll, strategies for preventing TD include confirming and documenting the indication for dopamine antagonist antipsychotic medications, using conservative maintenance doses, and considering the use of SGAs, especially in those at high risk for EPS (extrapyramidal symptoms). “Don’t go too high [with the dose],” he said. “Stay below the EPS threshold. Inform patients and caregivers of the risk of TD and assess for incipient signs regularly using the AIMS.”

Treatment options include discontinuing antipsychotics, adjusting their dose, or switching patients from a first-generation antipsychotic to a second-generation antipsychotic. Supplementation with antioxidants/radical scavengers such as vitamin E, vitamin B₆, ginkgo biloba, and fish oil “can be tried, but have limited evidence, as is the case for melatonin.” Other options include clonazepam, amantadine, donepezil, and tetrabenazine, a reversible and specific inhibitor of vesicular monoamine transporter-2 (VMAT-2), a transporter that packages neurotransmitters (preferentially dopamine) into vesicles for release into the synapse and was approved in 2008 as an orphan drug for the treatment of choreiform movements associated with Huntington’s disease. “Neurologists have using tetrabenazine off-label for TD, but in schizophrenia and other psychiatric care, we rarely use it because it has to be given three times a day and it has a black box warning for depression and suicidality,” he said.

Dr. Correll noted that the Food and Drug Administration approval of two more recent VMAT-2 inhibitors – deutetrabenazine (Austedo) and valbenazine (Ingrezza) – provides an evidence-based care option for the effective management of TD. Deutetrabenazine requires titration over several weeks and twice-daily dosing, while valbenazine can reach the maximum dose by the beginning of week 2 and is dosed once daily. Deutetrabenazine should be taken with food, which is not required valbenazine.

“Both VMAT-2 inhibitors are generally well tolerated and have a positive benefit-risk ratio,” he said. “Both are recommended by the APA guidelines as the preferred and only evidence-based treatment for TD.”

Dr. Correll reported that he has received honoraria from and has been an advisory board member for numerous pharmaceutical companies. He has also received grant support from Janssen, the National Institute of Mental Health, the Patient Centered Outcomes Research Institute, Takeda, and the Thrasher Foundation.

LAS VEGAS – In the opinion of Christoph U. Correll, MD, tardive dyskinesia (TD) “has been somewhat forgotten” by psychiatrists because the risk of patients developing the condition is considered to be significantly lower with second-generation antipsychotics compared with first-generation antipsychotics.

“But this does not seem to always be the case, because there is still a risk of TD, and we need to monitor for it,” Dr. Correll, professor of psychiatry and molecular medicine at The Donald and Barbara Zucker School of Medicine at Hofstra/Northwell, New York, said during an annual psychopharmacology update held by the Nevada Psychiatric Association. “It is important to minimize the risk of TD by educating patients and caregivers about the risks of and alternatives to antipsychotic medication and early signs of TD.”

First described in 1957, TD is characterized by involuntary repetitive but irregular movements, mostly in the oral, lingual, and buccal regions – such as tongue protruding, puckering, chewing, and grimacing. Less often, there are movements in the hands, legs, feet, and torso. Symptoms can include mannerisms, stereotypies, tics, myoclonus, dystonias, tremor, and akathisia. “TD can be severe, persistent, and have medical and psychosocial consequences,” Dr. Correll said. “It can occur in untreated patients, but treatment with dopamine blocking agents – antipsychotics and metoclopramide – increases risk for TD.”

Differential diagnoses to consider include morbus Huntington, benign familial Chorea, and Sydenham’s Chorea. Less frequent causes of TD include metabolic conditions such as uremia, hyponatremia, hypernatremia, hypoparathyroidism, and hyperparathyroidism. “Those would need to be ruled out during the physical exam,” he said. There can also be inflammatory causes of TD such as herpes simplex virus, varicella, measles, mumps, and rubella.

A standard measure for TD diagnosis is the Abnormal Involuntary Movement Scale (AIMS), an observer-rated 12-item anchored scale that takes 5-10 minutes to administer. However, the AIMS on its own does not diagnose TD. In 1982, researchers developed three diagnostic criteria for TD: At least 3 months of cumulative antipsychotic drug exposure; presence of at least moderate abnormal involuntary movements in one or more body area(s) or mild movements in two or more body areas, and absence of other conditions that might produce involuntary movements (Arch Gen Psychiatry 1982;39:486-7).

The impact of TD on everyday functioning depends on anatomic location as well as severity, Dr. Correll continued. The condition can cause impairments to speech, verbal communication, dentition, temporomandibular joint pain/myalgia, swallowing difficulties, and fine motor skills including instrumental activities of daily living and written communication. Truncal and lower extremity TD can affect gait, posture and postural stability, strength, power flexibility, physical capacity, and one’s ability to exercise. “There are also psychological impairments,” he said. “Patients can develop different awareness so they become self-conscious; there can be cognitive abnormalities, and they can become more anxious or [have an] increased sense of paranoia, isolation, stigma, social and/or educational/vocational impairment.”

According to research by Dr. Correll and colleagues, unmodifiable patient-related risk factors for TD include older age, female sex, and being of white or African descent (J Neurol Sci 2018 June 15; 389:21-7). Unmodifiable illness-related risk factors include longer duration of illness, intellectual disability and brain damage, negative symptoms in schizophrenia, mood disorders, cognitive symptoms in mood disorders, and gene polymorphisms involving antipsychotic metabolism and dopamine functioning. Modifiable comorbidity-related factors include diabetes, smoking, and alcohol/substance abuse, while modifiable treatment-related factors include dopamine receptor blockers, higher cumulative and current antipsychotic dose or plasma levels, early parkinsonian side effects, treatment-emergent akathisia, and anticholinergic co-treatment. In a meta-analysis of 41 studies that aimed to determine the prevalence of TD, the mean age of the 11,493 patients was 43, 66% were male, and 77% had schizophrenia spectrum disorders (J Clin Psychiatry. 2017 Mar;78[3]:e264-78). The global mean TD prevalence was 25%, but the rates were lower with patients on current treatment with second-generation antipsychotics compared with those on first-generation antipsychotics (21% vs. 30%, respectively).

According to Dr. Correll, strategies for preventing TD include confirming and documenting the indication for dopamine antagonist antipsychotic medications, using conservative maintenance doses, and considering the use of SGAs, especially in those at high risk for EPS (extrapyramidal symptoms). “Don’t go too high [with the dose],” he said. “Stay below the EPS threshold. Inform patients and caregivers of the risk of TD and assess for incipient signs regularly using the AIMS.”

Treatment options include discontinuing antipsychotics, adjusting their dose, or switching patients from a first-generation antipsychotic to a second-generation antipsychotic. Supplementation with antioxidants/radical scavengers such as vitamin E, vitamin B₆, ginkgo biloba, and fish oil “can be tried, but have limited evidence, as is the case for melatonin.” Other options include clonazepam, amantadine, donepezil, and tetrabenazine, a reversible and specific inhibitor of vesicular monoamine transporter-2 (VMAT-2), a transporter that packages neurotransmitters (preferentially dopamine) into vesicles for release into the synapse and was approved in 2008 as an orphan drug for the treatment of choreiform movements associated with Huntington’s disease. “Neurologists have using tetrabenazine off-label for TD, but in schizophrenia and other psychiatric care, we rarely use it because it has to be given three times a day and it has a black box warning for depression and suicidality,” he said.

Dr. Correll noted that the Food and Drug Administration approval of two more recent VMAT-2 inhibitors – deutetrabenazine (Austedo) and valbenazine (Ingrezza) – provides an evidence-based care option for the effective management of TD. Deutetrabenazine requires titration over several weeks and twice-daily dosing, while valbenazine can reach the maximum dose by the beginning of week 2 and is dosed once daily. Deutetrabenazine should be taken with food, which is not required valbenazine.

“Both VMAT-2 inhibitors are generally well tolerated and have a positive benefit-risk ratio,” he said. “Both are recommended by the APA guidelines as the preferred and only evidence-based treatment for TD.”

Dr. Correll reported that he has received honoraria from and has been an advisory board member for numerous pharmaceutical companies. He has also received grant support from Janssen, the National Institute of Mental Health, the Patient Centered Outcomes Research Institute, Takeda, and the Thrasher Foundation.