Erik Greb

Telerehabilitation is safe and may offer functional benefits comparable to those of outpatient rehabilitation for patients with multiple sclerosis (MS) and impaired mobility. Telerehabilitation also saves time and travel cost, compared with outpatient rehabilitation.

“This model of home-based telerehabilitation offers a safe and cost-effective method for improving function and quality of life for MS patients with mobility deficits,” said Heather Barksdale, DPT, a neurological clinical specialist at UF Health Jacksonville (Florida).

The study was presented at the virtual meeting of the Consortium of Multiple Sclerosis Centers (CMSC).

The Centers for Medicare & Medicaid Services do not reimburse for telerehabilitation services. Patients with MS have difficulty accessing rehabilitation specialists because of impaired mobility and lack of access to transportation. “We are based in Jacksonville, Fla., and often have patients who have to travel from Tallahassee, Panama City, Daytona Beach, and Brunswick, Ga., to receive specialty services,” said Dr. Barksdale. “Telerehabilitation would allow these patients to get access to high-quality rehab services with clinicians that specialize in MS.”

Dr. Barksdale and colleagues conducted a pilot study to evaluate the feasibility of a physical therapy–guided telerehabilitation program for people with mobility impairments resulting from confirmed MS. The investigators enrolled patients at the MS Center of Excellence at University of Florida Health Jacksonville into a telerehabilitation group. A board-certified neurologist and a physical therapist specializing in MS examined participants in person at baseline. The latter underwent an 8-week program of physical therapy–guided telerehabilitation that used the Jintronix software platform and a kinetic tracking system.

By reviewing charts during January 2018–September 2019, Dr. Barksdale and colleagues selected patients with MS who were seen on an outpatient basis by the same physical therapists who were administering telerehabilitation. This outpatient comparison group was matched to the telerehabilitation group on duration of treatment and outcome measures completed. Dr. Barksdale and colleagues reviewed the data for the effects of the two interventions on mobility and travel.

Eight patients completed the telerehabilitation program, and all had improvements in fatigue, quality of life, or mobility measures. The investigators did not observe any adverse events during or after the intervention. The total savings in projected travel costs for all eight participants was $8,487.23, compared with the outpatient group. Participants in the telerehabilitation and outpatient groups achieved minimal detectable changes in the outcome measures examined at equivalent rates.

“The game-based model with virtual visits by a physical therapist can be modified to include exercises specific for other motor, coordination, spasticity, and movement dysfunctions and may be useful for other chronic and progressive dysfunction seen in Parkinson’s disease, stroke, and other movement and neuromuscular disorders,” said Dr. Barksdale.

“Future studies are needed to further establish guidelines for patient selection and mode of delivery, as well as design of future telerehabilitation programs,” she added. “Duration of treatment and types of exercises to be included should also be examined. Further research into use of telerehabilitation for the treatment of upper-extremity, cognitive, speech, and swallowing dysfunction should also be examined.”

The investigators conducted their study without outside funding and reported no disclosures.

[email protected]

SOURCE: Barksdale H et al. CMSC 2020. Abstract REH11.

Telerehabilitation is safe and may offer functional benefits comparable to those of outpatient rehabilitation for patients with multiple sclerosis (MS) and impaired mobility. Telerehabilitation also saves time and travel cost, compared with outpatient rehabilitation.

“This model of home-based telerehabilitation offers a safe and cost-effective method for improving function and quality of life for MS patients with mobility deficits,” said Heather Barksdale, DPT, a neurological clinical specialist at UF Health Jacksonville (Florida).

The study was presented at the virtual meeting of the Consortium of Multiple Sclerosis Centers (CMSC).

The Centers for Medicare & Medicaid Services do not reimburse for telerehabilitation services. Patients with MS have difficulty accessing rehabilitation specialists because of impaired mobility and lack of access to transportation. “We are based in Jacksonville, Fla., and often have patients who have to travel from Tallahassee, Panama City, Daytona Beach, and Brunswick, Ga., to receive specialty services,” said Dr. Barksdale. “Telerehabilitation would allow these patients to get access to high-quality rehab services with clinicians that specialize in MS.”

Dr. Barksdale and colleagues conducted a pilot study to evaluate the feasibility of a physical therapy–guided telerehabilitation program for people with mobility impairments resulting from confirmed MS. The investigators enrolled patients at the MS Center of Excellence at University of Florida Health Jacksonville into a telerehabilitation group. A board-certified neurologist and a physical therapist specializing in MS examined participants in person at baseline. The latter underwent an 8-week program of physical therapy–guided telerehabilitation that used the Jintronix software platform and a kinetic tracking system.

By reviewing charts during January 2018–September 2019, Dr. Barksdale and colleagues selected patients with MS who were seen on an outpatient basis by the same physical therapists who were administering telerehabilitation. This outpatient comparison group was matched to the telerehabilitation group on duration of treatment and outcome measures completed. Dr. Barksdale and colleagues reviewed the data for the effects of the two interventions on mobility and travel.

Eight patients completed the telerehabilitation program, and all had improvements in fatigue, quality of life, or mobility measures. The investigators did not observe any adverse events during or after the intervention. The total savings in projected travel costs for all eight participants was $8,487.23, compared with the outpatient group. Participants in the telerehabilitation and outpatient groups achieved minimal detectable changes in the outcome measures examined at equivalent rates.

“The game-based model with virtual visits by a physical therapist can be modified to include exercises specific for other motor, coordination, spasticity, and movement dysfunctions and may be useful for other chronic and progressive dysfunction seen in Parkinson’s disease, stroke, and other movement and neuromuscular disorders,” said Dr. Barksdale.

“Future studies are needed to further establish guidelines for patient selection and mode of delivery, as well as design of future telerehabilitation programs,” she added. “Duration of treatment and types of exercises to be included should also be examined. Further research into use of telerehabilitation for the treatment of upper-extremity, cognitive, speech, and swallowing dysfunction should also be examined.”

The investigators conducted their study without outside funding and reported no disclosures.

[email protected]

SOURCE: Barksdale H et al. CMSC 2020. Abstract REH11.

Telerehabilitation is safe and may offer functional benefits comparable to those of outpatient rehabilitation for patients with multiple sclerosis (MS) and impaired mobility. Telerehabilitation also saves time and travel cost, compared with outpatient rehabilitation.

“This model of home-based telerehabilitation offers a safe and cost-effective method for improving function and quality of life for MS patients with mobility deficits,” said Heather Barksdale, DPT, a neurological clinical specialist at UF Health Jacksonville (Florida).

The study was presented at the virtual meeting of the Consortium of Multiple Sclerosis Centers (CMSC).

The Centers for Medicare & Medicaid Services do not reimburse for telerehabilitation services. Patients with MS have difficulty accessing rehabilitation specialists because of impaired mobility and lack of access to transportation. “We are based in Jacksonville, Fla., and often have patients who have to travel from Tallahassee, Panama City, Daytona Beach, and Brunswick, Ga., to receive specialty services,” said Dr. Barksdale. “Telerehabilitation would allow these patients to get access to high-quality rehab services with clinicians that specialize in MS.”

Dr. Barksdale and colleagues conducted a pilot study to evaluate the feasibility of a physical therapy–guided telerehabilitation program for people with mobility impairments resulting from confirmed MS. The investigators enrolled patients at the MS Center of Excellence at University of Florida Health Jacksonville into a telerehabilitation group. A board-certified neurologist and a physical therapist specializing in MS examined participants in person at baseline. The latter underwent an 8-week program of physical therapy–guided telerehabilitation that used the Jintronix software platform and a kinetic tracking system.

By reviewing charts during January 2018–September 2019, Dr. Barksdale and colleagues selected patients with MS who were seen on an outpatient basis by the same physical therapists who were administering telerehabilitation. This outpatient comparison group was matched to the telerehabilitation group on duration of treatment and outcome measures completed. Dr. Barksdale and colleagues reviewed the data for the effects of the two interventions on mobility and travel.

Eight patients completed the telerehabilitation program, and all had improvements in fatigue, quality of life, or mobility measures. The investigators did not observe any adverse events during or after the intervention. The total savings in projected travel costs for all eight participants was $8,487.23, compared with the outpatient group. Participants in the telerehabilitation and outpatient groups achieved minimal detectable changes in the outcome measures examined at equivalent rates.

“The game-based model with virtual visits by a physical therapist can be modified to include exercises specific for other motor, coordination, spasticity, and movement dysfunctions and may be useful for other chronic and progressive dysfunction seen in Parkinson’s disease, stroke, and other movement and neuromuscular disorders,” said Dr. Barksdale.

“Future studies are needed to further establish guidelines for patient selection and mode of delivery, as well as design of future telerehabilitation programs,” she added. “Duration of treatment and types of exercises to be included should also be examined. Further research into use of telerehabilitation for the treatment of upper-extremity, cognitive, speech, and swallowing dysfunction should also be examined.”

The investigators conducted their study without outside funding and reported no disclosures.

[email protected]

SOURCE: Barksdale H et al. CMSC 2020. Abstract REH11.

Although nilotinib is safe and tolerable in patients with moderate or advanced Parkinson’s disease, it may not affect the disease’s symptoms, according to investigators. Nevertheless, other drugs that – like nilotinib – inhibit tyrosine kinase (c-Abl) may have a neuroprotective effect, they added. The study was presented online as part of the American Academy of Neurology’s 2020 Science Highlights.

Research using preclinical models of Parkinson’s disease has indicated that nilotinib offers neuroprotection. Tanya Simuni, MD, the Arthur C. Nielsen Jr., Research Professor of Parkinson’s Disease and Movement Disorders at Northwestern University in Chicago, and colleagues conducted a prospective study to evaluate the safety and tolerability of oral nilotinib in patients with moderate or advanced Parkinson’s disease. The investigators also sought to examine nilotinib’s symptomatic effect, as measured by the Movement Disorder Society–Unified Parkinson’s Disease Rating Scale (MDS-UPDRS) part III. In addition, Dr. Simuni and colleagues analyzed the drug’s effect on progression of disability, as measured by various other Parkinson’s disease scales. The study’s exploratory outcomes included cognitive function, quality of life, pharmacokinetic profile, and a battery of serum and spinal fluid biomarkers.

The researchers conducted their randomized, double-blind, placebo-controlled, parallel-group study at 25 sites in the United States. They randomized 76 patients with Parkinson’s disease in approximately equal groups to a daily dose of placebo, 150 mg of nilotinib, or 300 mg of nilotinib. Safety visits occurred monthly. Patient assessments occurred at 3 months and at 6 months, which was the end of the treatment period. Patients presented off study medication at 1 month and 2 months after the end of the treatment period.
 

Treatment did not change dopamine levels

Baseline demographics and disease characteristics were balanced between groups. Mean age was about 66 years in the placebo group, 61 years in the 150-mg group, and 67 years in the 300-mg group. The proportion of male participants was 64% in the placebo group, 60% in the 150-mg group, and 81% in the 300-mg group. Disease duration was 9 years in the placebo group, approximately 9 years in the 150-mg group, and approximately 12 years in the 300-mg group. Mean MDS-UPDRS total on score was 46 in the placebo group, 47 in the 150-mg group, and 52 in the 300-mg group.

Tolerability was 84% in the placebo group, 76% in the in the 150-mg group, and 77% in the 300-mg group. The sole treatment-related serious adverse event, arrhythmia, occurred in one patient in the 300-mg group. The rate of any adverse event was 88% in the placebo group, 92% in the 150-mg group, and 88% in the 300-mg group. The rate of any serious adverse event was 8% in the placebo group and 4% in each nilotinib group.

From baseline to 1 month, MDS-UPDRS part III on scores decreased by 0.49 points in the placebo group, increased by 2.08 in the 150-mg group, and increased by 4.67 in the 300-mg group. Differences in other secondary measures (e.g., change in MDS-UPDRS part III on scores from baseline to 6 months and change in MDS-UPDRS part III off score from baseline to 6 months) were not statistically significant.

At 3 months, CSF levels of nilotinib were well below the threshold for c-Abl inhibition (approximately 11 ng/mL). The arithmetic mean levels were 0.91 ng/mL in the 150-mg group and 1.69 ng/mL in the 300-mg group. Nilotinib also failed to alter CSF levels of dopamine or its metabolites at 3 months. Dr. Simuni and colleagues did not see significant differences between treatment groups in the exploratory outcomes of cognitive function and quality of life.

“Nilotinib is not an optimal molecule to assess the therapeutic potential of c-Abl inhibition for Parkinson’s disease,” the investigators concluded.
 

Nilotinib may be an inappropriate candidate

The data “suggest that the hypothesis wasn’t tested, since the CSF and serum concentration of the drug were insufficient for enzyme inhibition,” said Peter LeWitt, MD, Sastry Foundation Endowed Chair in Neurology and professor of neurology at Wayne State University, Detroit. “A higher dose or a more CNS-penetrant drug would be needed for adequate testing of the hypothesis that c-Abl inhibition could provide disease modification.”

Nilotinib might not be an appropriate drug for this investigation, he continued. “There may be better choices among c-Abl inhibitors for penetration into the CNS, such as dasatinib, or for increased potency of effect, such as imatinib.”

Sun Pharma Advanced Research Company is conducting a clinical trial of KO706, another c-Abl inhibitor, added Dr. LeWitt, who is a researcher in that trial and an editorial adviser to Neurology Reviews. “The studies published recently in JAMA Neurology by Pagan et al. claiming target engagement with nilotinib in Parkinson’s disease patients need to be contrasted with the results of the current investigation. Disease modification with c-Abl inhibition continues to be a promising therapeutic avenue, but both positive and negative study results need careful reassessment and validation.”

The Michael J. Fox Foundation, the Cure Parkinson’s Trust, and Van Andel Research Institute funded the study. Novartis provided the study drug and placebo. The investigators reported no conflicts of interest.

[email protected]

SOURCE: Simuni T et al. AAN 2020. Abstract 43617.

Although nilotinib is safe and tolerable in patients with moderate or advanced Parkinson’s disease, it may not affect the disease’s symptoms, according to investigators. Nevertheless, other drugs that – like nilotinib – inhibit tyrosine kinase (c-Abl) may have a neuroprotective effect, they added. The study was presented online as part of the American Academy of Neurology’s 2020 Science Highlights.

Research using preclinical models of Parkinson’s disease has indicated that nilotinib offers neuroprotection. Tanya Simuni, MD, the Arthur C. Nielsen Jr., Research Professor of Parkinson’s Disease and Movement Disorders at Northwestern University in Chicago, and colleagues conducted a prospective study to evaluate the safety and tolerability of oral nilotinib in patients with moderate or advanced Parkinson’s disease. The investigators also sought to examine nilotinib’s symptomatic effect, as measured by the Movement Disorder Society–Unified Parkinson’s Disease Rating Scale (MDS-UPDRS) part III. In addition, Dr. Simuni and colleagues analyzed the drug’s effect on progression of disability, as measured by various other Parkinson’s disease scales. The study’s exploratory outcomes included cognitive function, quality of life, pharmacokinetic profile, and a battery of serum and spinal fluid biomarkers.

The researchers conducted their randomized, double-blind, placebo-controlled, parallel-group study at 25 sites in the United States. They randomized 76 patients with Parkinson’s disease in approximately equal groups to a daily dose of placebo, 150 mg of nilotinib, or 300 mg of nilotinib. Safety visits occurred monthly. Patient assessments occurred at 3 months and at 6 months, which was the end of the treatment period. Patients presented off study medication at 1 month and 2 months after the end of the treatment period.
 

Treatment did not change dopamine levels

Baseline demographics and disease characteristics were balanced between groups. Mean age was about 66 years in the placebo group, 61 years in the 150-mg group, and 67 years in the 300-mg group. The proportion of male participants was 64% in the placebo group, 60% in the 150-mg group, and 81% in the 300-mg group. Disease duration was 9 years in the placebo group, approximately 9 years in the 150-mg group, and approximately 12 years in the 300-mg group. Mean MDS-UPDRS total on score was 46 in the placebo group, 47 in the 150-mg group, and 52 in the 300-mg group.

Tolerability was 84% in the placebo group, 76% in the in the 150-mg group, and 77% in the 300-mg group. The sole treatment-related serious adverse event, arrhythmia, occurred in one patient in the 300-mg group. The rate of any adverse event was 88% in the placebo group, 92% in the 150-mg group, and 88% in the 300-mg group. The rate of any serious adverse event was 8% in the placebo group and 4% in each nilotinib group.

From baseline to 1 month, MDS-UPDRS part III on scores decreased by 0.49 points in the placebo group, increased by 2.08 in the 150-mg group, and increased by 4.67 in the 300-mg group. Differences in other secondary measures (e.g., change in MDS-UPDRS part III on scores from baseline to 6 months and change in MDS-UPDRS part III off score from baseline to 6 months) were not statistically significant.

At 3 months, CSF levels of nilotinib were well below the threshold for c-Abl inhibition (approximately 11 ng/mL). The arithmetic mean levels were 0.91 ng/mL in the 150-mg group and 1.69 ng/mL in the 300-mg group. Nilotinib also failed to alter CSF levels of dopamine or its metabolites at 3 months. Dr. Simuni and colleagues did not see significant differences between treatment groups in the exploratory outcomes of cognitive function and quality of life.

“Nilotinib is not an optimal molecule to assess the therapeutic potential of c-Abl inhibition for Parkinson’s disease,” the investigators concluded.
 

Nilotinib may be an inappropriate candidate

The data “suggest that the hypothesis wasn’t tested, since the CSF and serum concentration of the drug were insufficient for enzyme inhibition,” said Peter LeWitt, MD, Sastry Foundation Endowed Chair in Neurology and professor of neurology at Wayne State University, Detroit. “A higher dose or a more CNS-penetrant drug would be needed for adequate testing of the hypothesis that c-Abl inhibition could provide disease modification.”

Nilotinib might not be an appropriate drug for this investigation, he continued. “There may be better choices among c-Abl inhibitors for penetration into the CNS, such as dasatinib, or for increased potency of effect, such as imatinib.”

Sun Pharma Advanced Research Company is conducting a clinical trial of KO706, another c-Abl inhibitor, added Dr. LeWitt, who is a researcher in that trial and an editorial adviser to Neurology Reviews. “The studies published recently in JAMA Neurology by Pagan et al. claiming target engagement with nilotinib in Parkinson’s disease patients need to be contrasted with the results of the current investigation. Disease modification with c-Abl inhibition continues to be a promising therapeutic avenue, but both positive and negative study results need careful reassessment and validation.”

The Michael J. Fox Foundation, the Cure Parkinson’s Trust, and Van Andel Research Institute funded the study. Novartis provided the study drug and placebo. The investigators reported no conflicts of interest.

[email protected]

SOURCE: Simuni T et al. AAN 2020. Abstract 43617.

Although nilotinib is safe and tolerable in patients with moderate or advanced Parkinson’s disease, it may not affect the disease’s symptoms, according to investigators. Nevertheless, other drugs that – like nilotinib – inhibit tyrosine kinase (c-Abl) may have a neuroprotective effect, they added. The study was presented online as part of the American Academy of Neurology’s 2020 Science Highlights.

Research using preclinical models of Parkinson’s disease has indicated that nilotinib offers neuroprotection. Tanya Simuni, MD, the Arthur C. Nielsen Jr., Research Professor of Parkinson’s Disease and Movement Disorders at Northwestern University in Chicago, and colleagues conducted a prospective study to evaluate the safety and tolerability of oral nilotinib in patients with moderate or advanced Parkinson’s disease. The investigators also sought to examine nilotinib’s symptomatic effect, as measured by the Movement Disorder Society–Unified Parkinson’s Disease Rating Scale (MDS-UPDRS) part III. In addition, Dr. Simuni and colleagues analyzed the drug’s effect on progression of disability, as measured by various other Parkinson’s disease scales. The study’s exploratory outcomes included cognitive function, quality of life, pharmacokinetic profile, and a battery of serum and spinal fluid biomarkers.

The researchers conducted their randomized, double-blind, placebo-controlled, parallel-group study at 25 sites in the United States. They randomized 76 patients with Parkinson’s disease in approximately equal groups to a daily dose of placebo, 150 mg of nilotinib, or 300 mg of nilotinib. Safety visits occurred monthly. Patient assessments occurred at 3 months and at 6 months, which was the end of the treatment period. Patients presented off study medication at 1 month and 2 months after the end of the treatment period.
 

Treatment did not change dopamine levels

Baseline demographics and disease characteristics were balanced between groups. Mean age was about 66 years in the placebo group, 61 years in the 150-mg group, and 67 years in the 300-mg group. The proportion of male participants was 64% in the placebo group, 60% in the 150-mg group, and 81% in the 300-mg group. Disease duration was 9 years in the placebo group, approximately 9 years in the 150-mg group, and approximately 12 years in the 300-mg group. Mean MDS-UPDRS total on score was 46 in the placebo group, 47 in the 150-mg group, and 52 in the 300-mg group.

Tolerability was 84% in the placebo group, 76% in the in the 150-mg group, and 77% in the 300-mg group. The sole treatment-related serious adverse event, arrhythmia, occurred in one patient in the 300-mg group. The rate of any adverse event was 88% in the placebo group, 92% in the 150-mg group, and 88% in the 300-mg group. The rate of any serious adverse event was 8% in the placebo group and 4% in each nilotinib group.

From baseline to 1 month, MDS-UPDRS part III on scores decreased by 0.49 points in the placebo group, increased by 2.08 in the 150-mg group, and increased by 4.67 in the 300-mg group. Differences in other secondary measures (e.g., change in MDS-UPDRS part III on scores from baseline to 6 months and change in MDS-UPDRS part III off score from baseline to 6 months) were not statistically significant.

At 3 months, CSF levels of nilotinib were well below the threshold for c-Abl inhibition (approximately 11 ng/mL). The arithmetic mean levels were 0.91 ng/mL in the 150-mg group and 1.69 ng/mL in the 300-mg group. Nilotinib also failed to alter CSF levels of dopamine or its metabolites at 3 months. Dr. Simuni and colleagues did not see significant differences between treatment groups in the exploratory outcomes of cognitive function and quality of life.

“Nilotinib is not an optimal molecule to assess the therapeutic potential of c-Abl inhibition for Parkinson’s disease,” the investigators concluded.
 

Nilotinib may be an inappropriate candidate

The data “suggest that the hypothesis wasn’t tested, since the CSF and serum concentration of the drug were insufficient for enzyme inhibition,” said Peter LeWitt, MD, Sastry Foundation Endowed Chair in Neurology and professor of neurology at Wayne State University, Detroit. “A higher dose or a more CNS-penetrant drug would be needed for adequate testing of the hypothesis that c-Abl inhibition could provide disease modification.”

Nilotinib might not be an appropriate drug for this investigation, he continued. “There may be better choices among c-Abl inhibitors for penetration into the CNS, such as dasatinib, or for increased potency of effect, such as imatinib.”

Sun Pharma Advanced Research Company is conducting a clinical trial of KO706, another c-Abl inhibitor, added Dr. LeWitt, who is a researcher in that trial and an editorial adviser to Neurology Reviews. “The studies published recently in JAMA Neurology by Pagan et al. claiming target engagement with nilotinib in Parkinson’s disease patients need to be contrasted with the results of the current investigation. Disease modification with c-Abl inhibition continues to be a promising therapeutic avenue, but both positive and negative study results need careful reassessment and validation.”

The Michael J. Fox Foundation, the Cure Parkinson’s Trust, and Van Andel Research Institute funded the study. Novartis provided the study drug and placebo. The investigators reported no conflicts of interest.

[email protected]

SOURCE: Simuni T et al. AAN 2020. Abstract 43617.

The amygdala has increased volume and increased connectivity to the default mode network (DMN) in patients with chronic migraine, compared with those with episodic migraine, according to researchers. This increased connectivity is associated with clinical and affective measures. The data suggest that changes in the amygdala’s structure and function may play a role in the transformation to chronic migraine, according to the researchers. The study was presented online as part of the American Academy of Neurology’s 2020 Science Highlights.

Approximately 3% of patients with episodic migraine progress to chronic migraine each year. Chronic migraine is associated with increased headache frequency, greater disability, and increased psychiatric comorbidities. The pathophysiological mechanisms of the transformation from episodic to chronic migraine are not completely understood.

Danielle D. DeSouza, PhD, instructor in neurology at Stanford (Calif.) University, and colleagues sought to investigate the role of the amygdala in the transformation of migraine. The amygdala is involved in nociceptive processing, emotional responses, and affective states such as depression and anxiety. Researchers have suggested that alterations in the structure or function of the amygdala might contribute to the worsening of pain and mood that coincides with the transformation of migraine.

Dr. DeSouza and colleagues enrolled 88 patients with migraine, diagnosed according to International Classification of Headache Disorders–3 criteria, in their study. Forty-four patients (36 women; mean age, 37.8 years) had chronic migraine, and 44 patients (36 women; mean age, 37.5 years) had episodic migraine. Participants underwent 3T MRI scanning during which investigators acquired T1-weighted structural and resting-state images of the brain. Participants also completed self-report questionnaires to evaluate depression and somatization (Patient Health Questionnaire), anxiety (Generalized Anxiety Disorder 7-item scale), pain catastrophizing (Pain Catastrophizing Scale), headache frequency, and headache intensity.

The investigators examined resting-state functional connectivity between the amygdala and the following three brain networks: DMN, salience network (SN), and central executive network (CEN). They assessed amygdala volume with voxel-based morphometry.

Analyses indicated that connectivity between the left amygdala and the DMN (i.e., the medial prefrontal cortex and the precuneus/posterior cingulate cortex) was increased in patients with chronic migraine, compared with those with episodic migraine. In all patients, resting-state functional connectivity between the amygdala and the DMN was positively associated with headache frequency. Connectivity between the left amygdala and the SN was positively associated with headache intensity, and connectivity between the right amygdala and the CEN was positively associated with pain catastrophizing. Both of these findings held in all patients.

In addition, Dr. DeSouza and colleagues found that bilateral amygdala volumes, including the basolateral and superficial/corticoid nuclei, were increased in patients with chronic migraine, compared with those with episodic migraine. Headache intensity and depression predicted differences in right amygdala volume, and depression alone predicted differences in left amygdala volume.

Dr. DeSouza reported no disclosures. One of the investigators acts as an adviser to Alder, Allergan, Amgen, Biohaven, Curex, Teva, and Xoc about matters unrelated to this study.

[email protected]

SOURCE: DeSouza DD et al. AAN 2020, Abstract 46914.

The amygdala has increased volume and increased connectivity to the default mode network (DMN) in patients with chronic migraine, compared with those with episodic migraine, according to researchers. This increased connectivity is associated with clinical and affective measures. The data suggest that changes in the amygdala’s structure and function may play a role in the transformation to chronic migraine, according to the researchers. The study was presented online as part of the American Academy of Neurology’s 2020 Science Highlights.

Approximately 3% of patients with episodic migraine progress to chronic migraine each year. Chronic migraine is associated with increased headache frequency, greater disability, and increased psychiatric comorbidities. The pathophysiological mechanisms of the transformation from episodic to chronic migraine are not completely understood.

Danielle D. DeSouza, PhD, instructor in neurology at Stanford (Calif.) University, and colleagues sought to investigate the role of the amygdala in the transformation of migraine. The amygdala is involved in nociceptive processing, emotional responses, and affective states such as depression and anxiety. Researchers have suggested that alterations in the structure or function of the amygdala might contribute to the worsening of pain and mood that coincides with the transformation of migraine.

Dr. DeSouza and colleagues enrolled 88 patients with migraine, diagnosed according to International Classification of Headache Disorders–3 criteria, in their study. Forty-four patients (36 women; mean age, 37.8 years) had chronic migraine, and 44 patients (36 women; mean age, 37.5 years) had episodic migraine. Participants underwent 3T MRI scanning during which investigators acquired T1-weighted structural and resting-state images of the brain. Participants also completed self-report questionnaires to evaluate depression and somatization (Patient Health Questionnaire), anxiety (Generalized Anxiety Disorder 7-item scale), pain catastrophizing (Pain Catastrophizing Scale), headache frequency, and headache intensity.

The investigators examined resting-state functional connectivity between the amygdala and the following three brain networks: DMN, salience network (SN), and central executive network (CEN). They assessed amygdala volume with voxel-based morphometry.

Analyses indicated that connectivity between the left amygdala and the DMN (i.e., the medial prefrontal cortex and the precuneus/posterior cingulate cortex) was increased in patients with chronic migraine, compared with those with episodic migraine. In all patients, resting-state functional connectivity between the amygdala and the DMN was positively associated with headache frequency. Connectivity between the left amygdala and the SN was positively associated with headache intensity, and connectivity between the right amygdala and the CEN was positively associated with pain catastrophizing. Both of these findings held in all patients.

In addition, Dr. DeSouza and colleagues found that bilateral amygdala volumes, including the basolateral and superficial/corticoid nuclei, were increased in patients with chronic migraine, compared with those with episodic migraine. Headache intensity and depression predicted differences in right amygdala volume, and depression alone predicted differences in left amygdala volume.

Dr. DeSouza reported no disclosures. One of the investigators acts as an adviser to Alder, Allergan, Amgen, Biohaven, Curex, Teva, and Xoc about matters unrelated to this study.

[email protected]

SOURCE: DeSouza DD et al. AAN 2020, Abstract 46914.

The amygdala has increased volume and increased connectivity to the default mode network (DMN) in patients with chronic migraine, compared with those with episodic migraine, according to researchers. This increased connectivity is associated with clinical and affective measures. The data suggest that changes in the amygdala’s structure and function may play a role in the transformation to chronic migraine, according to the researchers. The study was presented online as part of the American Academy of Neurology’s 2020 Science Highlights.

Approximately 3% of patients with episodic migraine progress to chronic migraine each year. Chronic migraine is associated with increased headache frequency, greater disability, and increased psychiatric comorbidities. The pathophysiological mechanisms of the transformation from episodic to chronic migraine are not completely understood.

Danielle D. DeSouza, PhD, instructor in neurology at Stanford (Calif.) University, and colleagues sought to investigate the role of the amygdala in the transformation of migraine. The amygdala is involved in nociceptive processing, emotional responses, and affective states such as depression and anxiety. Researchers have suggested that alterations in the structure or function of the amygdala might contribute to the worsening of pain and mood that coincides with the transformation of migraine.

Dr. DeSouza and colleagues enrolled 88 patients with migraine, diagnosed according to International Classification of Headache Disorders–3 criteria, in their study. Forty-four patients (36 women; mean age, 37.8 years) had chronic migraine, and 44 patients (36 women; mean age, 37.5 years) had episodic migraine. Participants underwent 3T MRI scanning during which investigators acquired T1-weighted structural and resting-state images of the brain. Participants also completed self-report questionnaires to evaluate depression and somatization (Patient Health Questionnaire), anxiety (Generalized Anxiety Disorder 7-item scale), pain catastrophizing (Pain Catastrophizing Scale), headache frequency, and headache intensity.

The investigators examined resting-state functional connectivity between the amygdala and the following three brain networks: DMN, salience network (SN), and central executive network (CEN). They assessed amygdala volume with voxel-based morphometry.

Analyses indicated that connectivity between the left amygdala and the DMN (i.e., the medial prefrontal cortex and the precuneus/posterior cingulate cortex) was increased in patients with chronic migraine, compared with those with episodic migraine. In all patients, resting-state functional connectivity between the amygdala and the DMN was positively associated with headache frequency. Connectivity between the left amygdala and the SN was positively associated with headache intensity, and connectivity between the right amygdala and the CEN was positively associated with pain catastrophizing. Both of these findings held in all patients.

In addition, Dr. DeSouza and colleagues found that bilateral amygdala volumes, including the basolateral and superficial/corticoid nuclei, were increased in patients with chronic migraine, compared with those with episodic migraine. Headache intensity and depression predicted differences in right amygdala volume, and depression alone predicted differences in left amygdala volume.

Dr. DeSouza reported no disclosures. One of the investigators acts as an adviser to Alder, Allergan, Amgen, Biohaven, Curex, Teva, and Xoc about matters unrelated to this study.

[email protected]

SOURCE: DeSouza DD et al. AAN 2020, Abstract 46914.

The American Academy of Neurology has published a position statement providing ethical guidance for neurologists caring for patients with neurologic disorders during the COVID-19 pandemic. The document, which was published online May 15 in Neurology, reviews adaptations to the inpatient and outpatient settings and addresses the need to develop protocols for the allocation of scarce medical resources. The guidance is the product of a joint committee of the AAN, the American Neurological Association, the Child Neurology Society, and the Neurocritical Care Society Ethics Committee.

“Now is one of the most challenging times of our careers as neurologists,” said James C. Stevens, MD, president of the AAN, in a press release. “Clinics and hospitals are adapting to caring for the most ill, managing scarce resources, and trying to protect people without the disease. As neurologists, we must continue to adapt our daily practice, continue to care for our most ill neurology patients, and help contribute to the care of those afflicted with COVID-19.”
 

The role of telehealth

The authors recommended that ordinary appointments be held using telehealth, which, they say, already has become part of patient care. Telehealth enables neurologists to continue providing care while reducing the risk of exposure to and spread of SARS-CoV-2. The disadvantages of telehealth are that it limits physical examinations and behavioral health examinations, the authors acknowledged. “Each clinician should decide, in concert with his or her patient, if an in-person evaluation warrants the risk of an encounter,” according to the guidance.

Neurologists also should advise their patients that their neurologic condition could affect their relative risk of hospitalization and death resulting from COVID-19. Patients with multiple sclerosis or myasthenia gravis, for example, may be receiving corticosteroids or immunomodulatory therapies that make them more vulnerable to COVID-19 infection. “Even if desired services are available, neurologists and their patients ought to consider whether their care plans can safely be delayed in order to mitigate risk,” wrote the authors. Neurologists must try to maintain the customary standard of care, however, for patients with neurologic disease severe enough to warrant hospitalization, such as stroke or epilepsy.
 

The potential need for triage

Resources such as ventilators and ICU beds are limited, and health care facilities have had to triage them during the pandemic. Patients with a neurologic disease that decreases their likelihood of survival from a respiratory illness may not be offered these resources. Neurologists should discuss with patients and decision makers the ways in which reduced resources might affect patient care. Neurologists must “be aware of the burden of disease in their local community and how healthcare leaders plan on coping with a surge,” according to the guidance.

Advance directives, which should be a standard part of clinical care, take on increased importance during the pandemic. Patients who have not completed advance care planning documents should be encouraged to do so, according to the authors. These documents include patients’ preferences for “do not attempt resuscitation” status. Nevertheless, “we must assure patients with chronic illness that diminished resources in this healthcare crisis will not restrict their access to comfort and palliative care,” the document states.
 

Scarce resource allocation protocols

In the event that a surge in patients overwhelms a hospital’s contingencies and forces it to operate in crisis mode, it should have a scarce resource allocation protocol in place.

“This will surely be the most challenging aspect of patient care during this pandemic public health emergency,” wrote the authors. To ensure transparency and to mitigate the emotional effect of these decisions on patients and clinicians, scarce resource allocation protocols should be developed by teams that include intensivists, clinical ethicists, and nursing representatives who are not directly involved in the care of the critically ill patients. The goal of these protocols is to maximize the number of lives saved. They generally include an initial patient assessment followed by regular reevaluations to determine whether patients using scarce resources are benefiting less than other patients who need the same resources. The protocols should consider not only patients with COVID-19 infection, but also patients with stroke, traumatic injury, influenza, and heart failure who may need the same resources. Race, gender, ethnicity, socioeconomics, and perceived social worth should not influence care decisions, according to the guidance. Validated mortality prediction scales, such as the Glasgow Outcome Scale, can contribute to care decisions. Obtaining community input into these protocols will ensure trust in the health care system.

“If the situation necessitates hard decisions, we need to be fair, objective, transparent, and adamantly preserve our professional integrity,” wrote the authors. “Through it all, we owe it to our patients and families, as well as ourselves, to maintain our own health and wellness.”

The guidance was developed without funding, and the authors reported no relevant disclosures.

[email protected]

SOURCE: Rubin MA et al. Neurology. 2020 May 15. doi: 10.1212/WNL.0000000000009744.

The American Academy of Neurology has published a position statement providing ethical guidance for neurologists caring for patients with neurologic disorders during the COVID-19 pandemic. The document, which was published online May 15 in Neurology, reviews adaptations to the inpatient and outpatient settings and addresses the need to develop protocols for the allocation of scarce medical resources. The guidance is the product of a joint committee of the AAN, the American Neurological Association, the Child Neurology Society, and the Neurocritical Care Society Ethics Committee.

“Now is one of the most challenging times of our careers as neurologists,” said James C. Stevens, MD, president of the AAN, in a press release. “Clinics and hospitals are adapting to caring for the most ill, managing scarce resources, and trying to protect people without the disease. As neurologists, we must continue to adapt our daily practice, continue to care for our most ill neurology patients, and help contribute to the care of those afflicted with COVID-19.”
 

The role of telehealth

The authors recommended that ordinary appointments be held using telehealth, which, they say, already has become part of patient care. Telehealth enables neurologists to continue providing care while reducing the risk of exposure to and spread of SARS-CoV-2. The disadvantages of telehealth are that it limits physical examinations and behavioral health examinations, the authors acknowledged. “Each clinician should decide, in concert with his or her patient, if an in-person evaluation warrants the risk of an encounter,” according to the guidance.

Neurologists also should advise their patients that their neurologic condition could affect their relative risk of hospitalization and death resulting from COVID-19. Patients with multiple sclerosis or myasthenia gravis, for example, may be receiving corticosteroids or immunomodulatory therapies that make them more vulnerable to COVID-19 infection. “Even if desired services are available, neurologists and their patients ought to consider whether their care plans can safely be delayed in order to mitigate risk,” wrote the authors. Neurologists must try to maintain the customary standard of care, however, for patients with neurologic disease severe enough to warrant hospitalization, such as stroke or epilepsy.
 

The potential need for triage

Resources such as ventilators and ICU beds are limited, and health care facilities have had to triage them during the pandemic. Patients with a neurologic disease that decreases their likelihood of survival from a respiratory illness may not be offered these resources. Neurologists should discuss with patients and decision makers the ways in which reduced resources might affect patient care. Neurologists must “be aware of the burden of disease in their local community and how healthcare leaders plan on coping with a surge,” according to the guidance.

Advance directives, which should be a standard part of clinical care, take on increased importance during the pandemic. Patients who have not completed advance care planning documents should be encouraged to do so, according to the authors. These documents include patients’ preferences for “do not attempt resuscitation” status. Nevertheless, “we must assure patients with chronic illness that diminished resources in this healthcare crisis will not restrict their access to comfort and palliative care,” the document states.
 

Scarce resource allocation protocols

In the event that a surge in patients overwhelms a hospital’s contingencies and forces it to operate in crisis mode, it should have a scarce resource allocation protocol in place.

“This will surely be the most challenging aspect of patient care during this pandemic public health emergency,” wrote the authors. To ensure transparency and to mitigate the emotional effect of these decisions on patients and clinicians, scarce resource allocation protocols should be developed by teams that include intensivists, clinical ethicists, and nursing representatives who are not directly involved in the care of the critically ill patients. The goal of these protocols is to maximize the number of lives saved. They generally include an initial patient assessment followed by regular reevaluations to determine whether patients using scarce resources are benefiting less than other patients who need the same resources. The protocols should consider not only patients with COVID-19 infection, but also patients with stroke, traumatic injury, influenza, and heart failure who may need the same resources. Race, gender, ethnicity, socioeconomics, and perceived social worth should not influence care decisions, according to the guidance. Validated mortality prediction scales, such as the Glasgow Outcome Scale, can contribute to care decisions. Obtaining community input into these protocols will ensure trust in the health care system.

“If the situation necessitates hard decisions, we need to be fair, objective, transparent, and adamantly preserve our professional integrity,” wrote the authors. “Through it all, we owe it to our patients and families, as well as ourselves, to maintain our own health and wellness.”

The guidance was developed without funding, and the authors reported no relevant disclosures.

[email protected]

SOURCE: Rubin MA et al. Neurology. 2020 May 15. doi: 10.1212/WNL.0000000000009744.

The American Academy of Neurology has published a position statement providing ethical guidance for neurologists caring for patients with neurologic disorders during the COVID-19 pandemic. The document, which was published online May 15 in Neurology, reviews adaptations to the inpatient and outpatient settings and addresses the need to develop protocols for the allocation of scarce medical resources. The guidance is the product of a joint committee of the AAN, the American Neurological Association, the Child Neurology Society, and the Neurocritical Care Society Ethics Committee.

“Now is one of the most challenging times of our careers as neurologists,” said James C. Stevens, MD, president of the AAN, in a press release. “Clinics and hospitals are adapting to caring for the most ill, managing scarce resources, and trying to protect people without the disease. As neurologists, we must continue to adapt our daily practice, continue to care for our most ill neurology patients, and help contribute to the care of those afflicted with COVID-19.”
 

The role of telehealth

The authors recommended that ordinary appointments be held using telehealth, which, they say, already has become part of patient care. Telehealth enables neurologists to continue providing care while reducing the risk of exposure to and spread of SARS-CoV-2. The disadvantages of telehealth are that it limits physical examinations and behavioral health examinations, the authors acknowledged. “Each clinician should decide, in concert with his or her patient, if an in-person evaluation warrants the risk of an encounter,” according to the guidance.

Neurologists also should advise their patients that their neurologic condition could affect their relative risk of hospitalization and death resulting from COVID-19. Patients with multiple sclerosis or myasthenia gravis, for example, may be receiving corticosteroids or immunomodulatory therapies that make them more vulnerable to COVID-19 infection. “Even if desired services are available, neurologists and their patients ought to consider whether their care plans can safely be delayed in order to mitigate risk,” wrote the authors. Neurologists must try to maintain the customary standard of care, however, for patients with neurologic disease severe enough to warrant hospitalization, such as stroke or epilepsy.
 

The potential need for triage

Resources such as ventilators and ICU beds are limited, and health care facilities have had to triage them during the pandemic. Patients with a neurologic disease that decreases their likelihood of survival from a respiratory illness may not be offered these resources. Neurologists should discuss with patients and decision makers the ways in which reduced resources might affect patient care. Neurologists must “be aware of the burden of disease in their local community and how healthcare leaders plan on coping with a surge,” according to the guidance.

Advance directives, which should be a standard part of clinical care, take on increased importance during the pandemic. Patients who have not completed advance care planning documents should be encouraged to do so, according to the authors. These documents include patients’ preferences for “do not attempt resuscitation” status. Nevertheless, “we must assure patients with chronic illness that diminished resources in this healthcare crisis will not restrict their access to comfort and palliative care,” the document states.
 

Scarce resource allocation protocols

In the event that a surge in patients overwhelms a hospital’s contingencies and forces it to operate in crisis mode, it should have a scarce resource allocation protocol in place.

“This will surely be the most challenging aspect of patient care during this pandemic public health emergency,” wrote the authors. To ensure transparency and to mitigate the emotional effect of these decisions on patients and clinicians, scarce resource allocation protocols should be developed by teams that include intensivists, clinical ethicists, and nursing representatives who are not directly involved in the care of the critically ill patients. The goal of these protocols is to maximize the number of lives saved. They generally include an initial patient assessment followed by regular reevaluations to determine whether patients using scarce resources are benefiting less than other patients who need the same resources. The protocols should consider not only patients with COVID-19 infection, but also patients with stroke, traumatic injury, influenza, and heart failure who may need the same resources. Race, gender, ethnicity, socioeconomics, and perceived social worth should not influence care decisions, according to the guidance. Validated mortality prediction scales, such as the Glasgow Outcome Scale, can contribute to care decisions. Obtaining community input into these protocols will ensure trust in the health care system.

“If the situation necessitates hard decisions, we need to be fair, objective, transparent, and adamantly preserve our professional integrity,” wrote the authors. “Through it all, we owe it to our patients and families, as well as ourselves, to maintain our own health and wellness.”

The guidance was developed without funding, and the authors reported no relevant disclosures.

[email protected]

SOURCE: Rubin MA et al. Neurology. 2020 May 15. doi: 10.1212/WNL.0000000000009744.

Three investigations that had been scheduled for presentation at the annual meeting of the American Academy of Neurology provide further detail about the efficacy and safety of onasemnogene abeparvovec-xioi in patients with spinal muscular atrophy (SMA). The research was presented online as part of the 2020 AAN Science Highlights.

SMA results from a mutation in SMN1, which encodes the SMN protein necessary for motor function. Deficiency of this protein causes motor neurons to die, resulting in severe muscle weakness. At 2 years of age, untreated patients with SMA type 1 generally die or require permanent ventilation.

The Food and Drug Administration approved onasemnogene abeparvovec-xioi under the brand name Zolgensma in May 2019. The gene-replacement therapy, which is administered once intravenously, delivers a fully functional copy of human SMN1 into the target motor neuron cells. It is indicated as treatment for SMA in infants younger than 2 years of age.
 

Preliminary STR1VE data

Preliminary data from the phase 3 STR1VE study were scheduled to be presented at the meeting. The open-label, single-arm, single-dose study enrolled symptomatic patients with SMA type 1 (SMA1) at multiple US sites. Enrollment was completed in May 2019.

The study included 10 male patients and 12 female patients. Participants’ mean age at dosing was 3.7 months. Of 19 patients who could have reached age 13.6 months at data cutoff, 17 (89.5%) were surviving without permanent ventilation, compared with a 25% survival rate among untreated patients. One of the 19 patients died, and the event was judged to be unrelated to treatment. Another of the 19 reached a respiratory endpoint or withdrew consent.

The population’s mean baseline Children’s Hospital of Philadelphia Infant Test of Neuromuscular Disorders (CHOP INTEND) score was 32. This score increased by 6.9, 11.7, and 14.3 points at months 1, 3, and 5, respectively. Half of the 22 infants sat independently for 30 or more seconds, and this milestone was achieved at a mean of 8.2 months after treatment. Five of six (83%) patients age 18 months or older sat independently for 30 or more seconds, which was one of the study’s primary endpoints. As of March 8, 2019, treatment-emergent adverse events of special interest were transient and not associated with any sequelae.

The STR1VE study was sponsored by AveXis, the maker of onasemnogene abeparvovec-xioi. Several of the investigators are employees of AveXis, and others received funding from the company.
 

Long-term follow-up in START

Long-term follow-up data for participants in the phase 1/2a START study also were scheduled to be presented. Patients who completed START were eligible to participate, and the trial’s primary aim was to evaluate the long-term safety of onasemnogene abeparvovec-xioi. Patients are intended to have five annual visits, followed by 10 annual phone calls, and the investigators request local physicians or neurologists to transfer patient records. Safety assessments include medical history and record review, physical examination, clinical laboratory evaluation, and pulmonary assessments. Efficacy assessments include evaluation of the maintenance of developmental milestones.

As of May 31, 2019, 13 patients in two cohorts had been enrolled and had had a baseline visit. For patients in Cohort 2, the mean age and time since dosing were 4.2 years and 3.9 years, respectively. All patients in Cohort 2 were alive and did not require permanent ventilation. Participants did not lose any developmental milestones that they had achieved at the end of START. Two patients were able to walk, and two could stand with assistance during long-term follow-up. This result suggests the durability of the treatment’s effect. No new treatment-related serious adverse events or adverse events of special interest had occurred as of March 8, 2019.

“We know from accumulating experience that treating infants by gene therapy is safe,” said Jerry R. Mendell, MD, the principal investigator and an attending neurologist at Nationwide Children’s Hospital in Columbus, Ohio. “Of the 15 patients we had in our first trial, only four adverse events related to the gene delivery were encountered, and only two of these were considered serious adverse events [i.e., liver enzymes that were 10 times greater than normal laboratory levels]. These laboratory tests occurred without accompanying clinical symptoms or signs. All were suppressed by corticosteroids and related to the liver inflammation. This pattern of safety has been seen in our very large gene therapy experience. No long-term surprises were encountered.”

The START study was sponsored by AveXis. Several of the investigators are employees of AveXis, and others received funding from the company.
 

Update on the SPR1NT study

Interim safety and efficacy data from the ongoing SPR1NT study, which includes presymptomatic patients, also were scheduled to be presented. The trial “was built on the basic premise that spinal motor neuron degeneration associated with SMN protein deficiency begins in utero, continues to progress rapidly during the first months of life, and is irreversible,” said Kevin Strauss, MD, medical director of the Clinic for Special Children in Strasburg, Pennsylvania. “SPR1NT leveraged the advantages conferred by carrier testing and newborn screening programs for SMA, which allowed the first 22 children enrolled to have a confirmed molecular diagnosis between 1 and 26 days of postnatal life, before the onset of dysphagia, respiratory compromise, or overt weakness.”

In this multicenter, open-label, phase 3 trial, presymptomatic patients age 6 weeks or younger who are expected to develop SMA receive onasemnogene abeparvovec-xioi once and are evaluated during 18 or 24 months. The primary outcomes are sitting for 30 or more seconds for infants with two copies of SMN2 and standing unassisted for infants with three copies of SMN2.

As of December 31, 2019, 29 infants had been treated in the efficacy group at a mean age of 20.6 days among infants with two copies of SMN2 and 28.7 days among infants with three copies of SMN2. All patients are alive, and no patient in SPR1NT required ventilation support at last visit. Among 14 patients with two copies of SMN2, all achieved CHOP INTEND scores of 50 or greater, which exceeds the maximal score observed in untreated patients. Eight have achieved sitting, seven of whom achieved it within the World Health Organization sitting age range of 3.8-9.2 months. The other six patients have not yet passed the WHO developmental window. Among 15 patients with three copies of SMN2, four stood independently and three walked independently, all within the WHO developmental windows of 6.9-16.9 months and 8.2-17.6 months, respectively. The other patients have not yet passed the WHO developmental window. No patient in either cohort required a feeding tube, and most remained within the normal weight range. Treatment-emergent adverse events of special interest were reported in 16 patients. The study is ongoing, and patients continue to meet primary endpoints.

“Comparing functional and motor indices between these two groups [i.e., patients with two copies of SMN2 and those with three copies] should contribute to our understanding of how motor neuron loss during fetal development may impact long-term neurological outcomes over the arc of life and could even form a basis for considering antenatal gene therapy for severe forms of SMA,” said Dr. Strauss.

SPR1NT was funded by AveXis. Several of the investigators are employees of AveXis, and others received funding from the company.
 

Combination therapy may be a possibility

A benefit of onasemnogene abeparvovec-xioi is that the adeno-associated virus that delivers it does not integrate itself into the genome, said Darryl C. De Vivo, MD, Sidney Carter professor of neurology and professor of pediatrics at Columbia University in New York. “The bad news is that every time the cell divides, the gene therapy goes to one of the two daughter cells, but not to both. ... That means the effectiveness, in theory, would be reduced by 50% with each cell division, possibly affecting the durability of treatment.” The fact that brain and spinal cord neurons are presumed to be fully populated around the time of birth partly mitigates this concern, he added. “There isn’t too much additional cell division going on in neurons after birth at a time when the gene therapy would be administered.”

Furthermore, the cellular distribution of the gene therapy within the nervous system, which is unclear, might affect the therapy’s effect. “These are largely unanswered questions,” said Dr. De Vivo. “The answers to these questions only will come with continued observation of patients who have been treated.”

Considering that nusinersen, the antisense oligonucleotide also approved for SMA, targets SMN2, and the gene therapy replaces SMN1, “there may be some wisdom in thinking about combination therapy,” said Dr. De Vivo. “There’s no doubt that these therapeutic agents are effective,” and continued follow-up will clarify their comparative efficacy, he concluded.

[email protected]

SOURCES: Day JW, et al. AAN 2020. Abstract S27.001. Mendell JR, et al. AAN 2020. Abstract S27.002. Strauss KA, et al. AAN 2020. Abstract S27.003.

Three investigations that had been scheduled for presentation at the annual meeting of the American Academy of Neurology provide further detail about the efficacy and safety of onasemnogene abeparvovec-xioi in patients with spinal muscular atrophy (SMA). The research was presented online as part of the 2020 AAN Science Highlights.

SMA results from a mutation in SMN1, which encodes the SMN protein necessary for motor function. Deficiency of this protein causes motor neurons to die, resulting in severe muscle weakness. At 2 years of age, untreated patients with SMA type 1 generally die or require permanent ventilation.

The Food and Drug Administration approved onasemnogene abeparvovec-xioi under the brand name Zolgensma in May 2019. The gene-replacement therapy, which is administered once intravenously, delivers a fully functional copy of human SMN1 into the target motor neuron cells. It is indicated as treatment for SMA in infants younger than 2 years of age.
 

Preliminary STR1VE data

Preliminary data from the phase 3 STR1VE study were scheduled to be presented at the meeting. The open-label, single-arm, single-dose study enrolled symptomatic patients with SMA type 1 (SMA1) at multiple US sites. Enrollment was completed in May 2019.

The study included 10 male patients and 12 female patients. Participants’ mean age at dosing was 3.7 months. Of 19 patients who could have reached age 13.6 months at data cutoff, 17 (89.5%) were surviving without permanent ventilation, compared with a 25% survival rate among untreated patients. One of the 19 patients died, and the event was judged to be unrelated to treatment. Another of the 19 reached a respiratory endpoint or withdrew consent.

The population’s mean baseline Children’s Hospital of Philadelphia Infant Test of Neuromuscular Disorders (CHOP INTEND) score was 32. This score increased by 6.9, 11.7, and 14.3 points at months 1, 3, and 5, respectively. Half of the 22 infants sat independently for 30 or more seconds, and this milestone was achieved at a mean of 8.2 months after treatment. Five of six (83%) patients age 18 months or older sat independently for 30 or more seconds, which was one of the study’s primary endpoints. As of March 8, 2019, treatment-emergent adverse events of special interest were transient and not associated with any sequelae.

The STR1VE study was sponsored by AveXis, the maker of onasemnogene abeparvovec-xioi. Several of the investigators are employees of AveXis, and others received funding from the company.
 

Long-term follow-up in START

Long-term follow-up data for participants in the phase 1/2a START study also were scheduled to be presented. Patients who completed START were eligible to participate, and the trial’s primary aim was to evaluate the long-term safety of onasemnogene abeparvovec-xioi. Patients are intended to have five annual visits, followed by 10 annual phone calls, and the investigators request local physicians or neurologists to transfer patient records. Safety assessments include medical history and record review, physical examination, clinical laboratory evaluation, and pulmonary assessments. Efficacy assessments include evaluation of the maintenance of developmental milestones.

As of May 31, 2019, 13 patients in two cohorts had been enrolled and had had a baseline visit. For patients in Cohort 2, the mean age and time since dosing were 4.2 years and 3.9 years, respectively. All patients in Cohort 2 were alive and did not require permanent ventilation. Participants did not lose any developmental milestones that they had achieved at the end of START. Two patients were able to walk, and two could stand with assistance during long-term follow-up. This result suggests the durability of the treatment’s effect. No new treatment-related serious adverse events or adverse events of special interest had occurred as of March 8, 2019.

“We know from accumulating experience that treating infants by gene therapy is safe,” said Jerry R. Mendell, MD, the principal investigator and an attending neurologist at Nationwide Children’s Hospital in Columbus, Ohio. “Of the 15 patients we had in our first trial, only four adverse events related to the gene delivery were encountered, and only two of these were considered serious adverse events [i.e., liver enzymes that were 10 times greater than normal laboratory levels]. These laboratory tests occurred without accompanying clinical symptoms or signs. All were suppressed by corticosteroids and related to the liver inflammation. This pattern of safety has been seen in our very large gene therapy experience. No long-term surprises were encountered.”

The START study was sponsored by AveXis. Several of the investigators are employees of AveXis, and others received funding from the company.
 

Update on the SPR1NT study

Interim safety and efficacy data from the ongoing SPR1NT study, which includes presymptomatic patients, also were scheduled to be presented. The trial “was built on the basic premise that spinal motor neuron degeneration associated with SMN protein deficiency begins in utero, continues to progress rapidly during the first months of life, and is irreversible,” said Kevin Strauss, MD, medical director of the Clinic for Special Children in Strasburg, Pennsylvania. “SPR1NT leveraged the advantages conferred by carrier testing and newborn screening programs for SMA, which allowed the first 22 children enrolled to have a confirmed molecular diagnosis between 1 and 26 days of postnatal life, before the onset of dysphagia, respiratory compromise, or overt weakness.”

In this multicenter, open-label, phase 3 trial, presymptomatic patients age 6 weeks or younger who are expected to develop SMA receive onasemnogene abeparvovec-xioi once and are evaluated during 18 or 24 months. The primary outcomes are sitting for 30 or more seconds for infants with two copies of SMN2 and standing unassisted for infants with three copies of SMN2.

As of December 31, 2019, 29 infants had been treated in the efficacy group at a mean age of 20.6 days among infants with two copies of SMN2 and 28.7 days among infants with three copies of SMN2. All patients are alive, and no patient in SPR1NT required ventilation support at last visit. Among 14 patients with two copies of SMN2, all achieved CHOP INTEND scores of 50 or greater, which exceeds the maximal score observed in untreated patients. Eight have achieved sitting, seven of whom achieved it within the World Health Organization sitting age range of 3.8-9.2 months. The other six patients have not yet passed the WHO developmental window. Among 15 patients with three copies of SMN2, four stood independently and three walked independently, all within the WHO developmental windows of 6.9-16.9 months and 8.2-17.6 months, respectively. The other patients have not yet passed the WHO developmental window. No patient in either cohort required a feeding tube, and most remained within the normal weight range. Treatment-emergent adverse events of special interest were reported in 16 patients. The study is ongoing, and patients continue to meet primary endpoints.

“Comparing functional and motor indices between these two groups [i.e., patients with two copies of SMN2 and those with three copies] should contribute to our understanding of how motor neuron loss during fetal development may impact long-term neurological outcomes over the arc of life and could even form a basis for considering antenatal gene therapy for severe forms of SMA,” said Dr. Strauss.

SPR1NT was funded by AveXis. Several of the investigators are employees of AveXis, and others received funding from the company.
 

Combination therapy may be a possibility

A benefit of onasemnogene abeparvovec-xioi is that the adeno-associated virus that delivers it does not integrate itself into the genome, said Darryl C. De Vivo, MD, Sidney Carter professor of neurology and professor of pediatrics at Columbia University in New York. “The bad news is that every time the cell divides, the gene therapy goes to one of the two daughter cells, but not to both. ... That means the effectiveness, in theory, would be reduced by 50% with each cell division, possibly affecting the durability of treatment.” The fact that brain and spinal cord neurons are presumed to be fully populated around the time of birth partly mitigates this concern, he added. “There isn’t too much additional cell division going on in neurons after birth at a time when the gene therapy would be administered.”

Furthermore, the cellular distribution of the gene therapy within the nervous system, which is unclear, might affect the therapy’s effect. “These are largely unanswered questions,” said Dr. De Vivo. “The answers to these questions only will come with continued observation of patients who have been treated.”

Considering that nusinersen, the antisense oligonucleotide also approved for SMA, targets SMN2, and the gene therapy replaces SMN1, “there may be some wisdom in thinking about combination therapy,” said Dr. De Vivo. “There’s no doubt that these therapeutic agents are effective,” and continued follow-up will clarify their comparative efficacy, he concluded.

[email protected]

SOURCES: Day JW, et al. AAN 2020. Abstract S27.001. Mendell JR, et al. AAN 2020. Abstract S27.002. Strauss KA, et al. AAN 2020. Abstract S27.003.

Three investigations that had been scheduled for presentation at the annual meeting of the American Academy of Neurology provide further detail about the efficacy and safety of onasemnogene abeparvovec-xioi in patients with spinal muscular atrophy (SMA). The research was presented online as part of the 2020 AAN Science Highlights.

SMA results from a mutation in SMN1, which encodes the SMN protein necessary for motor function. Deficiency of this protein causes motor neurons to die, resulting in severe muscle weakness. At 2 years of age, untreated patients with SMA type 1 generally die or require permanent ventilation.

The Food and Drug Administration approved onasemnogene abeparvovec-xioi under the brand name Zolgensma in May 2019. The gene-replacement therapy, which is administered once intravenously, delivers a fully functional copy of human SMN1 into the target motor neuron cells. It is indicated as treatment for SMA in infants younger than 2 years of age.
 

Preliminary STR1VE data

Preliminary data from the phase 3 STR1VE study were scheduled to be presented at the meeting. The open-label, single-arm, single-dose study enrolled symptomatic patients with SMA type 1 (SMA1) at multiple US sites. Enrollment was completed in May 2019.

The study included 10 male patients and 12 female patients. Participants’ mean age at dosing was 3.7 months. Of 19 patients who could have reached age 13.6 months at data cutoff, 17 (89.5%) were surviving without permanent ventilation, compared with a 25% survival rate among untreated patients. One of the 19 patients died, and the event was judged to be unrelated to treatment. Another of the 19 reached a respiratory endpoint or withdrew consent.

The population’s mean baseline Children’s Hospital of Philadelphia Infant Test of Neuromuscular Disorders (CHOP INTEND) score was 32. This score increased by 6.9, 11.7, and 14.3 points at months 1, 3, and 5, respectively. Half of the 22 infants sat independently for 30 or more seconds, and this milestone was achieved at a mean of 8.2 months after treatment. Five of six (83%) patients age 18 months or older sat independently for 30 or more seconds, which was one of the study’s primary endpoints. As of March 8, 2019, treatment-emergent adverse events of special interest were transient and not associated with any sequelae.

The STR1VE study was sponsored by AveXis, the maker of onasemnogene abeparvovec-xioi. Several of the investigators are employees of AveXis, and others received funding from the company.
 

Long-term follow-up in START

Long-term follow-up data for participants in the phase 1/2a START study also were scheduled to be presented. Patients who completed START were eligible to participate, and the trial’s primary aim was to evaluate the long-term safety of onasemnogene abeparvovec-xioi. Patients are intended to have five annual visits, followed by 10 annual phone calls, and the investigators request local physicians or neurologists to transfer patient records. Safety assessments include medical history and record review, physical examination, clinical laboratory evaluation, and pulmonary assessments. Efficacy assessments include evaluation of the maintenance of developmental milestones.

As of May 31, 2019, 13 patients in two cohorts had been enrolled and had had a baseline visit. For patients in Cohort 2, the mean age and time since dosing were 4.2 years and 3.9 years, respectively. All patients in Cohort 2 were alive and did not require permanent ventilation. Participants did not lose any developmental milestones that they had achieved at the end of START. Two patients were able to walk, and two could stand with assistance during long-term follow-up. This result suggests the durability of the treatment’s effect. No new treatment-related serious adverse events or adverse events of special interest had occurred as of March 8, 2019.

“We know from accumulating experience that treating infants by gene therapy is safe,” said Jerry R. Mendell, MD, the principal investigator and an attending neurologist at Nationwide Children’s Hospital in Columbus, Ohio. “Of the 15 patients we had in our first trial, only four adverse events related to the gene delivery were encountered, and only two of these were considered serious adverse events [i.e., liver enzymes that were 10 times greater than normal laboratory levels]. These laboratory tests occurred without accompanying clinical symptoms or signs. All were suppressed by corticosteroids and related to the liver inflammation. This pattern of safety has been seen in our very large gene therapy experience. No long-term surprises were encountered.”

The START study was sponsored by AveXis. Several of the investigators are employees of AveXis, and others received funding from the company.
 

Update on the SPR1NT study

Interim safety and efficacy data from the ongoing SPR1NT study, which includes presymptomatic patients, also were scheduled to be presented. The trial “was built on the basic premise that spinal motor neuron degeneration associated with SMN protein deficiency begins in utero, continues to progress rapidly during the first months of life, and is irreversible,” said Kevin Strauss, MD, medical director of the Clinic for Special Children in Strasburg, Pennsylvania. “SPR1NT leveraged the advantages conferred by carrier testing and newborn screening programs for SMA, which allowed the first 22 children enrolled to have a confirmed molecular diagnosis between 1 and 26 days of postnatal life, before the onset of dysphagia, respiratory compromise, or overt weakness.”

In this multicenter, open-label, phase 3 trial, presymptomatic patients age 6 weeks or younger who are expected to develop SMA receive onasemnogene abeparvovec-xioi once and are evaluated during 18 or 24 months. The primary outcomes are sitting for 30 or more seconds for infants with two copies of SMN2 and standing unassisted for infants with three copies of SMN2.

As of December 31, 2019, 29 infants had been treated in the efficacy group at a mean age of 20.6 days among infants with two copies of SMN2 and 28.7 days among infants with three copies of SMN2. All patients are alive, and no patient in SPR1NT required ventilation support at last visit. Among 14 patients with two copies of SMN2, all achieved CHOP INTEND scores of 50 or greater, which exceeds the maximal score observed in untreated patients. Eight have achieved sitting, seven of whom achieved it within the World Health Organization sitting age range of 3.8-9.2 months. The other six patients have not yet passed the WHO developmental window. Among 15 patients with three copies of SMN2, four stood independently and three walked independently, all within the WHO developmental windows of 6.9-16.9 months and 8.2-17.6 months, respectively. The other patients have not yet passed the WHO developmental window. No patient in either cohort required a feeding tube, and most remained within the normal weight range. Treatment-emergent adverse events of special interest were reported in 16 patients. The study is ongoing, and patients continue to meet primary endpoints.

“Comparing functional and motor indices between these two groups [i.e., patients with two copies of SMN2 and those with three copies] should contribute to our understanding of how motor neuron loss during fetal development may impact long-term neurological outcomes over the arc of life and could even form a basis for considering antenatal gene therapy for severe forms of SMA,” said Dr. Strauss.

SPR1NT was funded by AveXis. Several of the investigators are employees of AveXis, and others received funding from the company.
 

Combination therapy may be a possibility

A benefit of onasemnogene abeparvovec-xioi is that the adeno-associated virus that delivers it does not integrate itself into the genome, said Darryl C. De Vivo, MD, Sidney Carter professor of neurology and professor of pediatrics at Columbia University in New York. “The bad news is that every time the cell divides, the gene therapy goes to one of the two daughter cells, but not to both. ... That means the effectiveness, in theory, would be reduced by 50% with each cell division, possibly affecting the durability of treatment.” The fact that brain and spinal cord neurons are presumed to be fully populated around the time of birth partly mitigates this concern, he added. “There isn’t too much additional cell division going on in neurons after birth at a time when the gene therapy would be administered.”

Furthermore, the cellular distribution of the gene therapy within the nervous system, which is unclear, might affect the therapy’s effect. “These are largely unanswered questions,” said Dr. De Vivo. “The answers to these questions only will come with continued observation of patients who have been treated.”

Considering that nusinersen, the antisense oligonucleotide also approved for SMA, targets SMN2, and the gene therapy replaces SMN1, “there may be some wisdom in thinking about combination therapy,” said Dr. De Vivo. “There’s no doubt that these therapeutic agents are effective,” and continued follow-up will clarify their comparative efficacy, he concluded.

[email protected]

SOURCES: Day JW, et al. AAN 2020. Abstract S27.001. Mendell JR, et al. AAN 2020. Abstract S27.002. Strauss KA, et al. AAN 2020. Abstract S27.003.

Researchers have identified Ras-guanine nucleotide-releasing factor 1 (RasGRP1) as a cause of L-DOPA–induced dyskinesia (LID) in patients with Parkinson’s disease. The conclusion is based on animal studies that were published May 1 in Science Advances. “These studies show that, if we can downregulate RasGRP1 signaling before dopamine replacement, we have an opportunity to greatly improve [patients’] quality of life,” said Srinivasa Subramaniam, PhD, of the department of neuroscience at Scripps Research in Jupiter, Fla., in a press release. Dr. Subramaniam is one of the investigators.

Parkinson’s disease results from the loss of substantia nigral projections neurons, which causes decreased levels of dopamine in the dorsal striatum. Treatment with L-DOPA reduces the disease’s motor symptoms effectively, but ultimately leads to the onset of LID. Previous data suggest that LID results from the abnormal activation of dopamine-1 (D₁)–dependent cyclic adenosine 3´,5´-monophosphate (cAMP)/protein kinase A (PKA), extracellular signal–regulated kinase (ERK), and mammalian target of rapamycin kinase complex 1 (mTORC1) signaling in the dorsal striatum.
 

Animal and biochemical data

Based on earlier animal studies, Dr. Subramaniam and colleagues hypothesized that RasGRP1 might regulate LID. To test this theory, the investigators created lesions in wild-type and RasGRP1 knockout mice to create models of Parkinson’s disease. The investigators saw similar Parkinsonian symptoms in both groups of mice on the drag, rotarod, turning, and open-field tests. After all mice received daily treatment with L-DOPA, RasGRP1 knockout mice had significantly fewer abnormal involuntary movements, compared with the wild-type mice. All aspects of dyskinesia appeared to be equally dampened in the knockout mice.

To analyze whether RasGRP1 deletion affected the efficacy of L-DOPA, the investigators subjected the treated mice to motor tests. Parkinsonian symptoms were decreased among wild-type and knockout mice on the drag and turning tests. “RasGRP1 promoted the adverse effects of L-DOPA but did not interfere with its therapeutic motor effects,” the investigators wrote. Compared with the wild-type mice, the knockout mice had no changes in basal motor behavior or coordination or amphetamine-induced motor activity.

In addition, Dr. Subramaniam and colleagues observed that RasGRP1 levels were increased in the striatum after L-DOPA injection, but not after injection of vehicle control. This and other biochemical findings indicated that striatal RasGRP1 is upregulated in an L-DOPA–dependent manner and is causally linked to the development of LID, according to the investigators.

Other observations indicated that RasGRP1 physiologically activates mTORC1 signaling, which contributes to LID. Using liquid chromatography and mass spectrometry, Dr. Subramaniam and colleagues saw that RasGRP1 acts upstream in response to L-DOPA and regulates a specific and diverse group of proteins to promote LID. When they examined a nonhuman primate model of Parkinson’s disease, they noted similar findings.
 

New therapeutic targets

“There is an immediate need for new therapeutic targets to stop LID ... in Parkinson’s disease,” said Dr. Subramaniam in a press release. “The treatments now available work poorly and have many additional unwanted side effects. We believe this [study] represents an important step toward better options for people with Parkinson’s disease.”

Future research should attempt to identify the best method of selectively reducing expression of RasGRP1 in the striatum without affecting its expression in other areas of the body, according to Dr. Subramaniam. “The good news is that in mice a total lack of RasGRP1 is not lethal, so we think that blocking RasGRP1 with drugs, or even with gene therapy, may have very few or no major side effects.”

The study was funded by grants from the National Institutes of Health. The investigators reported no conflicts of interest.

[email protected]

SOURCE: Eshraghi M et al. Sci Adv. 2020;6:eaaz7001.

Researchers have identified Ras-guanine nucleotide-releasing factor 1 (RasGRP1) as a cause of L-DOPA–induced dyskinesia (LID) in patients with Parkinson’s disease. The conclusion is based on animal studies that were published May 1 in Science Advances. “These studies show that, if we can downregulate RasGRP1 signaling before dopamine replacement, we have an opportunity to greatly improve [patients’] quality of life,” said Srinivasa Subramaniam, PhD, of the department of neuroscience at Scripps Research in Jupiter, Fla., in a press release. Dr. Subramaniam is one of the investigators.

Parkinson’s disease results from the loss of substantia nigral projections neurons, which causes decreased levels of dopamine in the dorsal striatum. Treatment with L-DOPA reduces the disease’s motor symptoms effectively, but ultimately leads to the onset of LID. Previous data suggest that LID results from the abnormal activation of dopamine-1 (D₁)–dependent cyclic adenosine 3´,5´-monophosphate (cAMP)/protein kinase A (PKA), extracellular signal–regulated kinase (ERK), and mammalian target of rapamycin kinase complex 1 (mTORC1) signaling in the dorsal striatum.
 

Animal and biochemical data

Based on earlier animal studies, Dr. Subramaniam and colleagues hypothesized that RasGRP1 might regulate LID. To test this theory, the investigators created lesions in wild-type and RasGRP1 knockout mice to create models of Parkinson’s disease. The investigators saw similar Parkinsonian symptoms in both groups of mice on the drag, rotarod, turning, and open-field tests. After all mice received daily treatment with L-DOPA, RasGRP1 knockout mice had significantly fewer abnormal involuntary movements, compared with the wild-type mice. All aspects of dyskinesia appeared to be equally dampened in the knockout mice.

To analyze whether RasGRP1 deletion affected the efficacy of L-DOPA, the investigators subjected the treated mice to motor tests. Parkinsonian symptoms were decreased among wild-type and knockout mice on the drag and turning tests. “RasGRP1 promoted the adverse effects of L-DOPA but did not interfere with its therapeutic motor effects,” the investigators wrote. Compared with the wild-type mice, the knockout mice had no changes in basal motor behavior or coordination or amphetamine-induced motor activity.

In addition, Dr. Subramaniam and colleagues observed that RasGRP1 levels were increased in the striatum after L-DOPA injection, but not after injection of vehicle control. This and other biochemical findings indicated that striatal RasGRP1 is upregulated in an L-DOPA–dependent manner and is causally linked to the development of LID, according to the investigators.

Other observations indicated that RasGRP1 physiologically activates mTORC1 signaling, which contributes to LID. Using liquid chromatography and mass spectrometry, Dr. Subramaniam and colleagues saw that RasGRP1 acts upstream in response to L-DOPA and regulates a specific and diverse group of proteins to promote LID. When they examined a nonhuman primate model of Parkinson’s disease, they noted similar findings.
 

New therapeutic targets

“There is an immediate need for new therapeutic targets to stop LID ... in Parkinson’s disease,” said Dr. Subramaniam in a press release. “The treatments now available work poorly and have many additional unwanted side effects. We believe this [study] represents an important step toward better options for people with Parkinson’s disease.”

Future research should attempt to identify the best method of selectively reducing expression of RasGRP1 in the striatum without affecting its expression in other areas of the body, according to Dr. Subramaniam. “The good news is that in mice a total lack of RasGRP1 is not lethal, so we think that blocking RasGRP1 with drugs, or even with gene therapy, may have very few or no major side effects.”

The study was funded by grants from the National Institutes of Health. The investigators reported no conflicts of interest.

[email protected]

SOURCE: Eshraghi M et al. Sci Adv. 2020;6:eaaz7001.

Researchers have identified Ras-guanine nucleotide-releasing factor 1 (RasGRP1) as a cause of L-DOPA–induced dyskinesia (LID) in patients with Parkinson’s disease. The conclusion is based on animal studies that were published May 1 in Science Advances. “These studies show that, if we can downregulate RasGRP1 signaling before dopamine replacement, we have an opportunity to greatly improve [patients’] quality of life,” said Srinivasa Subramaniam, PhD, of the department of neuroscience at Scripps Research in Jupiter, Fla., in a press release. Dr. Subramaniam is one of the investigators.

Parkinson’s disease results from the loss of substantia nigral projections neurons, which causes decreased levels of dopamine in the dorsal striatum. Treatment with L-DOPA reduces the disease’s motor symptoms effectively, but ultimately leads to the onset of LID. Previous data suggest that LID results from the abnormal activation of dopamine-1 (D₁)–dependent cyclic adenosine 3´,5´-monophosphate (cAMP)/protein kinase A (PKA), extracellular signal–regulated kinase (ERK), and mammalian target of rapamycin kinase complex 1 (mTORC1) signaling in the dorsal striatum.
 

Animal and biochemical data

Based on earlier animal studies, Dr. Subramaniam and colleagues hypothesized that RasGRP1 might regulate LID. To test this theory, the investigators created lesions in wild-type and RasGRP1 knockout mice to create models of Parkinson’s disease. The investigators saw similar Parkinsonian symptoms in both groups of mice on the drag, rotarod, turning, and open-field tests. After all mice received daily treatment with L-DOPA, RasGRP1 knockout mice had significantly fewer abnormal involuntary movements, compared with the wild-type mice. All aspects of dyskinesia appeared to be equally dampened in the knockout mice.

To analyze whether RasGRP1 deletion affected the efficacy of L-DOPA, the investigators subjected the treated mice to motor tests. Parkinsonian symptoms were decreased among wild-type and knockout mice on the drag and turning tests. “RasGRP1 promoted the adverse effects of L-DOPA but did not interfere with its therapeutic motor effects,” the investigators wrote. Compared with the wild-type mice, the knockout mice had no changes in basal motor behavior or coordination or amphetamine-induced motor activity.

In addition, Dr. Subramaniam and colleagues observed that RasGRP1 levels were increased in the striatum after L-DOPA injection, but not after injection of vehicle control. This and other biochemical findings indicated that striatal RasGRP1 is upregulated in an L-DOPA–dependent manner and is causally linked to the development of LID, according to the investigators.

Other observations indicated that RasGRP1 physiologically activates mTORC1 signaling, which contributes to LID. Using liquid chromatography and mass spectrometry, Dr. Subramaniam and colleagues saw that RasGRP1 acts upstream in response to L-DOPA and regulates a specific and diverse group of proteins to promote LID. When they examined a nonhuman primate model of Parkinson’s disease, they noted similar findings.
 

New therapeutic targets

“There is an immediate need for new therapeutic targets to stop LID ... in Parkinson’s disease,” said Dr. Subramaniam in a press release. “The treatments now available work poorly and have many additional unwanted side effects. We believe this [study] represents an important step toward better options for people with Parkinson’s disease.”

Future research should attempt to identify the best method of selectively reducing expression of RasGRP1 in the striatum without affecting its expression in other areas of the body, according to Dr. Subramaniam. “The good news is that in mice a total lack of RasGRP1 is not lethal, so we think that blocking RasGRP1 with drugs, or even with gene therapy, may have very few or no major side effects.”

The study was funded by grants from the National Institutes of Health. The investigators reported no conflicts of interest.

[email protected]

SOURCE: Eshraghi M et al. Sci Adv. 2020;6:eaaz7001.

Among patients with migraine, increase in the number of treatment failures is associated with increase in economic burden, researchers wrote. Utilization of health care resources and associated costs are greater among patients with three or more treatment failures, compared with patients with fewer treatment failures. This research was presented online as part of the 2020 American Academy of Neurology Science Highlights.

Migraine entails a significant economic burden, including direct costs (e.g., medical costs) and indirect costs (e.g., lost productivity). Information about the burden associated with failed preventive treatments among migraineurs is limited, however. Lawrence C. Newman, MD, director of the division of headache at NYU Langone Health in New York, and colleagues conducted a study to characterize health care resource utilization (HCRU) and its associated costs among migraineurs, stratified by the number of preventive treatment failures.
 

About one quarter of patients had two treatment failures

Using data from the IBM MarketScan Commercial and Medicare Supplemental database, Dr. Newman and colleagues identified patients who received a new diagnosis of migraine between Jan. 1, 2011, and June 30, 2015. Next, they identified the number of treatment failures during the 2 years following the initial migraine diagnosis. They assessed HCRU and associated costs during the 12 months following an index event. The index was the date of initiation of the second preventive treatment for patients with one treatment failure, the date of initiation of the third treatment for patients with two treatment failures, and the date of initiation of the fourth treatment for patients with three or more treatment failures.

Dr. Newman’s group identified 44,181 patients with incident migraine who had failed preventive treatments. Of this population, 27,112 patients (61.4%) had one treatment failure, 10,583 (24%) had two treatment failures, and 6,486 (14.7%) had three or more treatment failures.

The total medical cost per patient, including emergency room (ER), inpatient (IP), and outpatient (OP) care, increased with increasing number of treatment failures ($10,329 for one, $13,774 for two, and $35,392 for three or more). When the investigators added prescription drug costs, the total health care costs also increased with number of treatment failures ($13,946 for one, $18,685 for two, and $41,864 for three or more).

Similarly, the per-patient annual health care provider visits increased with increasing numbers of treatment failures. The number of ER visits per year was 0.54, 0.69, and 1.02 for patients with one, two, and three or more treatment failures, respectively. The annual number of IP visits was 0.46, 0.59, and 0.97, for patients with one, two, and three or more treatment failures, respectively. OP visits showed a similar trend. The annual number of office visits was 9.47 for patients with one, 11.24 for patients with two, and 14.26 for patients with three or more treatment failures. The annual number of other visits was 13.15 for patients with one, 15.73 for patients with two, and 19.96 for patients with three or more treatment failures.
 

Guidelines could enable appropriate treatment

Reasons for treatment failure include misdiagnosis of the headache disorder, failure to identify and account for comorbidities, overlooking concurrent acute medication overuse, and inappropriate dose or formulation, said Dr. Newman. “Common pitfalls in prevention that lead to treatment failure include not using evidence-based treatments, starting at too low of a dose and not increasing, starting too high or increasing the dose too quickly, discontinuing the medication before an effect can be seen (before 8 weeks), patient nonadherence, and not establishing realistic expectations.”

Available resources could help clinicians treat migraine effectively. “The American Headache Society (AHS)/AAN preventive guidelines have been retired, yet they offered several levels of effectiveness of pharmacologic treatments that were evidence-based,” said Dr. Newman. “Furthermore, in 2019, the AHS published a consensus statement on integrating new migraine treatments into clinical practice. This statement offered advice about the new anti-CGRP agents, onabotulinum toxin, and neuromodulation devices. I think this is a good starting point for neurologists to be familiar with to choose appropriate therapeutic options for people living with migraine.”
 

Earlier treatment may reduce patients’ economic burden

The study’s weaknesses included its observational design and its reliance on diagnostic codes, which raised the possibility that comorbidities were inadequately recognized, said Dr. Newman. The reasons that patients changed medications are unknown, and the results are not generalizable to patients aged 65 years or older, he added.

Major strengths of Dr. Newman’s study are its large sample size and wealth of available data, said Alan M. Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles. “The multiple subcategories suggest that this was a carefully organized and implemented study,” he added. If any diagnoses of migraine were provided by general practitioners with little knowledge of migraine, this would weaken the study, said Dr. Rapoport, editor-in-chief of Neurology Reviews.

“We can ease the economic burden of migraineurs by improving acute care therapy with better selection and earlier starting of effective preventive therapy,” he continued. “Going for migraine-specific acute care therapy is better than pain medications or other nonspecific therapies. If you do not stop a migraine attack with effective therapy, you increase the odds that the patient will go on to chronic migraine. It is always important to effectively teach doctors and nurses to improve their diagnostic skills and use the optimal acute and preventive therapy.” For their next trial, maximizing an accurate diagnosis and performing a prospective study measuring treatment outcomes will be particularly valuable, Dr. Rapoport concluded.

Dr. Newman’s study was supported by Novartis Pharma in Basel, Switzerland. Together with Amgen, Novartis developed erenumab. Dr. Newman has received compensation from Allergan, Alder, Amgen, Biohaven, Novartis, Teva, Supernus, and Theranica for consulting, serving on a scientific advisory board, speaking, or other activities. He has received compensation from Springer Scientific for editorial services.

[email protected]

SOURCE: Newman L et al. AAN 2020, Abstract S47.009.

Among patients with migraine, increase in the number of treatment failures is associated with increase in economic burden, researchers wrote. Utilization of health care resources and associated costs are greater among patients with three or more treatment failures, compared with patients with fewer treatment failures. This research was presented online as part of the 2020 American Academy of Neurology Science Highlights.

Migraine entails a significant economic burden, including direct costs (e.g., medical costs) and indirect costs (e.g., lost productivity). Information about the burden associated with failed preventive treatments among migraineurs is limited, however. Lawrence C. Newman, MD, director of the division of headache at NYU Langone Health in New York, and colleagues conducted a study to characterize health care resource utilization (HCRU) and its associated costs among migraineurs, stratified by the number of preventive treatment failures.
 

About one quarter of patients had two treatment failures

Using data from the IBM MarketScan Commercial and Medicare Supplemental database, Dr. Newman and colleagues identified patients who received a new diagnosis of migraine between Jan. 1, 2011, and June 30, 2015. Next, they identified the number of treatment failures during the 2 years following the initial migraine diagnosis. They assessed HCRU and associated costs during the 12 months following an index event. The index was the date of initiation of the second preventive treatment for patients with one treatment failure, the date of initiation of the third treatment for patients with two treatment failures, and the date of initiation of the fourth treatment for patients with three or more treatment failures.

Dr. Newman’s group identified 44,181 patients with incident migraine who had failed preventive treatments. Of this population, 27,112 patients (61.4%) had one treatment failure, 10,583 (24%) had two treatment failures, and 6,486 (14.7%) had three or more treatment failures.

The total medical cost per patient, including emergency room (ER), inpatient (IP), and outpatient (OP) care, increased with increasing number of treatment failures ($10,329 for one, $13,774 for two, and $35,392 for three or more). When the investigators added prescription drug costs, the total health care costs also increased with number of treatment failures ($13,946 for one, $18,685 for two, and $41,864 for three or more).

Similarly, the per-patient annual health care provider visits increased with increasing numbers of treatment failures. The number of ER visits per year was 0.54, 0.69, and 1.02 for patients with one, two, and three or more treatment failures, respectively. The annual number of IP visits was 0.46, 0.59, and 0.97, for patients with one, two, and three or more treatment failures, respectively. OP visits showed a similar trend. The annual number of office visits was 9.47 for patients with one, 11.24 for patients with two, and 14.26 for patients with three or more treatment failures. The annual number of other visits was 13.15 for patients with one, 15.73 for patients with two, and 19.96 for patients with three or more treatment failures.
 

Guidelines could enable appropriate treatment

Reasons for treatment failure include misdiagnosis of the headache disorder, failure to identify and account for comorbidities, overlooking concurrent acute medication overuse, and inappropriate dose or formulation, said Dr. Newman. “Common pitfalls in prevention that lead to treatment failure include not using evidence-based treatments, starting at too low of a dose and not increasing, starting too high or increasing the dose too quickly, discontinuing the medication before an effect can be seen (before 8 weeks), patient nonadherence, and not establishing realistic expectations.”

Available resources could help clinicians treat migraine effectively. “The American Headache Society (AHS)/AAN preventive guidelines have been retired, yet they offered several levels of effectiveness of pharmacologic treatments that were evidence-based,” said Dr. Newman. “Furthermore, in 2019, the AHS published a consensus statement on integrating new migraine treatments into clinical practice. This statement offered advice about the new anti-CGRP agents, onabotulinum toxin, and neuromodulation devices. I think this is a good starting point for neurologists to be familiar with to choose appropriate therapeutic options for people living with migraine.”
 

Earlier treatment may reduce patients’ economic burden

The study’s weaknesses included its observational design and its reliance on diagnostic codes, which raised the possibility that comorbidities were inadequately recognized, said Dr. Newman. The reasons that patients changed medications are unknown, and the results are not generalizable to patients aged 65 years or older, he added.

Major strengths of Dr. Newman’s study are its large sample size and wealth of available data, said Alan M. Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles. “The multiple subcategories suggest that this was a carefully organized and implemented study,” he added. If any diagnoses of migraine were provided by general practitioners with little knowledge of migraine, this would weaken the study, said Dr. Rapoport, editor-in-chief of Neurology Reviews.

“We can ease the economic burden of migraineurs by improving acute care therapy with better selection and earlier starting of effective preventive therapy,” he continued. “Going for migraine-specific acute care therapy is better than pain medications or other nonspecific therapies. If you do not stop a migraine attack with effective therapy, you increase the odds that the patient will go on to chronic migraine. It is always important to effectively teach doctors and nurses to improve their diagnostic skills and use the optimal acute and preventive therapy.” For their next trial, maximizing an accurate diagnosis and performing a prospective study measuring treatment outcomes will be particularly valuable, Dr. Rapoport concluded.

Dr. Newman’s study was supported by Novartis Pharma in Basel, Switzerland. Together with Amgen, Novartis developed erenumab. Dr. Newman has received compensation from Allergan, Alder, Amgen, Biohaven, Novartis, Teva, Supernus, and Theranica for consulting, serving on a scientific advisory board, speaking, or other activities. He has received compensation from Springer Scientific for editorial services.

[email protected]

SOURCE: Newman L et al. AAN 2020, Abstract S47.009.

Among patients with migraine, increase in the number of treatment failures is associated with increase in economic burden, researchers wrote. Utilization of health care resources and associated costs are greater among patients with three or more treatment failures, compared with patients with fewer treatment failures. This research was presented online as part of the 2020 American Academy of Neurology Science Highlights.

Migraine entails a significant economic burden, including direct costs (e.g., medical costs) and indirect costs (e.g., lost productivity). Information about the burden associated with failed preventive treatments among migraineurs is limited, however. Lawrence C. Newman, MD, director of the division of headache at NYU Langone Health in New York, and colleagues conducted a study to characterize health care resource utilization (HCRU) and its associated costs among migraineurs, stratified by the number of preventive treatment failures.
 

About one quarter of patients had two treatment failures

Using data from the IBM MarketScan Commercial and Medicare Supplemental database, Dr. Newman and colleagues identified patients who received a new diagnosis of migraine between Jan. 1, 2011, and June 30, 2015. Next, they identified the number of treatment failures during the 2 years following the initial migraine diagnosis. They assessed HCRU and associated costs during the 12 months following an index event. The index was the date of initiation of the second preventive treatment for patients with one treatment failure, the date of initiation of the third treatment for patients with two treatment failures, and the date of initiation of the fourth treatment for patients with three or more treatment failures.

Dr. Newman’s group identified 44,181 patients with incident migraine who had failed preventive treatments. Of this population, 27,112 patients (61.4%) had one treatment failure, 10,583 (24%) had two treatment failures, and 6,486 (14.7%) had three or more treatment failures.

The total medical cost per patient, including emergency room (ER), inpatient (IP), and outpatient (OP) care, increased with increasing number of treatment failures ($10,329 for one, $13,774 for two, and $35,392 for three or more). When the investigators added prescription drug costs, the total health care costs also increased with number of treatment failures ($13,946 for one, $18,685 for two, and $41,864 for three or more).

Similarly, the per-patient annual health care provider visits increased with increasing numbers of treatment failures. The number of ER visits per year was 0.54, 0.69, and 1.02 for patients with one, two, and three or more treatment failures, respectively. The annual number of IP visits was 0.46, 0.59, and 0.97, for patients with one, two, and three or more treatment failures, respectively. OP visits showed a similar trend. The annual number of office visits was 9.47 for patients with one, 11.24 for patients with two, and 14.26 for patients with three or more treatment failures. The annual number of other visits was 13.15 for patients with one, 15.73 for patients with two, and 19.96 for patients with three or more treatment failures.
 

Guidelines could enable appropriate treatment

Reasons for treatment failure include misdiagnosis of the headache disorder, failure to identify and account for comorbidities, overlooking concurrent acute medication overuse, and inappropriate dose or formulation, said Dr. Newman. “Common pitfalls in prevention that lead to treatment failure include not using evidence-based treatments, starting at too low of a dose and not increasing, starting too high or increasing the dose too quickly, discontinuing the medication before an effect can be seen (before 8 weeks), patient nonadherence, and not establishing realistic expectations.”

Available resources could help clinicians treat migraine effectively. “The American Headache Society (AHS)/AAN preventive guidelines have been retired, yet they offered several levels of effectiveness of pharmacologic treatments that were evidence-based,” said Dr. Newman. “Furthermore, in 2019, the AHS published a consensus statement on integrating new migraine treatments into clinical practice. This statement offered advice about the new anti-CGRP agents, onabotulinum toxin, and neuromodulation devices. I think this is a good starting point for neurologists to be familiar with to choose appropriate therapeutic options for people living with migraine.”
 

Earlier treatment may reduce patients’ economic burden

The study’s weaknesses included its observational design and its reliance on diagnostic codes, which raised the possibility that comorbidities were inadequately recognized, said Dr. Newman. The reasons that patients changed medications are unknown, and the results are not generalizable to patients aged 65 years or older, he added.

Major strengths of Dr. Newman’s study are its large sample size and wealth of available data, said Alan M. Rapoport, MD, clinical professor of neurology at the University of California, Los Angeles. “The multiple subcategories suggest that this was a carefully organized and implemented study,” he added. If any diagnoses of migraine were provided by general practitioners with little knowledge of migraine, this would weaken the study, said Dr. Rapoport, editor-in-chief of Neurology Reviews.

“We can ease the economic burden of migraineurs by improving acute care therapy with better selection and earlier starting of effective preventive therapy,” he continued. “Going for migraine-specific acute care therapy is better than pain medications or other nonspecific therapies. If you do not stop a migraine attack with effective therapy, you increase the odds that the patient will go on to chronic migraine. It is always important to effectively teach doctors and nurses to improve their diagnostic skills and use the optimal acute and preventive therapy.” For their next trial, maximizing an accurate diagnosis and performing a prospective study measuring treatment outcomes will be particularly valuable, Dr. Rapoport concluded.

Dr. Newman’s study was supported by Novartis Pharma in Basel, Switzerland. Together with Amgen, Novartis developed erenumab. Dr. Newman has received compensation from Allergan, Alder, Amgen, Biohaven, Novartis, Teva, Supernus, and Theranica for consulting, serving on a scientific advisory board, speaking, or other activities. He has received compensation from Springer Scientific for editorial services.

[email protected]

SOURCE: Newman L et al. AAN 2020, Abstract S47.009.

Head injury before the onset of Parkinson’s disease is associated with more severe motor and nonmotor phenotypes, according to research presented online as part of the 2020 American Academy of Neurology Science Highlights.

Neurologists have identified various phenotypes among patients with Parkinson’s disease; however, the factors that determine these phenotypes, which may include genetic and environmental variables, are poorly understood. Ethan G. Brown, MD, assistant professor of neurology at the University of California, San Francisco, and colleagues hypothesized that head injury, which is a risk factor for Parkinson’s disease, would be associated with a more severe phenotype.

“Head injury is a risk factor for other conditions that involve cognitive impairment,” said Dr. Brown. “The mechanisms of how head injury contributes to neurodegenerative disease are not clear, but may be related to the initiation of an inflammatory cascade that can have a long-term, chronic effect. We hypothesized that these long-term sequelae may contribute to symptoms in Parkinson’s disease.”
 

An analysis of data from two cohorts

The researchers examined the relationship between head injury and clinical features by analyzing data for two cohorts of patients with Parkinson’s disease. Through an online survey, the investigators elicited information about head injury and other exposures from participants in the Parkinson’s Progression Markers Initiative (PPMI) and the Fox Insight (FI) study. Dr. Brown and colleagues determined disease phenotypes for participants in PPMI using baseline Movement Disorder Society-Unified Parkinson’s Disease Rating Scale (MDS-UPDRS) score and 5-year change in Montreal Cognitive Assessment score. For participants in FI, the researchers determined phenotypes using baseline self-reported MDS-UPDRS-II score and self-reported cognitive impairment. They used parametric and nonparametric tests as appropriate and adjusted the results for age, sex, and smoking history.

In all, 267 participants with Parkinson’s disease in PPMI and 25,308 in FI submitted information about head injury. In the PPMI cohort, head injury before Parkinson’s disease diagnosis was associated with greater nonmotor symptom burden at enrollment. The mean MDS-UPDRS-I score was 7.73 among participants with any injury, compared with 6.19 among participants with no injury. Similarly, the mean MDS-UPDRS-I score was 8.29 among participants with severe head injury, compared with 6.19 among participants with no injury. Motor symptoms were worse among participants with severe injury (MDS-UPDRS-II score, 8.35). Among 110 participants who were followed for 5 years, patients who reported severe head injury before diagnosis had a decline in cognitive function. The mean change in Montreal Cognitive Assessment score was –0.60 for patients with severe head injury and 0.76 in those with no head injury.

“The improvement from baseline in the participants with Parkinson’s disease but without head injury was small and not statistically significant,” said Dr. Brown. The increase could have resulted from practice effect, although it is not certain, he added. “We are continuing to evaluate other, more sensitive tests of cognitive impairment to try to understand these results more completely in this population.”

In the FI cohort, participants who reported a prior head injury had more motor symptoms (MDS-UPDRS-II, 14.4), compared with those without head injury (MDS-UPDRS-II, 12.1). Also, the risk of self-reported cognitive impairment was elevated in participants who reported head injury (odds ratio, 1.58).

“The results most affected by the self-reported nature of [the] FI [data] are the cognitive impairment results,” said Dr. Brown. “Subjective cognitive impairment ... is very different from objective cognitive impairment, which could be measured through in-person testing in the PPMI cohort. Many factors may contribute to noticing cognitive decline, some of which can be measured and controlled for, but some cannot. There may be a correlation between subjective cognitive decline and true cognitive impairment, but this has not been fully studied in Parkinson’s disease.”
 

The search for the underlying mechanism

Clarifying whether the relationship between head injury and Parkinson’s disease phenotype is causal or whether falling is an early indication of worse symptoms will require more longitudinal data. “We would like to further characterize the differences between people with Parkinson’s disease with and without a history of head injury,” said Dr. Brown. “More detailed understanding of these phenotypic differences could point to an underlying mechanism, or whether or not other comorbid conditions are involved. We would also like to understand whether genetics plays a role.”

The PPMI and FI studies are funded by the Michael J. Fox Foundation. Dr. Brown has received compensation from HiOscar, NEJM Knowledge Plus, and Rune Labs and has received research support from Gateway Institute for Brain Research.

[email protected]

SOURCE: Brown EG et al. AAN 2020, Abstract S17.002.

Head injury before the onset of Parkinson’s disease is associated with more severe motor and nonmotor phenotypes, according to research presented online as part of the 2020 American Academy of Neurology Science Highlights.

Neurologists have identified various phenotypes among patients with Parkinson’s disease; however, the factors that determine these phenotypes, which may include genetic and environmental variables, are poorly understood. Ethan G. Brown, MD, assistant professor of neurology at the University of California, San Francisco, and colleagues hypothesized that head injury, which is a risk factor for Parkinson’s disease, would be associated with a more severe phenotype.

“Head injury is a risk factor for other conditions that involve cognitive impairment,” said Dr. Brown. “The mechanisms of how head injury contributes to neurodegenerative disease are not clear, but may be related to the initiation of an inflammatory cascade that can have a long-term, chronic effect. We hypothesized that these long-term sequelae may contribute to symptoms in Parkinson’s disease.”
 

An analysis of data from two cohorts

The researchers examined the relationship between head injury and clinical features by analyzing data for two cohorts of patients with Parkinson’s disease. Through an online survey, the investigators elicited information about head injury and other exposures from participants in the Parkinson’s Progression Markers Initiative (PPMI) and the Fox Insight (FI) study. Dr. Brown and colleagues determined disease phenotypes for participants in PPMI using baseline Movement Disorder Society-Unified Parkinson’s Disease Rating Scale (MDS-UPDRS) score and 5-year change in Montreal Cognitive Assessment score. For participants in FI, the researchers determined phenotypes using baseline self-reported MDS-UPDRS-II score and self-reported cognitive impairment. They used parametric and nonparametric tests as appropriate and adjusted the results for age, sex, and smoking history.

In all, 267 participants with Parkinson’s disease in PPMI and 25,308 in FI submitted information about head injury. In the PPMI cohort, head injury before Parkinson’s disease diagnosis was associated with greater nonmotor symptom burden at enrollment. The mean MDS-UPDRS-I score was 7.73 among participants with any injury, compared with 6.19 among participants with no injury. Similarly, the mean MDS-UPDRS-I score was 8.29 among participants with severe head injury, compared with 6.19 among participants with no injury. Motor symptoms were worse among participants with severe injury (MDS-UPDRS-II score, 8.35). Among 110 participants who were followed for 5 years, patients who reported severe head injury before diagnosis had a decline in cognitive function. The mean change in Montreal Cognitive Assessment score was –0.60 for patients with severe head injury and 0.76 in those with no head injury.

“The improvement from baseline in the participants with Parkinson’s disease but without head injury was small and not statistically significant,” said Dr. Brown. The increase could have resulted from practice effect, although it is not certain, he added. “We are continuing to evaluate other, more sensitive tests of cognitive impairment to try to understand these results more completely in this population.”

In the FI cohort, participants who reported a prior head injury had more motor symptoms (MDS-UPDRS-II, 14.4), compared with those without head injury (MDS-UPDRS-II, 12.1). Also, the risk of self-reported cognitive impairment was elevated in participants who reported head injury (odds ratio, 1.58).

“The results most affected by the self-reported nature of [the] FI [data] are the cognitive impairment results,” said Dr. Brown. “Subjective cognitive impairment ... is very different from objective cognitive impairment, which could be measured through in-person testing in the PPMI cohort. Many factors may contribute to noticing cognitive decline, some of which can be measured and controlled for, but some cannot. There may be a correlation between subjective cognitive decline and true cognitive impairment, but this has not been fully studied in Parkinson’s disease.”
 

The search for the underlying mechanism

Clarifying whether the relationship between head injury and Parkinson’s disease phenotype is causal or whether falling is an early indication of worse symptoms will require more longitudinal data. “We would like to further characterize the differences between people with Parkinson’s disease with and without a history of head injury,” said Dr. Brown. “More detailed understanding of these phenotypic differences could point to an underlying mechanism, or whether or not other comorbid conditions are involved. We would also like to understand whether genetics plays a role.”

The PPMI and FI studies are funded by the Michael J. Fox Foundation. Dr. Brown has received compensation from HiOscar, NEJM Knowledge Plus, and Rune Labs and has received research support from Gateway Institute for Brain Research.

[email protected]

SOURCE: Brown EG et al. AAN 2020, Abstract S17.002.

Head injury before the onset of Parkinson’s disease is associated with more severe motor and nonmotor phenotypes, according to research presented online as part of the 2020 American Academy of Neurology Science Highlights.

Neurologists have identified various phenotypes among patients with Parkinson’s disease; however, the factors that determine these phenotypes, which may include genetic and environmental variables, are poorly understood. Ethan G. Brown, MD, assistant professor of neurology at the University of California, San Francisco, and colleagues hypothesized that head injury, which is a risk factor for Parkinson’s disease, would be associated with a more severe phenotype.

“Head injury is a risk factor for other conditions that involve cognitive impairment,” said Dr. Brown. “The mechanisms of how head injury contributes to neurodegenerative disease are not clear, but may be related to the initiation of an inflammatory cascade that can have a long-term, chronic effect. We hypothesized that these long-term sequelae may contribute to symptoms in Parkinson’s disease.”
 

An analysis of data from two cohorts

The researchers examined the relationship between head injury and clinical features by analyzing data for two cohorts of patients with Parkinson’s disease. Through an online survey, the investigators elicited information about head injury and other exposures from participants in the Parkinson’s Progression Markers Initiative (PPMI) and the Fox Insight (FI) study. Dr. Brown and colleagues determined disease phenotypes for participants in PPMI using baseline Movement Disorder Society-Unified Parkinson’s Disease Rating Scale (MDS-UPDRS) score and 5-year change in Montreal Cognitive Assessment score. For participants in FI, the researchers determined phenotypes using baseline self-reported MDS-UPDRS-II score and self-reported cognitive impairment. They used parametric and nonparametric tests as appropriate and adjusted the results for age, sex, and smoking history.

In all, 267 participants with Parkinson’s disease in PPMI and 25,308 in FI submitted information about head injury. In the PPMI cohort, head injury before Parkinson’s disease diagnosis was associated with greater nonmotor symptom burden at enrollment. The mean MDS-UPDRS-I score was 7.73 among participants with any injury, compared with 6.19 among participants with no injury. Similarly, the mean MDS-UPDRS-I score was 8.29 among participants with severe head injury, compared with 6.19 among participants with no injury. Motor symptoms were worse among participants with severe injury (MDS-UPDRS-II score, 8.35). Among 110 participants who were followed for 5 years, patients who reported severe head injury before diagnosis had a decline in cognitive function. The mean change in Montreal Cognitive Assessment score was –0.60 for patients with severe head injury and 0.76 in those with no head injury.

“The improvement from baseline in the participants with Parkinson’s disease but without head injury was small and not statistically significant,” said Dr. Brown. The increase could have resulted from practice effect, although it is not certain, he added. “We are continuing to evaluate other, more sensitive tests of cognitive impairment to try to understand these results more completely in this population.”

In the FI cohort, participants who reported a prior head injury had more motor symptoms (MDS-UPDRS-II, 14.4), compared with those without head injury (MDS-UPDRS-II, 12.1). Also, the risk of self-reported cognitive impairment was elevated in participants who reported head injury (odds ratio, 1.58).

“The results most affected by the self-reported nature of [the] FI [data] are the cognitive impairment results,” said Dr. Brown. “Subjective cognitive impairment ... is very different from objective cognitive impairment, which could be measured through in-person testing in the PPMI cohort. Many factors may contribute to noticing cognitive decline, some of which can be measured and controlled for, but some cannot. There may be a correlation between subjective cognitive decline and true cognitive impairment, but this has not been fully studied in Parkinson’s disease.”
 

The search for the underlying mechanism

Clarifying whether the relationship between head injury and Parkinson’s disease phenotype is causal or whether falling is an early indication of worse symptoms will require more longitudinal data. “We would like to further characterize the differences between people with Parkinson’s disease with and without a history of head injury,” said Dr. Brown. “More detailed understanding of these phenotypic differences could point to an underlying mechanism, or whether or not other comorbid conditions are involved. We would also like to understand whether genetics plays a role.”

The PPMI and FI studies are funded by the Michael J. Fox Foundation. Dr. Brown has received compensation from HiOscar, NEJM Knowledge Plus, and Rune Labs and has received research support from Gateway Institute for Brain Research.

[email protected]

SOURCE: Brown EG et al. AAN 2020, Abstract S17.002.

The adoption of the infused biosimilar infliximab therapies Inflectra and Renflexis was slower at an academic medical center than at a neighboring Veterans Affairs Medical Center (VAMC) during the same time period in 2015-2019, according to an analysis published in Arthritis and Rheumatology.

The use of the biosimilars also was associated with cost savings at the VAMC, but not at the academic medical center, which illustrates that insufficient financial incentives can delay the adoption of biosimilars and the health care system’s realization of cost savings, according to the authors.

Medicare, which is not allowed to negotiate drug prices, is one of the largest payers for infused therapies. Medicare reimbursement for infused therapies is based on the latter’s average selling price (ASP) during the previous quarter. Institutions may negotiate purchase prices with drug manufacturers and receive Medicare reimbursement. Biosimilars generally have lower ASPs than their corresponding reference therapies, and biosimilar manufacturers may have less room to negotiate prices than reference therapy manufacturers. Consequently, a given institution might have a greater incentive to use reference products than to use biosimilars.
 

An examination of pharmacy data

The VA negotiates drug prices for all of its medical centers and has mandated that clinicians prefer biosimilars to their corresponding reference therapies, so Joshua F. Baker, MD, of the University of Pennsylvania and the Corporal Michael J. Crescenz VAMC, both in Philadelphia, and his colleagues hypothesized that the adoption of biosimilars had proceeded more quickly at a VAMC than at a nearby academic medical center.

The investigators examined pharmacy data from the University of Pennsylvania Health System (UPHS) electronic medical record and the Corporal Michael J. Crescenz VAMC to compare the frequency of prescribing biosimilars at these sites between Jan. 1, 2015, and May 31, 2019. Dr. Baker and his associates focused specifically on reference infliximab (Remicade) and the reference noninfusion therapies filgrastim (Neupogen) and pegfilgrastim (Neulasta) and on biosimilars of these therapies (infliximab-dyyb [Inflectra], infliximab-abda [Renflexis], filgrastim-sndz [Zarxio], and pegfilgrastim-jmdb [Fulphila]).

Because Medicare was the predominant payer, the researchers estimated reimbursement for reference and biosimilar infliximabs according to the Medicare Part B reimbursement policy. They defined an institution’s incentive to use a given therapy as the difference between the reimbursement and acquisition cost for that therapy. Dr. Baker and colleagues compared the incentives for UPHS with those for the VAMC.
 

VAMC saved 81% of reference product cost

The researchers identified 15,761 infusions of infliximab at UPHS and 446 at the VAMC during the study period. The proportion of infusions that used the reference product was 99% at UPHS and 62% at the VAMC. ASPs for biosimilar infliximab have been consistently lower than those for the reference product since July 2017. In December 2017, the VAMC switched to the biosimilar infliximab.

Institutional incentives based on Medicare Part B reimbursement and acquisitions costs for reference and biosimilar infliximab have been similar since 2018. In 2019, the institutional incentive favored the reference product by $49-$64 per 100-mg vial. But at the VAMC, the cost per 100-mg vial was $623.48 for the reference product and $115.58 for the biosimilar Renflexis. Purchasing the biosimilar thus yielded a savings of 81%. The current costs for the therapies are $546 and $116, respectively.

In addition, Dr. Baker and colleagues identified 46,683 orders for filgrastim or pegfilgrastim at UPHS. Approximately 90% of the orders were for either of the two reference products despite the ASP of biosimilar filgrastim being approximately 40% lower than that of its reference product. At the VAMC, about 88% of orders were for the reference products. Biosimilars became available in 2016. UPHS began using them at a modest rate, but their adoption was greater at the VAMC, which designated them as preferred products.

Tendering and a nationwide policy mandating use of biosimilars have resulted in financial savings for the VAMC, wrote Dr. Baker and colleagues. “These data suggest that, with current Medicare Part B reimbursement policy, the absence of financial incentives to encourage use of infliximab biosimilars has resulted in slower uptake of biosimilar use at institutions outside of the VA system. The implications of this are a slower reduction in costs to the health care system, since decreases in ASP over time are predicated on negotiations at the institutional level, which have been gradual and stepwise. ...

“Although some of our results may not be applicable to other geographical regions of the U.S., the comparison of two affiliated institutions in geographical proximity and with shared health care providers is a strength,” they continued. “Our findings should be replicated using national VAMC data or data from other health care systems.”

The researchers said that their findings may not apply to noninfused therapies, which are not covered under Medicare Part B, and they did not directly study the impact of pharmacy benefit managers. However, they noted that their data on filgrastim and pegfilgrastim support the hypothesis that pharmacy benefit managers receive “incentives that continue to promote the use of reference products that have higher manufacturer’s list prices, which likely will limit the uptake of both infused and injectable biosimilar therapies over time.” They said that “this finding has important implications for when noninfused biosimilars (e.g. etanercept and adalimumab) are eventually introduced to the U.S. market.”

European governments incentivize use of biosimilars

Government and institutional incentives have increased the adoption of biosimilars in Europe, wrote Guro Lovik Goll, MD, and Tore Kristian Kvien, MD, of the department of rheumatology at Diakonhjemmet Hospital in Oslo, in an accompanying editorial. Norway and Denmark have annual national tender systems in which biosimilars and reference products compete. The price of infliximab biosimilar was 39% lower than the reference product in 2014 and 69% lower in 2015. “Competition has caused dramatically lower prices both for biosimilars and also for the originator drugs competing with them,” wrote the authors.

In 2015, the government of Denmark mandated that patients on infliximab be switched to a biosimilar, and patients in Norway also have been switched to biosimilars. The use of etanercept in Norway increased by 40% from 2016 to 2019, and the use of infliximab has increased by more than threefold since 2015. “In Norway, the consequence of competition, national tenders, and availability of biosimilars have led to better access to therapy for more people in need of biologic drugs, while at the same time showing a total cost reduction of biologics for use in rheumatology, gastroenterology, and dermatology,” wrote the authors.

Health care costs $10,000 per capita in the United States, compared with $5,300 for other wealthy countries in the Organization for Economic Cooperation and Development. Low life expectancy and high infant mortality in the U.S. indicate that high costs are not associated with better outcomes. “As Americans seem to lose out on the cost-cutting potential of biosimilars, this missed opportunity is set to get even more expensive,” the authors concluded.

The U.S. Department of Veterans Affairs, the National Institutes of Health, and the American Diabetes Association contributed funding for the study. Dr. Baker reported receiving consulting fees from Bristol-Myers Squibb and Gilead, and another author reported receiving research support paid to his institution by Pfizer and UCB, as well as receiving consulting fees from nine pharmaceutical companies. Dr. Goll and Dr. Kvien both reported receiving fees for speaking and/or consulting from numerous pharmaceutical companies, including Pfizer.

AGA is taking the lead in educating health care providers and patients about biosimilars and how they can be used for IBD patient care. Learn more at www.gastro.org/biosimilars.

[email protected]

SOURCES: Baker JF et al. Arthritis Rheumatol. 2020 Apr 6. doi: 10.1002/art.41277.

The adoption of the infused biosimilar infliximab therapies Inflectra and Renflexis was slower at an academic medical center than at a neighboring Veterans Affairs Medical Center (VAMC) during the same time period in 2015-2019, according to an analysis published in Arthritis and Rheumatology.

The use of the biosimilars also was associated with cost savings at the VAMC, but not at the academic medical center, which illustrates that insufficient financial incentives can delay the adoption of biosimilars and the health care system’s realization of cost savings, according to the authors.

Medicare, which is not allowed to negotiate drug prices, is one of the largest payers for infused therapies. Medicare reimbursement for infused therapies is based on the latter’s average selling price (ASP) during the previous quarter. Institutions may negotiate purchase prices with drug manufacturers and receive Medicare reimbursement. Biosimilars generally have lower ASPs than their corresponding reference therapies, and biosimilar manufacturers may have less room to negotiate prices than reference therapy manufacturers. Consequently, a given institution might have a greater incentive to use reference products than to use biosimilars.
 

An examination of pharmacy data

The VA negotiates drug prices for all of its medical centers and has mandated that clinicians prefer biosimilars to their corresponding reference therapies, so Joshua F. Baker, MD, of the University of Pennsylvania and the Corporal Michael J. Crescenz VAMC, both in Philadelphia, and his colleagues hypothesized that the adoption of biosimilars had proceeded more quickly at a VAMC than at a nearby academic medical center.

The investigators examined pharmacy data from the University of Pennsylvania Health System (UPHS) electronic medical record and the Corporal Michael J. Crescenz VAMC to compare the frequency of prescribing biosimilars at these sites between Jan. 1, 2015, and May 31, 2019. Dr. Baker and his associates focused specifically on reference infliximab (Remicade) and the reference noninfusion therapies filgrastim (Neupogen) and pegfilgrastim (Neulasta) and on biosimilars of these therapies (infliximab-dyyb [Inflectra], infliximab-abda [Renflexis], filgrastim-sndz [Zarxio], and pegfilgrastim-jmdb [Fulphila]).

Because Medicare was the predominant payer, the researchers estimated reimbursement for reference and biosimilar infliximabs according to the Medicare Part B reimbursement policy. They defined an institution’s incentive to use a given therapy as the difference between the reimbursement and acquisition cost for that therapy. Dr. Baker and colleagues compared the incentives for UPHS with those for the VAMC.
 

VAMC saved 81% of reference product cost

The researchers identified 15,761 infusions of infliximab at UPHS and 446 at the VAMC during the study period. The proportion of infusions that used the reference product was 99% at UPHS and 62% at the VAMC. ASPs for biosimilar infliximab have been consistently lower than those for the reference product since July 2017. In December 2017, the VAMC switched to the biosimilar infliximab.

Institutional incentives based on Medicare Part B reimbursement and acquisitions costs for reference and biosimilar infliximab have been similar since 2018. In 2019, the institutional incentive favored the reference product by $49-$64 per 100-mg vial. But at the VAMC, the cost per 100-mg vial was $623.48 for the reference product and $115.58 for the biosimilar Renflexis. Purchasing the biosimilar thus yielded a savings of 81%. The current costs for the therapies are $546 and $116, respectively.

In addition, Dr. Baker and colleagues identified 46,683 orders for filgrastim or pegfilgrastim at UPHS. Approximately 90% of the orders were for either of the two reference products despite the ASP of biosimilar filgrastim being approximately 40% lower than that of its reference product. At the VAMC, about 88% of orders were for the reference products. Biosimilars became available in 2016. UPHS began using them at a modest rate, but their adoption was greater at the VAMC, which designated them as preferred products.

Tendering and a nationwide policy mandating use of biosimilars have resulted in financial savings for the VAMC, wrote Dr. Baker and colleagues. “These data suggest that, with current Medicare Part B reimbursement policy, the absence of financial incentives to encourage use of infliximab biosimilars has resulted in slower uptake of biosimilar use at institutions outside of the VA system. The implications of this are a slower reduction in costs to the health care system, since decreases in ASP over time are predicated on negotiations at the institutional level, which have been gradual and stepwise. ...

“Although some of our results may not be applicable to other geographical regions of the U.S., the comparison of two affiliated institutions in geographical proximity and with shared health care providers is a strength,” they continued. “Our findings should be replicated using national VAMC data or data from other health care systems.”

The researchers said that their findings may not apply to noninfused therapies, which are not covered under Medicare Part B, and they did not directly study the impact of pharmacy benefit managers. However, they noted that their data on filgrastim and pegfilgrastim support the hypothesis that pharmacy benefit managers receive “incentives that continue to promote the use of reference products that have higher manufacturer’s list prices, which likely will limit the uptake of both infused and injectable biosimilar therapies over time.” They said that “this finding has important implications for when noninfused biosimilars (e.g. etanercept and adalimumab) are eventually introduced to the U.S. market.”

European governments incentivize use of biosimilars

Government and institutional incentives have increased the adoption of biosimilars in Europe, wrote Guro Lovik Goll, MD, and Tore Kristian Kvien, MD, of the department of rheumatology at Diakonhjemmet Hospital in Oslo, in an accompanying editorial. Norway and Denmark have annual national tender systems in which biosimilars and reference products compete. The price of infliximab biosimilar was 39% lower than the reference product in 2014 and 69% lower in 2015. “Competition has caused dramatically lower prices both for biosimilars and also for the originator drugs competing with them,” wrote the authors.

In 2015, the government of Denmark mandated that patients on infliximab be switched to a biosimilar, and patients in Norway also have been switched to biosimilars. The use of etanercept in Norway increased by 40% from 2016 to 2019, and the use of infliximab has increased by more than threefold since 2015. “In Norway, the consequence of competition, national tenders, and availability of biosimilars have led to better access to therapy for more people in need of biologic drugs, while at the same time showing a total cost reduction of biologics for use in rheumatology, gastroenterology, and dermatology,” wrote the authors.

Health care costs $10,000 per capita in the United States, compared with $5,300 for other wealthy countries in the Organization for Economic Cooperation and Development. Low life expectancy and high infant mortality in the U.S. indicate that high costs are not associated with better outcomes. “As Americans seem to lose out on the cost-cutting potential of biosimilars, this missed opportunity is set to get even more expensive,” the authors concluded.

The U.S. Department of Veterans Affairs, the National Institutes of Health, and the American Diabetes Association contributed funding for the study. Dr. Baker reported receiving consulting fees from Bristol-Myers Squibb and Gilead, and another author reported receiving research support paid to his institution by Pfizer and UCB, as well as receiving consulting fees from nine pharmaceutical companies. Dr. Goll and Dr. Kvien both reported receiving fees for speaking and/or consulting from numerous pharmaceutical companies, including Pfizer.

AGA is taking the lead in educating health care providers and patients about biosimilars and how they can be used for IBD patient care. Learn more at www.gastro.org/biosimilars.

[email protected]

SOURCES: Baker JF et al. Arthritis Rheumatol. 2020 Apr 6. doi: 10.1002/art.41277.

The adoption of the infused biosimilar infliximab therapies Inflectra and Renflexis was slower at an academic medical center than at a neighboring Veterans Affairs Medical Center (VAMC) during the same time period in 2015-2019, according to an analysis published in Arthritis and Rheumatology.

The use of the biosimilars also was associated with cost savings at the VAMC, but not at the academic medical center, which illustrates that insufficient financial incentives can delay the adoption of biosimilars and the health care system’s realization of cost savings, according to the authors.

Medicare, which is not allowed to negotiate drug prices, is one of the largest payers for infused therapies. Medicare reimbursement for infused therapies is based on the latter’s average selling price (ASP) during the previous quarter. Institutions may negotiate purchase prices with drug manufacturers and receive Medicare reimbursement. Biosimilars generally have lower ASPs than their corresponding reference therapies, and biosimilar manufacturers may have less room to negotiate prices than reference therapy manufacturers. Consequently, a given institution might have a greater incentive to use reference products than to use biosimilars.
 

An examination of pharmacy data

The VA negotiates drug prices for all of its medical centers and has mandated that clinicians prefer biosimilars to their corresponding reference therapies, so Joshua F. Baker, MD, of the University of Pennsylvania and the Corporal Michael J. Crescenz VAMC, both in Philadelphia, and his colleagues hypothesized that the adoption of biosimilars had proceeded more quickly at a VAMC than at a nearby academic medical center.

The investigators examined pharmacy data from the University of Pennsylvania Health System (UPHS) electronic medical record and the Corporal Michael J. Crescenz VAMC to compare the frequency of prescribing biosimilars at these sites between Jan. 1, 2015, and May 31, 2019. Dr. Baker and his associates focused specifically on reference infliximab (Remicade) and the reference noninfusion therapies filgrastim (Neupogen) and pegfilgrastim (Neulasta) and on biosimilars of these therapies (infliximab-dyyb [Inflectra], infliximab-abda [Renflexis], filgrastim-sndz [Zarxio], and pegfilgrastim-jmdb [Fulphila]).

Because Medicare was the predominant payer, the researchers estimated reimbursement for reference and biosimilar infliximabs according to the Medicare Part B reimbursement policy. They defined an institution’s incentive to use a given therapy as the difference between the reimbursement and acquisition cost for that therapy. Dr. Baker and colleagues compared the incentives for UPHS with those for the VAMC.
 

VAMC saved 81% of reference product cost

The researchers identified 15,761 infusions of infliximab at UPHS and 446 at the VAMC during the study period. The proportion of infusions that used the reference product was 99% at UPHS and 62% at the VAMC. ASPs for biosimilar infliximab have been consistently lower than those for the reference product since July 2017. In December 2017, the VAMC switched to the biosimilar infliximab.

Institutional incentives based on Medicare Part B reimbursement and acquisitions costs for reference and biosimilar infliximab have been similar since 2018. In 2019, the institutional incentive favored the reference product by $49-$64 per 100-mg vial. But at the VAMC, the cost per 100-mg vial was $623.48 for the reference product and $115.58 for the biosimilar Renflexis. Purchasing the biosimilar thus yielded a savings of 81%. The current costs for the therapies are $546 and $116, respectively.

In addition, Dr. Baker and colleagues identified 46,683 orders for filgrastim or pegfilgrastim at UPHS. Approximately 90% of the orders were for either of the two reference products despite the ASP of biosimilar filgrastim being approximately 40% lower than that of its reference product. At the VAMC, about 88% of orders were for the reference products. Biosimilars became available in 2016. UPHS began using them at a modest rate, but their adoption was greater at the VAMC, which designated them as preferred products.

Tendering and a nationwide policy mandating use of biosimilars have resulted in financial savings for the VAMC, wrote Dr. Baker and colleagues. “These data suggest that, with current Medicare Part B reimbursement policy, the absence of financial incentives to encourage use of infliximab biosimilars has resulted in slower uptake of biosimilar use at institutions outside of the VA system. The implications of this are a slower reduction in costs to the health care system, since decreases in ASP over time are predicated on negotiations at the institutional level, which have been gradual and stepwise. ...

“Although some of our results may not be applicable to other geographical regions of the U.S., the comparison of two affiliated institutions in geographical proximity and with shared health care providers is a strength,” they continued. “Our findings should be replicated using national VAMC data or data from other health care systems.”

The researchers said that their findings may not apply to noninfused therapies, which are not covered under Medicare Part B, and they did not directly study the impact of pharmacy benefit managers. However, they noted that their data on filgrastim and pegfilgrastim support the hypothesis that pharmacy benefit managers receive “incentives that continue to promote the use of reference products that have higher manufacturer’s list prices, which likely will limit the uptake of both infused and injectable biosimilar therapies over time.” They said that “this finding has important implications for when noninfused biosimilars (e.g. etanercept and adalimumab) are eventually introduced to the U.S. market.”

European governments incentivize use of biosimilars

Government and institutional incentives have increased the adoption of biosimilars in Europe, wrote Guro Lovik Goll, MD, and Tore Kristian Kvien, MD, of the department of rheumatology at Diakonhjemmet Hospital in Oslo, in an accompanying editorial. Norway and Denmark have annual national tender systems in which biosimilars and reference products compete. The price of infliximab biosimilar was 39% lower than the reference product in 2014 and 69% lower in 2015. “Competition has caused dramatically lower prices both for biosimilars and also for the originator drugs competing with them,” wrote the authors.

In 2015, the government of Denmark mandated that patients on infliximab be switched to a biosimilar, and patients in Norway also have been switched to biosimilars. The use of etanercept in Norway increased by 40% from 2016 to 2019, and the use of infliximab has increased by more than threefold since 2015. “In Norway, the consequence of competition, national tenders, and availability of biosimilars have led to better access to therapy for more people in need of biologic drugs, while at the same time showing a total cost reduction of biologics for use in rheumatology, gastroenterology, and dermatology,” wrote the authors.

Health care costs $10,000 per capita in the United States, compared with $5,300 for other wealthy countries in the Organization for Economic Cooperation and Development. Low life expectancy and high infant mortality in the U.S. indicate that high costs are not associated with better outcomes. “As Americans seem to lose out on the cost-cutting potential of biosimilars, this missed opportunity is set to get even more expensive,” the authors concluded.

The U.S. Department of Veterans Affairs, the National Institutes of Health, and the American Diabetes Association contributed funding for the study. Dr. Baker reported receiving consulting fees from Bristol-Myers Squibb and Gilead, and another author reported receiving research support paid to his institution by Pfizer and UCB, as well as receiving consulting fees from nine pharmaceutical companies. Dr. Goll and Dr. Kvien both reported receiving fees for speaking and/or consulting from numerous pharmaceutical companies, including Pfizer.

AGA is taking the lead in educating health care providers and patients about biosimilars and how they can be used for IBD patient care. Learn more at www.gastro.org/biosimilars.

[email protected]

SOURCES: Baker JF et al. Arthritis Rheumatol. 2020 Apr 6. doi: 10.1002/art.41277.

The adoption of the infused biosimilar infliximab therapies Inflectra and Renflexis was slower at an academic medical center than at a neighboring Veterans Affairs Medical Center (VAMC) during the same time period in 2015-2019, according to an analysis published in Arthritis and Rheumatology.

The use of the biosimilars also was associated with cost savings at the VAMC, but not at the academic medical center, which illustrates that insufficient financial incentives can delay the adoption of biosimilars and the health care system’s realization of cost savings, according to the authors.

Medicare, which is not allowed to negotiate drug prices, is one of the largest payers for infused therapies. Medicare reimbursement for infused therapies is based on the latter’s average selling price (ASP) during the previous quarter. Institutions may negotiate purchase prices with drug manufacturers and receive Medicare reimbursement. Biosimilars generally have lower ASPs than their corresponding reference therapies, and biosimilar manufacturers may have less room to negotiate prices than reference therapy manufacturers. Consequently, a given institution might have a greater incentive to use reference products than to use biosimilars.
 

An examination of pharmacy data

The VA negotiates drug prices for all of its medical centers and has mandated that clinicians prefer biosimilars to their corresponding reference therapies, so Joshua F. Baker, MD, of the University of Pennsylvania and the Corporal Michael J. Crescenz VAMC, both in Philadelphia, and his colleagues hypothesized that the adoption of biosimilars had proceeded more quickly at a VAMC than at a nearby academic medical center.

The investigators examined pharmacy data from the University of Pennsylvania Health System (UPHS) electronic medical record and the Corporal Michael J. Crescenz VAMC to compare the frequency of prescribing biosimilars at these sites between Jan. 1, 2015, and May 31, 2019. Dr. Baker and his associates focused specifically on reference infliximab (Remicade) and the reference noninfusion therapies filgrastim (Neupogen) and pegfilgrastim (Neulasta) and on biosimilars of these therapies (infliximab-dyyb [Inflectra], infliximab-abda [Renflexis], filgrastim-sndz [Zarxio], and pegfilgrastim-jmdb [Fulphila]).

Because Medicare was the predominant payer, the researchers estimated reimbursement for reference and biosimilar infliximabs according to the Medicare Part B reimbursement policy. They defined an institution’s incentive to use a given therapy as the difference between the reimbursement and acquisition cost for that therapy. Dr. Baker and colleagues compared the incentives for UPHS with those for the VAMC.
 

VAMC saved 81% of reference product cost

The researchers identified 15,761 infusions of infliximab at UPHS and 446 at the VAMC during the study period. The proportion of infusions that used the reference product was 99% at UPHS and 62% at the VAMC. ASPs for biosimilar infliximab have been consistently lower than those for the reference product since July 2017. In December 2017, the VAMC switched to the biosimilar infliximab.

Institutional incentives based on Medicare Part B reimbursement and acquisitions costs for reference and biosimilar infliximab have been similar since 2018. In 2019, the institutional incentive favored the reference product by $49-$64 per 100-mg vial. But at the VAMC, the cost per 100-mg vial was $623.48 for the reference product and $115.58 for the biosimilar Renflexis. Purchasing the biosimilar thus yielded a savings of 81%. The current costs for the therapies are $546 and $116, respectively.

In addition, Dr. Baker and colleagues identified 46,683 orders for filgrastim or pegfilgrastim at UPHS. Approximately 90% of the orders were for either of the two reference products despite the ASP of biosimilar filgrastim being approximately 40% lower than that of its reference product. At the VAMC, about 88% of orders were for the reference products. Biosimilars became available in 2016. UPHS began using them at a modest rate, but their adoption was greater at the VAMC, which designated them as preferred products.

Tendering and a nationwide policy mandating use of biosimilars have resulted in financial savings for the VAMC, wrote Dr. Baker and colleagues. “These data suggest that, with current Medicare Part B reimbursement policy, the absence of financial incentives to encourage use of infliximab biosimilars has resulted in slower uptake of biosimilar use at institutions outside of the VA system. The implications of this are a slower reduction in costs to the health care system, since decreases in ASP over time are predicated on negotiations at the institutional level, which have been gradual and stepwise. ...

“Although some of our results may not be applicable to other geographical regions of the U.S., the comparison of two affiliated institutions in geographical proximity and with shared health care providers is a strength,” they continued. “Our findings should be replicated using national VAMC data or data from other health care systems.”

The researchers said that their findings may not apply to noninfused therapies, which are not covered under Medicare Part B, and they did not directly study the impact of pharmacy benefit managers. However, they noted that their data on filgrastim and pegfilgrastim support the hypothesis that pharmacy benefit managers receive “incentives that continue to promote the use of reference products that have higher manufacturer’s list prices, which likely will limit the uptake of both infused and injectable biosimilar therapies over time.” They said that “this finding has important implications for when noninfused biosimilars (e.g. etanercept and adalimumab) are eventually introduced to the U.S. market.”

European governments incentivize use of biosimilars

Government and institutional incentives have increased the adoption of biosimilars in Europe, wrote Guro Lovik Goll, MD, and Tore Kristian Kvien, MD, of the department of rheumatology at Diakonhjemmet Hospital in Oslo, in an accompanying editorial. Norway and Denmark have annual national tender systems in which biosimilars and reference products compete. The price of infliximab biosimilar was 39% lower than the reference product in 2014 and 69% lower in 2015. “Competition has caused dramatically lower prices both for biosimilars and also for the originator drugs competing with them,” wrote the authors.

In 2015, the government of Denmark mandated that patients on infliximab be switched to a biosimilar, and patients in Norway also have been switched to biosimilars. The use of etanercept in Norway increased by 40% from 2016 to 2019, and the use of infliximab has increased by more than threefold since 2015. “In Norway, the consequence of competition, national tenders, and availability of biosimilars have led to better access to therapy for more people in need of biologic drugs, while at the same time showing a total cost reduction of biologics for use in rheumatology, gastroenterology, and dermatology,” wrote the authors.

Health care costs $10,000 per capita in the United States, compared with $5,300 for other wealthy countries in the Organization for Economic Cooperation and Development. Low life expectancy and high infant mortality in the U.S. indicate that high costs are not associated with better outcomes. “As Americans seem to lose out on the cost-cutting potential of biosimilars, this missed opportunity is set to get even more expensive,” the authors concluded.

The U.S. Department of Veterans Affairs, the National Institutes of Health, and the American Diabetes Association contributed funding for the study. Dr. Baker reported receiving consulting fees from Bristol-Myers Squibb and Gilead, and another author reported receiving research support paid to his institution by Pfizer and UCB, as well as receiving consulting fees from nine pharmaceutical companies. Dr. Goll and Dr. Kvien both reported receiving fees for speaking and/or consulting from numerous pharmaceutical companies, including Pfizer.

[email protected]

SOURCES: Baker JF et al. Arthritis Rheumatol. 2020 Apr 6. doi: 10.1002/art.41277.

The adoption of the infused biosimilar infliximab therapies Inflectra and Renflexis was slower at an academic medical center than at a neighboring Veterans Affairs Medical Center (VAMC) during the same time period in 2015-2019, according to an analysis published in Arthritis and Rheumatology.

The use of the biosimilars also was associated with cost savings at the VAMC, but not at the academic medical center, which illustrates that insufficient financial incentives can delay the adoption of biosimilars and the health care system’s realization of cost savings, according to the authors.

Medicare, which is not allowed to negotiate drug prices, is one of the largest payers for infused therapies. Medicare reimbursement for infused therapies is based on the latter’s average selling price (ASP) during the previous quarter. Institutions may negotiate purchase prices with drug manufacturers and receive Medicare reimbursement. Biosimilars generally have lower ASPs than their corresponding reference therapies, and biosimilar manufacturers may have less room to negotiate prices than reference therapy manufacturers. Consequently, a given institution might have a greater incentive to use reference products than to use biosimilars.
 

An examination of pharmacy data

The VA negotiates drug prices for all of its medical centers and has mandated that clinicians prefer biosimilars to their corresponding reference therapies, so Joshua F. Baker, MD, of the University of Pennsylvania and the Corporal Michael J. Crescenz VAMC, both in Philadelphia, and his colleagues hypothesized that the adoption of biosimilars had proceeded more quickly at a VAMC than at a nearby academic medical center.

The investigators examined pharmacy data from the University of Pennsylvania Health System (UPHS) electronic medical record and the Corporal Michael J. Crescenz VAMC to compare the frequency of prescribing biosimilars at these sites between Jan. 1, 2015, and May 31, 2019. Dr. Baker and his associates focused specifically on reference infliximab (Remicade) and the reference noninfusion therapies filgrastim (Neupogen) and pegfilgrastim (Neulasta) and on biosimilars of these therapies (infliximab-dyyb [Inflectra], infliximab-abda [Renflexis], filgrastim-sndz [Zarxio], and pegfilgrastim-jmdb [Fulphila]).

Because Medicare was the predominant payer, the researchers estimated reimbursement for reference and biosimilar infliximabs according to the Medicare Part B reimbursement policy. They defined an institution’s incentive to use a given therapy as the difference between the reimbursement and acquisition cost for that therapy. Dr. Baker and colleagues compared the incentives for UPHS with those for the VAMC.
 

VAMC saved 81% of reference product cost

The researchers identified 15,761 infusions of infliximab at UPHS and 446 at the VAMC during the study period. The proportion of infusions that used the reference product was 99% at UPHS and 62% at the VAMC. ASPs for biosimilar infliximab have been consistently lower than those for the reference product since July 2017. In December 2017, the VAMC switched to the biosimilar infliximab.

Institutional incentives based on Medicare Part B reimbursement and acquisitions costs for reference and biosimilar infliximab have been similar since 2018. In 2019, the institutional incentive favored the reference product by $49-$64 per 100-mg vial. But at the VAMC, the cost per 100-mg vial was $623.48 for the reference product and $115.58 for the biosimilar Renflexis. Purchasing the biosimilar thus yielded a savings of 81%. The current costs for the therapies are $546 and $116, respectively.

In addition, Dr. Baker and colleagues identified 46,683 orders for filgrastim or pegfilgrastim at UPHS. Approximately 90% of the orders were for either of the two reference products despite the ASP of biosimilar filgrastim being approximately 40% lower than that of its reference product. At the VAMC, about 88% of orders were for the reference products. Biosimilars became available in 2016. UPHS began using them at a modest rate, but their adoption was greater at the VAMC, which designated them as preferred products.

Tendering and a nationwide policy mandating use of biosimilars have resulted in financial savings for the VAMC, wrote Dr. Baker and colleagues. “These data suggest that, with current Medicare Part B reimbursement policy, the absence of financial incentives to encourage use of infliximab biosimilars has resulted in slower uptake of biosimilar use at institutions outside of the VA system. The implications of this are a slower reduction in costs to the health care system, since decreases in ASP over time are predicated on negotiations at the institutional level, which have been gradual and stepwise. ...

“Although some of our results may not be applicable to other geographical regions of the U.S., the comparison of two affiliated institutions in geographical proximity and with shared health care providers is a strength,” they continued. “Our findings should be replicated using national VAMC data or data from other health care systems.”

The researchers said that their findings may not apply to noninfused therapies, which are not covered under Medicare Part B, and they did not directly study the impact of pharmacy benefit managers. However, they noted that their data on filgrastim and pegfilgrastim support the hypothesis that pharmacy benefit managers receive “incentives that continue to promote the use of reference products that have higher manufacturer’s list prices, which likely will limit the uptake of both infused and injectable biosimilar therapies over time.” They said that “this finding has important implications for when noninfused biosimilars (e.g. etanercept and adalimumab) are eventually introduced to the U.S. market.”

European governments incentivize use of biosimilars

Government and institutional incentives have increased the adoption of biosimilars in Europe, wrote Guro Lovik Goll, MD, and Tore Kristian Kvien, MD, of the department of rheumatology at Diakonhjemmet Hospital in Oslo, in an accompanying editorial. Norway and Denmark have annual national tender systems in which biosimilars and reference products compete. The price of infliximab biosimilar was 39% lower than the reference product in 2014 and 69% lower in 2015. “Competition has caused dramatically lower prices both for biosimilars and also for the originator drugs competing with them,” wrote the authors.

In 2015, the government of Denmark mandated that patients on infliximab be switched to a biosimilar, and patients in Norway also have been switched to biosimilars. The use of etanercept in Norway increased by 40% from 2016 to 2019, and the use of infliximab has increased by more than threefold since 2015. “In Norway, the consequence of competition, national tenders, and availability of biosimilars have led to better access to therapy for more people in need of biologic drugs, while at the same time showing a total cost reduction of biologics for use in rheumatology, gastroenterology, and dermatology,” wrote the authors.

Health care costs $10,000 per capita in the United States, compared with $5,300 for other wealthy countries in the Organization for Economic Cooperation and Development. Low life expectancy and high infant mortality in the U.S. indicate that high costs are not associated with better outcomes. “As Americans seem to lose out on the cost-cutting potential of biosimilars, this missed opportunity is set to get even more expensive,” the authors concluded.

The U.S. Department of Veterans Affairs, the National Institutes of Health, and the American Diabetes Association contributed funding for the study. Dr. Baker reported receiving consulting fees from Bristol-Myers Squibb and Gilead, and another author reported receiving research support paid to his institution by Pfizer and UCB, as well as receiving consulting fees from nine pharmaceutical companies. Dr. Goll and Dr. Kvien both reported receiving fees for speaking and/or consulting from numerous pharmaceutical companies, including Pfizer.

[email protected]

SOURCES: Baker JF et al. Arthritis Rheumatol. 2020 Apr 6. doi: 10.1002/art.41277.

The adoption of the infused biosimilar infliximab therapies Inflectra and Renflexis was slower at an academic medical center than at a neighboring Veterans Affairs Medical Center (VAMC) during the same time period in 2015-2019, according to an analysis published in Arthritis and Rheumatology.

The use of the biosimilars also was associated with cost savings at the VAMC, but not at the academic medical center, which illustrates that insufficient financial incentives can delay the adoption of biosimilars and the health care system’s realization of cost savings, according to the authors.

Medicare, which is not allowed to negotiate drug prices, is one of the largest payers for infused therapies. Medicare reimbursement for infused therapies is based on the latter’s average selling price (ASP) during the previous quarter. Institutions may negotiate purchase prices with drug manufacturers and receive Medicare reimbursement. Biosimilars generally have lower ASPs than their corresponding reference therapies, and biosimilar manufacturers may have less room to negotiate prices than reference therapy manufacturers. Consequently, a given institution might have a greater incentive to use reference products than to use biosimilars.
 

An examination of pharmacy data

The VA negotiates drug prices for all of its medical centers and has mandated that clinicians prefer biosimilars to their corresponding reference therapies, so Joshua F. Baker, MD, of the University of Pennsylvania and the Corporal Michael J. Crescenz VAMC, both in Philadelphia, and his colleagues hypothesized that the adoption of biosimilars had proceeded more quickly at a VAMC than at a nearby academic medical center.

The investigators examined pharmacy data from the University of Pennsylvania Health System (UPHS) electronic medical record and the Corporal Michael J. Crescenz VAMC to compare the frequency of prescribing biosimilars at these sites between Jan. 1, 2015, and May 31, 2019. Dr. Baker and his associates focused specifically on reference infliximab (Remicade) and the reference noninfusion therapies filgrastim (Neupogen) and pegfilgrastim (Neulasta) and on biosimilars of these therapies (infliximab-dyyb [Inflectra], infliximab-abda [Renflexis], filgrastim-sndz [Zarxio], and pegfilgrastim-jmdb [Fulphila]).

Because Medicare was the predominant payer, the researchers estimated reimbursement for reference and biosimilar infliximabs according to the Medicare Part B reimbursement policy. They defined an institution’s incentive to use a given therapy as the difference between the reimbursement and acquisition cost for that therapy. Dr. Baker and colleagues compared the incentives for UPHS with those for the VAMC.
 

VAMC saved 81% of reference product cost

The researchers identified 15,761 infusions of infliximab at UPHS and 446 at the VAMC during the study period. The proportion of infusions that used the reference product was 99% at UPHS and 62% at the VAMC. ASPs for biosimilar infliximab have been consistently lower than those for the reference product since July 2017. In December 2017, the VAMC switched to the biosimilar infliximab.

Institutional incentives based on Medicare Part B reimbursement and acquisitions costs for reference and biosimilar infliximab have been similar since 2018. In 2019, the institutional incentive favored the reference product by $49-$64 per 100-mg vial. But at the VAMC, the cost per 100-mg vial was $623.48 for the reference product and $115.58 for the biosimilar Renflexis. Purchasing the biosimilar thus yielded a savings of 81%. The current costs for the therapies are $546 and $116, respectively.

In addition, Dr. Baker and colleagues identified 46,683 orders for filgrastim or pegfilgrastim at UPHS. Approximately 90% of the orders were for either of the two reference products despite the ASP of biosimilar filgrastim being approximately 40% lower than that of its reference product. At the VAMC, about 88% of orders were for the reference products. Biosimilars became available in 2016. UPHS began using them at a modest rate, but their adoption was greater at the VAMC, which designated them as preferred products.

Tendering and a nationwide policy mandating use of biosimilars have resulted in financial savings for the VAMC, wrote Dr. Baker and colleagues. “These data suggest that, with current Medicare Part B reimbursement policy, the absence of financial incentives to encourage use of infliximab biosimilars has resulted in slower uptake of biosimilar use at institutions outside of the VA system. The implications of this are a slower reduction in costs to the health care system, since decreases in ASP over time are predicated on negotiations at the institutional level, which have been gradual and stepwise. ...

“Although some of our results may not be applicable to other geographical regions of the U.S., the comparison of two affiliated institutions in geographical proximity and with shared health care providers is a strength,” they continued. “Our findings should be replicated using national VAMC data or data from other health care systems.”

The researchers said that their findings may not apply to noninfused therapies, which are not covered under Medicare Part B, and they did not directly study the impact of pharmacy benefit managers. However, they noted that their data on filgrastim and pegfilgrastim support the hypothesis that pharmacy benefit managers receive “incentives that continue to promote the use of reference products that have higher manufacturer’s list prices, which likely will limit the uptake of both infused and injectable biosimilar therapies over time.” They said that “this finding has important implications for when noninfused biosimilars (e.g. etanercept and adalimumab) are eventually introduced to the U.S. market.”

European governments incentivize use of biosimilars

Government and institutional incentives have increased the adoption of biosimilars in Europe, wrote Guro Lovik Goll, MD, and Tore Kristian Kvien, MD, of the department of rheumatology at Diakonhjemmet Hospital in Oslo, in an accompanying editorial. Norway and Denmark have annual national tender systems in which biosimilars and reference products compete. The price of infliximab biosimilar was 39% lower than the reference product in 2014 and 69% lower in 2015. “Competition has caused dramatically lower prices both for biosimilars and also for the originator drugs competing with them,” wrote the authors.

In 2015, the government of Denmark mandated that patients on infliximab be switched to a biosimilar, and patients in Norway also have been switched to biosimilars. The use of etanercept in Norway increased by 40% from 2016 to 2019, and the use of infliximab has increased by more than threefold since 2015. “In Norway, the consequence of competition, national tenders, and availability of biosimilars have led to better access to therapy for more people in need of biologic drugs, while at the same time showing a total cost reduction of biologics for use in rheumatology, gastroenterology, and dermatology,” wrote the authors.

Health care costs $10,000 per capita in the United States, compared with $5,300 for other wealthy countries in the Organization for Economic Cooperation and Development. Low life expectancy and high infant mortality in the U.S. indicate that high costs are not associated with better outcomes. “As Americans seem to lose out on the cost-cutting potential of biosimilars, this missed opportunity is set to get even more expensive,” the authors concluded.

The U.S. Department of Veterans Affairs, the National Institutes of Health, and the American Diabetes Association contributed funding for the study. Dr. Baker reported receiving consulting fees from Bristol-Myers Squibb and Gilead, and another author reported receiving research support paid to his institution by Pfizer and UCB, as well as receiving consulting fees from nine pharmaceutical companies. Dr. Goll and Dr. Kvien both reported receiving fees for speaking and/or consulting from numerous pharmaceutical companies, including Pfizer.

[email protected]

SOURCES: Baker JF et al. Arthritis Rheumatol. 2020 Apr 6. doi: 10.1002/art.41277.