View clinical trials related to Muscle Spasticity.
Filter by:Botulinum toxin A (GSK1358820) is a sterile, purified type A botulinum neurotoxin complex. In Japan, 240 units of botulinum toxin A are approved as a maximum dose per administration for upper limb spasticity. This study is planned to evaluate the effectiveness and safety of 400 units of botulinum toxin A which can help to increase the maximum dose per administration to 400 units from 240 units as the treatment with 240 units is considered insufficient in subjects with post-stroke upper limb spasticity. Approximately 120 subjects will be randomized to receive either 400 or 240 units of botulinum toxin A in double blind phase followed by open-label phase in which 400 units of the study treatment will be injected in both the groups. The study period will be up to 52 weeks, consisting of a screening phase up to 4 weeks, minimum 12-week double blind phase (Part 1), maximum 36- week open-label phase (12 weeks per cycle with 3 treatment phases: Part 2, Part 3 and Part 4).
The aim of the study was to analyze which step of the procedure of toxin botulinum injection is the most painful between skin break-in, electric stimulation, injection and needle withdrawal.
The purpose of this study is to improve spasticity diagnosis through exploration of potential new diagnostic markers for spasticity that can assist in diagnosis and referral.
A single-center, observational, prospective, single dynamic cohort study with before-after design. Treatment with 6 sessions using dry needling with DNHS® (Dry Needling for Hypertonicity and Spasticity) on the spastic muscles of the affected arm in patients with stroke. Spasticity will be assessed by Modifying Modified Ashworth Scale (MMAS), functionality with the Fugl-Meyer scale for the upper limb, motor recovery with Brunnstrom Stages Scale (BSS) and upper limb spasticity pattern (ULP), pain by 10-points Numerical Rating Scale (NRS10) and the quality of life with the Euro QoL 5D survey.
Involuntary muscle activity, often called spasticity, is a common problem following spinal cord injury (SCI) that can make it hard to move. Many things can cause spasticity including: muscle stretch, movement, or it can happen for no reason, and it is often described as an uncontrolled muscle spasm or feeling of stiffness. Drugs are typically used to treat spasticity, but they often have side effects, like muscle weakness, which can add to movement problems. Rehabilitation therapies offer alternatives to drugs for treating involuntary muscle activity, and rehabilitation can also improve daily function and quality of life. These benefits may be greater when several rehabilitation therapies are used together. Walking ability can be improved with a type of therapy called "locomotor training". This type of therapy may also have the benefit of decreasing spasticity. When locomotor training (LT) is combined with electrical stimulation, the benefits of training may be increased. In this study, investigators will use a kind of stimulation called transcutaneous spinal cord stimulation ("TSS") to stimulate participants' spinal cord nerves during locomotor training.
The aim of this study is to evaluate if a intervention with hippotherapy will improve spasticity for children ages 3-14 who have cerebral palsy. The hip aductors spasticity will be measured using the Modified Ashworth Scale (MAS). The intervention will be performed in addition to traditional treatment.
The purpose of this study is to test the reliability of using telemedicine so a neurologist can remotely identify residents of a long-term care facility who should be referred to a neurologist for an in-person spasticity consultation.
The purpose of this study is to improve spasticity diagnosis through development of a simple physical examination guide for primary care providers to identify patients who would benefit from being referred to a movement disorders neurologist for a spasticity evaluation.
Study goals 1. Prospective longitudinal data on progression in the natural course of SPG4 in presymptomatic mutation carriers prior to clinical disease onset and in early stages of disease 2. Biomarkers providing objective measures of disease activity
This study will examine the impacts of two different methods of managing MS-related spasticity of the lower limbs. Both interventions will be presented via video teleconference in group classes consisting of exercises to reduce spasticity.