View clinical trials related to Muscle Spasticity.
Filter by:Botulinum toxin A (BoNT-A) is effective and safe in alleviating post-stroke spasticity and reducing the burden of associated symptoms. The hypothesis for this non-interventional study in arm spasticity (AS-NIS early BIRD) is no significant difference between naïve and pre-treated patients. The patients will be divided in sub-groups according to the time interval between occurrence of stroke and start of treatment (early, medium and late start of treatment according to the first and third quartiles time distribution). It is hypothesized that the "early" start of treatment group will have a reduced modified Ashworth scale (MAS) on the elbow and wrist flexors when compared to the "late" start of treatment group.
This is a single-center, partial-blind, randomized, placebo-controlled, parallel design study with a nested crossover comparison to define the ECG effects of tizanidine compared to placebo and the positive control, moxifloxacin, in healthy men and women. The study will be conducted in a Phase 1 unit with sufficient facilities to house subjects as required by the protocol.
Cerebral palsy (CP) is a neuromuscular disorder that affects approximately 800,000 individuals in the U.S. An estimated 70-80% of these individuals have spasticity which affects ambulation and requires management. Therefore, the treatment of spasticity is a primary goal of interventions for children with CP. One treatment widely used to reduce spasticity is Botox because of its ability to temporarily paralyze a muscle. However, no studies have determined the effect of Botox treatment on bone in humans. Also, a low magnitude vibration treatment has been shown to improve bone structure in the lower extremity bones of children with CP. The aims of this study are: 1) to determine the effect of Botox treatment in conjunction with a daily vibration treatment on bone mass and bone structure in children with spastic CP, and 2) to identify the mechanism that underlies the effect of Botox and vibration on bone.
Open-label, safety study of SPARC1104 in subjects with spasticity due to multiple sclerosis
CoRDS, or the Coordination of Rare Diseases at Sanford, is based at Sanford Research in Sioux Falls, South Dakota. It provides researchers with a centralized, international patient registry for all rare diseases. This program allows patients and researchers to connect as easily as possible to help advance treatments and cures for rare diseases. The CoRDS team works with patient advocacy groups, individuals and researchers to help in the advancement of research in over 7,000 rare diseases. The registry is free for patients to enroll and researchers to access. Visit sanfordresearch.org/CoRDS to enroll.
Spasticity - movement disorder, which is part of the syndrome of defeat top motor-neuron, characterized by the rate-dependent increase in muscle tone and increased dry-core reflections from hyperexcitability of stretch receptors (Lance, 1980). Spasticity - a frequent symptom of neurological diseases (Valero-Cabre, Pascual-Leone, 2005) and may be accompanied by such a disorders consequences of stroke, multiple sclerosis, head trauma and spinal cord, cerebral palsy, etc. The magnitude and severity of spasticity depends on the level of the lesion, the duration of its existence from the time before the disease, and possible plastic changes in axons and synapses on the affected level. There are two basic models of spasticity: cerebral (hemiplegic) and spinal (paraplegicheskaya) (Nikitin, 2005). Cerebral model appears with the direct injury of the brain and is characterized by increased excitability of monosynaptic reflexes with the rapid development of pathological ref-plexes and characteristic hemiplegic posture. Model is characterized by spinal spasticity opposite lower segmental inhibition polysynaptic reflexes slow increase of nervous excitability due to the mechanism of cumulative excitation perevozbuzhdeniem flexor and razgibate-ing, as well as expansion of the area of segmental responses (Nikitin, 2005). As spinal and cerebral spasticity are extremely difficult corrected by standard medical clinic and physiotherapy methods. In this regard, in the world literature actively searched for addi-tional search correct this symptom. A new modern methods that could affect the syndrome of spasticity is rhythmic transcranial magnetic stimulation (Mori et al., 2009).
The clinical primary hypothesis is that there will be a difference between a Cannabis Sativa extract and placebo in their effect on spasticity in Motor Neuron Disease (MND) patients with signs of involvement of the upper motor neuron (UMN) resulting in disabling spasticity. Secondary goals of the study are to evidence of improvement in other symptoms (in particular pain), and to show favourable trends on functionality measures. Finally, cannabis based drug safety and tolerability will be studied through vital parameters (including weight and pulmonary function) measurement, and analyzing ALS function rating scale progression slope hopefully, showing a slowing of the functional values decrease, owing to cannabis neuroprotective effects)
Within the first year after stroke, approximately 38% of stroke survivors experience an increased resistance to movement, also called spasticity. One type of treatment that is approved for stroke survivors in Canada that could reduce spasticity is the injection of Botulinum toxin (BTX) into the affected muscle. While BTX reduces spasticity, there is limited evidence to show that BTX administration leads to functional improvements. This may occur because the outcomes aren't sensitive enough to detect change, some people may have better responses to BTX, or because BTX hasn't been paired with the right exercises to improve function. The aims of this research are: i) to determine if there is a way of improving the markers that measure change in response to treatment; and ii) to identify the ideal type of exercise that should be paired with BTX to allow the drug to have it greatest effect. There are two primary research questions: a) What are the measures that will indicate whether a person with post-stroke spasticity will benefit from BTX therapy? It is hypothesized that EMG latency and amplitude, for those who best respond to BTX, will differ from those who demonstrate a weaker response to BTX; b)What is the ideal training approach for improving muscle function in stroke survivors receiving BTX injections? It is hypothesized that a training protocol that focuses on optimizing specific muscle activation patterns will demonstrate better outcomes than a training program designed to improve function.
This is a multicenter, randomized (1:1:1), double-blind, active and placebo controlled, parallel group study to evaluate safety, tolerability and efficacy of oral arbaclofen in MS patients with spasticity. Eligible subjects will be removed from anti-spasticity medications for at least one week and then begin study drug treatment with daily doses increasing up to the target dose which will then be maintained for at least 12 weeks. A down-titration will then occur over two weeks.
This post-approval study will primarily evaluate the long-term safety of the MedStream Programmable Infusion System when used in combination with Baclofen for the treatment of severe spasticity. A secondary objective, to assess long-term effectiveness, based on the observed scores on the Ashworth Scale (rigidity for the lower extremities) and their Spasm Scores over the 36-month follow-up period will also be described.