Safety and Real-World Dosing of OnabotulinumtoxinA for the Treatment of Adult Spasticity: Post Hoc Analysis of the Adult Spasticity International Registry Study.

OBJECTIVE: The aim of the study is to evaluate the safety of onabotulinumtoxinA treatment for spasticity across dose ranges in real-world practice. DESIGN: Adult Spasticity International Registry was a multicenter, prospective, observational study (NCT01930786) of onabotulinumtoxinA treatment for adult spasticity over 2 yrs. Adverse events, serious adverse events, treatment-related adverse events, and serious treatment-related adverse events were sorted into five categories (≤200, 201-400, 401-600, 601-800, ≥801 U) based on cumulative dose per session. RESULTS: In 3103 treatment sessions ( T ), 730 patients received ≥1 dose of onabotulinumtoxinA. Dose categories included the following: ≤200 U ( n = 312, T = 811), 201-400 U ( n = 446, T = 1366), 401-600 U ( n = 244, T = 716), 601-800 U ( n = 69, T = 149), and ≥801 U ( n = 29, T = 61). Of these patients, 261 reported 827 adverse events, 94 reported 195 serious adverse events, 20 reported 23 treatment-related adverse events, and 2 patients treated with 201-400 U onabotulinumtoxinA reported 3 serious treatment-related adverse events. Treatment-related adverse events reported included ≤200 U (8/811, 0.9%), 201-400 U (7/1366, 0.5%), 401-600 U (6/716, 0.8%), 601-800 U (1/149, 0.7%), and ≥801 U (1/61, 1.6%). CONCLUSIONS: In this post hoc analysis, most treatment sessions were performed with 201-400 U onabotulinumtoxinA. Patients treated with 201-400 U onabotulinumtoxinA had an adverse event profile consistent with onabotulinumtoxinA package inserts globally (e.g., United States, European Union, United Kingdom, Canada). No new safety signals were identified.

Does treadmill training with Hybrid Assistive Limb (HAL) impact the quality of life? A first case series in the United States.

Introduction: Recently published studies show remarkable improvements in functional mobility after treadmill training with HAL® in patients with spinal cord injuries. The aim of this study was to evaluate the impact of HAL®-assisted treadmill training on quality of life. Patient/Method: A case series of six patients participating in a single-centre prospective, interventional pilot study, who were suffering neurologic motor deficits. The quality of life was assessed using the EQ-5D questionnaire and mobility was assessed using the PROMIS v1.2 Physical Function - Mobility Score before treadmill training, at 12-weeks, and at 6-months. Results: Five out of six patients showed improvement in the PROMIS v1.2 Physical Function - Mobility score. Four patients did not show changes in the EQ-5D at 6 months follow-up, relative to baseline. The EQ-5D score of one patient worsened while improved in another patient at 6 months follow-up compared to the baseline. Conclusion: Our study details the first experience in a larger series regarding the effects of HAL®-assisted treadmill training on quality of life. Whereas five out of six patients showed improvements in mobility scores, only one patient showed improvement of life quality at 6 months follow-up. Life quality is influenced by a multitude of factors and lager randomized trials are needed to assess the effect of HAL®-assisted training on quality of life. Implications for Rehabilitation Treadmill training with HAL is safe and feasible for patients with neurologic disorders Treadmill training with HAL improved the functional mobility Improvements in the quality of life were unverifiable.

Safety, Tolerability, and Sensorimotor Effects of Extended-release Dalfampridine in Adults With Cerebral Palsy: A Pilot Study.

PURPOSE: The goal of this study was to evaluate the safety and tolerability of dalfampridine extended release (D-ER) in a pilot study of adults with cerebral palsy (CP) and limited ambulatory ability, and to explore drug effects on sensorimotor function. METHODS: An initial double-blind, single-dose crossover study was performed in 11 individuals randomized 1:1 to receive D-ER (10 mg) or placebo, followed by a 2-day washout period and the opposite treatment, with evaluation for safety and tolerability. A twice daily dosing, double-blind, placebo-controlled, crossover study was then performed. Participants were randomized in a 1:1 ratio to 1 of 2 sequences: 1 week of D-ER (10 mg BID) or placebo, followed by a 1-week washout and 1 week of the opposite treatment. Key inclusion criteria were age 18 to 70 years, body mass index 18.0 to 30.0 kg/m2, diagnosis of CP, and ability to perform all study procedures. Key exclusion criteria were severe CP, moderate or severe renal impairment, history of nonfebrile seizures, and prior dalfampridine use. Primary outcomes were safety profile and tolerability. Exploratory functional outcomes comprised changes in upper and lower extremity sensorimotor function (grip and pinch strength tests), manual dexterity (Box and Block Tests), and walking speed (Timed 25-Foot Walk). The most pronounced measured functional deficit in each individual was defined as the exploratory primary functional end point. Full crossover data were analyzed by using a mixed effects model. FINDINGS: Among the 24 total participants who were randomized to treatment and completed the twice daily dosing phase study, their mean age was 38.6 years (range, 20-62 years), 54% were women, and 83% had spastic CP. Adverse events were consistent with previous D-ER trials, most commonly headache (13% D-ER, 4% placebo), fatigue (13% D-ER, 0% placebo), insomnia (8% D-ER, 4% placebo), diarrhea (4% D-ER, 4% placebo), and nausea (4% D-ER, 4% placebo). The mixed model analysis of full crossover data identified no significant difference between D-ER and placebo in the primary functional analysis (the most pronounced deficit; P = 0.70) or in the secondary analyses (hand strength [P = 0.48], manual dexterity [P = 0.13], or walking speed [P = 0.42]). IMPLICATIONS: In this preliminary study of adults with CP, a BID dose of 10-mg D-ER was generally safe and well tolerated. The exploratory functional assessments for upper and lower sensorimotor deficits did not establish that the study population was markedly responsive to D-ER relative to placebo. These findings do not provide the proof-of-concept that would support further evaluation of D-ER as a potential intervention to improve function in adults with CP. ClinicalTrials.gov identifier: NCT01468350.

The Effectiveness and Safety of Exoskeletons as Assistive and Rehabilitation Devices in the Treatment of Neurologic Gait Disorders in Patients with Spinal Cord Injury: A Systematic Review.

Study Design Systematic review. Clinical Questions (1) When used as an assistive device, do wearable exoskeletons improve lower extremity function or gait compared with knee-ankle-foot orthoses (KAFOs) in patients with complete or incomplete spinal cord injury? (2) When used as a rehabilitation device, do wearable exoskeletons improve lower extremity function or gait compared with other rehabilitation strategies in patients with complete or incomplete spinal cord injury? (3) When used as an assistive or rehabilitation device, are wearable exoskeletons safe compared with KAFO for assistance or other rehabilitation strategies for rehabilitation in patients with complete or incomplete spinal cord injury? Methods PubMed, Cochrane, and Embase databases and reference lists of key articles were searched from database inception to May 2, 2016, to identify studies evaluating the effectiveness of wearable exoskeletons used as assistive or rehabilitative devices in patients with incomplete or complete spinal cord injury. Results No comparison studies were found evaluating exoskeletons as an assistive device. Nine comparison studies (11 publications) evaluated the use of exoskeletons as a rehabilitative device. The 10-meter walk test velocity and Spinal Cord Independence Measure scores showed no difference in change from baseline among patients undergoing exoskeleton training compared with various comparator therapies. The remaining primary outcome measures of 6-minute walk test distance and Walking Index for Spinal Cord Injury I and II and Functional Independence Measure-Locomotor scores showed mixed results, with some studies indicating no difference in change from baseline between exoskeleton training and comparator therapies, some indicating benefit of exoskeleton over comparator therapies, and some indicating benefit of comparator therapies over exoskeleton. Conclusion There is no data to compare locomotion assistance with exoskeleton versus conventional KAFOs. There is no consistent benefit from rehabilitation using an exoskeleton versus a variety of conventional methods in patients with chronic spinal cord injury. Trials comparing later-generation exoskeletons are needed.

Effects of Dalfampridine Extended-release Tablets on 6-minute Walk Distance in Patients With Multiple Sclerosis: A Post Hoc Analysis of a Double-blind, Placebo-controlled Trial.

PURPOSE: Dalfampridine extended-release (ER) tablets 10 mg BID have been approved for use in improving walking in people with multiple sclerosis (MS). This subgroup analysis evaluated the effects of dalfampridine ER 5 and 10 mg BID on distance walked, as assessed using the 6-minute walk (6MW) test. METHODS: This analysis of data from a randomized, placebo-controlled, double-blind study (N = 430) included only the 153 patients with 6MW data available. Participants (aged 18-70 years) were randomly assigned in a 1:1:1 ratio to receive dalfampridine ER 5 or 10 mg or placebo, BID for 4 weeks. The 6MW was used for assessing walking distance at baseline and 2 weeks after the start of treatment at the 26 study sites that were able to perform this test. Participants were administered the 12-item MS Walking Scale (MSWS-12), a patient-reported measure of the impact of MS on walking. Post hoc outcomes included the percentages of patients who achieved an increase from baseline in 6MW distance of ≥20% and who achieved a minimal clinically important difference (MCID) from baseline in 6MW distance, defined as ≥+55 m. Changes from baseline in walking speed (MSWS-12) were compared, stratified by subgroup that achieved ≥20% versus <20% improvement on the 6MW. The correlation between change in walking speed over time and subgroup (by change in distance walked) was evaluated. The tolerability of dalfampridine was assessed based on the prevalence of treatment-emergent adverse events (TEAEs). FINDINGS: In the post hoc analysis, the percentage of patients with an improvement in 6MW distance that met or exceeded the MCID was significantly greater with dalfampridine ER 10 mg BID relative to placebo (37.3% vs 12.2%; nominal P = 0.004). Similarly, the percentage with an improvement in 6MW distance of ≥20% was significantly greater with dalfampridine 10 mg BID relative to placebo (45.1% vs 14.3%; nominal P < 0.001). Regardless of treatment allocation, improvement in MSWS-12 was significantly greater in the subgroup that achieved a ≥20% improvement on the 6MW compared with the subgroup with <20% improvement (mean changes, -15.5 vs -7.2; nominal P = 0.041). The prevalences and types of TEAEs were consistent with those reported in previous studies. IMPLICATIONS: Based on the MCID for 6MW, the use of dalfampridine ER 10 mg BID but not 5 mg BID was associated with statistically significant and clinically meaningful improvements in walking relative to placebo. The correlation between improvement on MSWS-12 and the 20% increase in 6MW distance suggests that an improvement on MSWS-12 is clinically relevant. These results, although highlighting a lack of efficacy of dalfampridine ER 5 mg BID, suggest that the 10-mg BID dose is effective for improving walking speed, as observed on short timed-walk tests, and for increasing distance walked over longer timed-walk periods. ClinicalTrials.gov identifier: NCT01328379.

Fast whole-brain three-dimensional macromolecular proton fraction mapping in multiple sclerosis.

PURPOSE: To evaluate the clinical utility of fast whole-brain macromolecular proton fraction ( MPF macromolecular proton fraction ) mapping in multiple sclerosis ( MS multiple sclerosis ) and compare MPF macromolecular proton fraction with established quantitative magnetic resonance (MR) imaging measures of tissue damage including magnetization transfer ( MT magnetization transfer ) ratio and relaxation rate (R1). MATERIALS AND METHODS: In this institutional review board-approved and HIPAA-compliant study, 14 healthy control participants, 18 relapsing-remitting MS multiple sclerosis ( RRMS relaxing-remitting MS ) patients, and 12 secondary progressive MS multiple sclerosis ( SPMS secondary progressive MS ) patients provided written informed consent and underwent 3-T MR imaging. Three-dimensional MPF macromolecular proton fraction maps were reconstructed from MT magnetization transfer -weighted images and R1 maps by the single-point method. Mean MPF macromolecular proton fraction , R1, and MT magnetization transfer ratio in normal-appearing white matter ( WM white matter ), gray matter ( GM gray matter ), and lesions were compared between subject groups by using analysis of variance. Correlations (Pearson r) between imaging data and clinical scores (Expanded Disability Status Scale [EDSS] and MS multiple sclerosis Functional Composite [ MSFC MS functional composite ]) were compared by using Hotelling-Williams test. RESULTS: RRMS relaxing-remitting MS patients had lower WM white matter and GM gray matter MPF macromolecular proton fraction than controls, with percentage decreases of 6.5% (P < .005) and 5.4% (P < .05). MPF macromolecular proton fraction in SPMS secondary progressive MS was reduced relative to RRMS relaxing-remitting MS in WM white matter , GM gray matter , and lesions by 6.4% (P < .005), 13.4% (P < .005), and 11.7% (P < .05), respectively. EDSS Expanded Disability Status Scale and MSFC MS functional composite demonstrated strongest correlations with MPF macromolecular proton fraction in GM gray matter (r = -0.74 and 0.81; P < .001) followed by WM white matter (r = -0.57 and 0.72; P < .01) and lesions (r = -0.42 and 0.50; P < .05). R1 and MT magnetization transfer ratio in all tissues were significantly less correlated with clinical scores than GM gray matter MPF macromolecular proton fraction (P < .05). CONCLUSION: MPF macromolecular proton fraction mapping enables quantitative assessment of demyelination in normal-appearing brain tissues and shows primary clinical relevance of GM gray matter damage in MS multiple sclerosis . MPF macromolecular proton fraction outperforms MT magnetization transfer ratio and R1 in detection of MS multiple sclerosis -related tissue changes.

The amyotrophic lateral sclerosis center: a model of multidisciplinary management.

Amyotrophic lateral sclerosis (ALS) is a devastating, progressive motor neuron disorder that poses a myriad of clinical problems. Patients who have ALS are best cared for in a multidisciplinary fashion, with involvement of clinicians from various specialties, including neurology, physical medicine and rehabilitation, pulmonary medicine, clinical nurse specialists or nurse practitioners, physical and occupational therapists, speech language pathologists, dietitians, psychologists, social workers, and case managers. This article provides a summary of the current research into the rehabilitation of ALS, including the role of exercise, spasticity management, mood disorders, pain, and palliative care.

Modafinil reduces fatigue in Charcot-Marie-Tooth disease type 1A: a case series.

Charcot-Marie-Tooth disease, the most common hereditary motor and sensory neuropathy, is a slowly progressive disorder characterized by diffuse muscle weakness and prominent distal atrophy that predominantly involves the intrinsic muscles of the feet and the peroneal muscles. It results in marked reduction in functional aerobic capacity during exercise and fatigue is commonly reported. To date, no pharmacologic treatment has been shown to be effective for treating fatigue in Charcot-Marie-Tooth. Modafinil is used to treat the symptoms of fatigue and excessive daytime sleepiness in narcolepsy. However, fatigue and subsequent excessive daytime sleepiness secondary to fatigue are common symptoms in many neurologic disorders. Prior reports on patients with myotonic muscular dystrophy, multiple sclerosis, Parkinson's disease, and amyotrophic lateral sclerosis, have shown beneficial effects of modafinil in treating fatigue. We report 4 patients with genetically confirmed Charcot-Marie-Tooth disease who had significant fatigue that was almost completely relieved by modafinil.