27 Clinical Trials for Various Conditions
Spasticity is often observed as muscle tightness and stiffness in the upper and/or lower limbs. Upper limb spasticity can interfere with joint movement and its severity can range from mild to severe. Common causes of spasticity include cerebral palsy, traumatic brain injury, multiple sclerosis, spinal cord injury, and stroke. This study will assess how safe and effective ABBV-950 is in treating upper limb spasticity in adult post-stroke participants. Adverse events and change in symptoms will be assessed. ABBV-950 in an investigational drug being developed for treating spasticity. This study is conducted in 2 parts. In Part 1, participants are assigned to receive different doses of ABBV-950 or placebo. There is 1 in 4 chance that participants will be assigned to receive placebo. In Part 2, participants will be randomly assigned to receive BOTOX, ABBV-950, or placebo. There is 1 in 5 chance for participants to receive placebo. Approximately 297 adult post-stroke participants with upper limb spasticity will be enrolled at approximately 50 sites in the United States. In Part 1, participants will receive intramuscular (IM) injections of ABBV-950 or placebo on Day 1. In Part 2, participants will receive IM injections of BOTOX, ABBV-950, or placebo on Day 1. All participants will be followed for 24 weeks. There may be higher treatment burden for participants in this trial compared to the standard of care. Participants will attend regular clinic visits during the study. The effect of the treatment will be checked by medical assessments, checking for side effects and completing questionnaires.
This study is aiming to demonstrate the non-inferiority of AbobotulinumtoxinA (aboBoNT-A) versus OnabotulinumtoxinA (onaBoNT-A) as the primary safety endpoint, and the superiority of aboBoNT-A over onaBoNT-A with respect to duration of response as the key secondary efficacy endpoint when used at optimal doses according to approved prescribing information of each product.
Phase 2/3, randomized, double-blind, placebo-controlled, single-treatment, multicenter trial assessing the efficacy and safety of MYOBLOC for the treatment of upper limb spasticity in adults followed by an open-label extension safety trial.
The purpose of the study is to assess the safety and efficacy of increasing doses of IPN10200 with the aim to evaluate the Pharmacodynamics (PD) profile of IPN10200 and to establish the total IPN10200 doses(s) that offer the best efficacy/safety profile when used for the treatment of Adult upper limb (AUL) spasticity.
This is a multi-center, randomized, double-blind (patient and evaluator), sham-controlled study to be conducted in stroke patients with upper-extremity spasticity. The main objectives of this study are to evaluate the performance and safety of the MyoRegulator® device in active- versus sham-treated patients after 5 consecutive days of treatment. The MyoRegulator® device is a non-significant risk (NSR) investigational non-invasive neuromodulation device that uses multi-site direct current (multi-site DCS) stimulation for the treatment of muscle spasticity.
This is a randomized, Double-Blind, Placebo-Controlled, Parallel Group, Dose-Ranging, trial to Evaluate the Efficacy and Safety of DaxibotulinumtoxinA for Injection for the Treatment of Upper Limb Spasticity in Adults After Stroke or Traumatic Brain Injury. The study will be conducted in the U.S.A., approximately 128 adult subjects from approximately 30 study centers will be randomly assigned (1:1:1:1) to one of four treatment groups. The study consists of a 21-day screening period, a treatment visit and follow-up visits. The protocol was amended and the study was completed with fewer subjects than described in the initial protocol due to impact of COVID-19 on enrollment.
The primary purpose for this study is to understand the effect of botulinum toxin as a treatment integrated in the management of spasticity (stiffness) in the arm and/or hand, arising from any neurological condition. The study will look at the types of goals that people choose for treatment, and the extent to which these are achieved in different individuals.
This is a safety and efficacy study of onabotulinumtoxinA in poststroke patients with upper limb spasticity.
The purpose of this study is to assess the efficacy and safety of multiple doses of Dysport used in the treatment of upper limb spasticity (altered skeletal muscle performance) in children with cerebral palsy (CP).
Botox act on nerve endings, yet there are no nerve endings inside the muscle, where they are typically injected. All nerves terminate on the fascia, where ASIS device can precisely deliver Botox by creating that subdermal bloodless space, between the skin and muscle. Thus enhancing and prolonging Botox's efficacy, at the same time prevent it's unnecessary adverse reactions and distant spread, especially since Botox has no reason to travel to the rest of the body any way.
A proof of concept study to evaluate the feasibility of safe and effective treatment of upper limb spasticity using the Cryo-Touch III Device.
This study will evaluate the long-term safety of BOTOX® (botulinum toxin Type A) for the treatment of pediatric upper limb spasticity.
This study will evaluate the safety and efficacy of BOTOX® (botulinum toxin Type A) in pediatric patients with upper limb spasticity.
The purpose of this research study is to assess the long term safety of Dysport® in hemiparetic subjects with upper limb spasticity due to stroke or traumatic brain injury over repeated treatment cycles.
The purpose of this research study is to assess the efficacy of Dysport compared to placebo in improving muscle tone in hemiparetic subjects with upper limb spasticity due to stroke or traumatic brain injury.
This study evaluates the responsiveness of 7 functional tasks to botulinum toxin Type A treatment in poststroke patients with spasticity of the upper-limb flexors
The purposes of this pilot study are to evaluate the safety and efficacy of Botox® compared to the safety and efficacy of oral baclofen in reducing muscle tone-related disability resulting from neurological damage or a stable neurological disorder and to evaluate drug-therapy tolerance.
The purpose of this study is to determine whether a single treatment with administration of 400 Units NT 201 (botulinum toxin) is superior to placebo (no medicine) for the treatment of lower limb spasticity caused by stroke or traumatic brain injury (Main Period). Participants will be assigned to the treatment groups by chance and neither the participants nor the research staff who interact with them will know the allocation. The following 4 to 5 treatment cycles will investigate the safety and tolerability of treatment with NT 201 (botulinum toxin) when administered in doses between 400 and 800 Units (Open Label Extension Period). All participants will receive the treatment and the dose will depend on whether only lower limb spasticity or combined upper and lower limb spasticity are treated.
The purpose of this study is to determine if a combination of botulinum neurotoxin A and rehabilitation therapy is better than botulinum neurotoxin A alone for improvement in function based on the Fugl-Meyer and other validated measures. Hypothesis: The combination of botulinum neurotoxin A and rehabilitation therapy will produce better functional improvement than botulinum neurotoxin A alone in post-stroke upper limb spasticity measured by the Fugl-Meyer Assessment of Sensorimotor Recovery after Stroke.
The purpose of this study is to determine whether injections of Botulinum toxin type A into muscles of one or both arms alone or in combination with injections into one or both legs are effective and safe in treating children/adolescents (age 2-17 years) with increased muscle tension/uncontrollable muscle stiffness (spasticity) due to cerebral palsy.
The participants of this study will have AUL spasticity and have a need for botulinum toxin type A injections. AUL spasticity is where people develop tightening or stiffness of the muscles in the arms. Botulinum toxin type A is used for the treatment of spasticity in addition to physiotherapy. This study will ask participants to describe their experience living with AUL spasticity. This information will be used to assess the Arm Activity Measure (ArmA). ArmA is a scale designed to assess upper limb function in people with AUL spasticity. This study could suggest changes to the ArmA to improve its suitability for people with AUL spasticity or even the development of a new scale.
The purpose of this study is to evaluate the safety of repeated doses of Botulinum Toxin Type A for the treatment of focal upper limb poststroke spasticity
The purpose of this study is to determine whether injections of Botulinum toxin type A into muscles of the upper limb are effective in treating spasticity in patients after stroke.
The purpose of this study is to investigate if two courses of five consecutive sessions of noninvasive spinal stimulation paired with peripheral nerve stimulation at the forearm provided by an investigational device (Doublestim™/ MyoRegulator™ System - PathMaker Neurosystems Inc.) are able to improve wrist stiffness and motor function, when combined with intensive robotic wrist training program in participants with chronic spastic hemiparesis after stroke.
The purpose of this clinical study is to assess whether AbobotulinumtoxinA (Dysport®) injections in upper and lower limbs accompanied with a personal exercise plan called "Guided Self-rehabilitation Contract" (GSC) can improve voluntary movements in subjects with hemiparesis.
The purpose of this study is to evaluate the safety of injections of botulinum toxin Type A in patients with reduced lung function and focal upper limb poststroke spasticity
The purpose of this study is to determine whether injections with increasing doses (up to 800 units) of Botulinum toxin type A into muscles of the leg and/or arm are safe and effective in treating patients with spasticity on one body side due to cerebral causes.