View clinical trials related to Muscle Spasticity.
Filter by:Despite the wide-spread use of botulinum toxin (BT) to treat spasticity (increased muscle tone) in central neurological disease, evidence-based guidance on dosing, dilution, and injection technique is limited. The wide-spread use of BT in spasticity management, expense of these agents, and detrimental impact from movement into non-injected muscles mandates a better understanding of BT movement within muscles. A proof-of-concept paper written by investigators at Weill Cornell Medicine introduced a non-invasive MRI approach with "voxel thresholds" that was able to detect intramuscular effects of BT at 2 and 3 months post-injection of BT. The purpose of the current set of studies is to refine this MRI technique to better visualize the movement of botulinum toxin through muscle. In addition, the investigators plan to explore, using the imaging technique, how spastic muscle and differing dilutions affect BT movement in an effort to support the development of better research techniques to study toxin movement in human muscle.
The aim of this study is to investigate if ankle-foot orthoses affect changes in muscle activity of children with spastic unilateral cerebral palsy during walking. To minimize investigator variability, the same orthotist CO, clinical gait analyst GA and physiotherapist PT will perform their designated functions for all participants. Each subject will be required to attend three appointments. First appointment: CO takes a lower leg cast of the involved side; the cast is taken with the ankle and hindfoot corrected to neutral position. Second appointment: CO fits the tone-reducing ankle-foot orthosis which entails trimming the device to fit footwear, checking the orthotic device restricts plantarflexion and ensuring comfortable and functional fit. The device is modified with holes for electrode placement at locations for tibialis anterior and gastrocnemius identified by PT. The child receives the tone-reducing ankle-foot orthosis and is instructed to use this orthotic device on a daily basis for the next four weeks to grow accustomed to the tone-reducing stimuli which may require some acclimatization. Third appointment: A clinical examination is conducted by PT. Surface gel electrodes are then attached while the participant is instructed in individual muscle activation tests; SENIAM guidelines will be followed for electrode placement and skin preparation, aside from hamstrings and rectus femoris which will follow amended instructions in line with the scientific literature. GA quality checks the raw electromyography (EMG) signals by visual inspection during the isolated muscle activation tests and during a dynamic trial for movement artefacts, cross-talk, baseline drift and good noise-to-signal ratio. Reflective markers are then applied in accordance with Plug-in Gait lower body model by PT to collect kinematic and kinetic data. A resting trial is collected to establish the baseline activity level for each muscle. The participant is instructed to walk at a self-selected speed along the walkway. Dynamic trials continue until two clean strikes to the middle force plate are collected for the involved leg. Barefoot data is collected first while any additional modifications necessary for electrode placement are made to the ankle-foot orthoses. The order of the orthotic conditions is randomized. Data will be recorded confidentially using reference codes for participants and stored on a secure server with designated space allocated by the hospital.
This study evaluates the effects of an isokinetic fatigue protocol of the quadriceps on the amount of co-contractions of this last with the hamstrings during a maximal isometric flexion movement in hemiparetic stroke patients. The effect of such a protocol on gait parameters and spasticity of the quadriceps will be evaluated also.
The purpose of this project is to examine and compare the immediate and long-term effects of combined Botulinum toxin type A (BoNT-A) injection between condensed and distributed robot-assisted training (RT) programs in patients with spastic hemiplegic stroke. Spasticity, a common impairment after stroke, has a profound impact on activity and participation for patients. According to the result of the investigator's ongoing study, the investigators found BoNT-A injection combined with robot-assisted training is recommended to enhance functional recovery for patients with spastic hemiplegic stroke. However, the optimal program as considering the RT frequency is unknown. The aims of this study are to determine and compare the immediate and longer-term effects between condensed and distributed programs of RT following BoNT-A injection in subjects with spastic hemiplegic stroke . Participants with chronic spastic hemiplegic stroke will be recruited and randomly assigned to either condensed or distributed RT groups post BoNT-A injection. Each training session included 40 minutes RT, followed by 40-minute functional training. The condensed group will receive 4 sessions per week, for 6 weeks, the distributed group 2 sessions per week, for 12 weeks. Body function and structures outcome measures include Fugl-Meyer Assessment, Modified Ashworth Scale. Activity and participation measures include Wolf Motor Function Test, Motor Activity Log, and Canadian Occupational Performance Measure. In addition, to directly reflect a patient's unique needs and goals, Goal Attainment Scaling will be assessed. Evaluators will be blind to group allocation. The outcome will be measured at pre-treatment, post-treatment, and 6-week follow-up. The investigators will also use the movement time of robot without powered assistance and surface EMG to determine the motor learning processes of patients receiving the two practice frequencies of RT. This comparative efficacy study will be the first to examine and compare the motor learning processes and immediate and long-term effects between condensed and distributed RT post BoNT injection. The results may provide clinicians with the appropriate methods to scheduling RT following BoNT-A injection to improve upper limb functions for patients with hemiplegic spasticity stroke.
Spasticity is a common complication in MS and occurs in up to 84% of patients. The main sign of spasticity is resistance to passive limb movement characterized by increased resistance to stretching, clonus, and exaggerated deep reflexes. Osmotica Pharmaceutical is currently developing arbaclofen extended-release tablets (AERT) for the treatment of spasticity in patients with MS.
Spasticity is a disorder of the muscular tonus that occurs in disease including the upper motor neuron (strokes, spinal cord injuries, multiple sclerosis, traumatic brain injuries or cerebral palsies). It begins few hours after the neural aggression and last until the grave. The most accepted definition refers to a velocity-dependent increase in stretch reflexes elicited by passive stretch (Lance definition) but new approaches prefers to distinguish neural (reflex) and non-neural (soft tissues alterations) components of the increase resistance to a passive stretch. This deficiency is a major cause of complications as walking impairment, pain or bone deformities and may require intensive therapies (intrathecal baclofen infusion, intramuscular toxin botulinium injection, surgery, etc). Despite its high frequency and the potential complications, only clinical scales (modified Ashworth scale and modified Tardieu scale essentially) with criticized metrological properties are available for daily assessment. The SPASM Consortium has published on 2005 recommendations for developing devices using both mechanical and electrophysiological parameters. The principle challenge was to ally parameters accuracy and utilization facility allowing quickly evaluation to the patient's bed. Few research team works on this topic but mostly on specific population and nowadays, no device has really crossed the door of laboratories. This kind of tool would help us to improve the quality of the follow-up and to guide us between the choices of specific therapies. The MSPMI has been created following these recommendations in the University of Technology of Compiègne, thanks to the collaboration between researchers of the UMR 7338 CNRS and a brain surgeon of the Nantes University Hospital. The patent was obtained on 2012. This device allows the assessment of the ankle plantar extensor (triceps surae) during a manually applied stretch movement. This muscle was selected as it is frequently involved and treated for spasticity. This study aims to evaluate the metrological properties of the MSPMI (reliabilities, responsiveness, known group validity, construct validity, measurement errors and internal consistency) among a large cohort of patients with no restriction of etiologies recruited in the Nantes University Hospital.
This is a single-center, double-blind, randomized, placebo-controlled, sequential Phase II trial of human recombinant hyaluronidase injections in individuals with post-stroke upper limb muscle stiffness. The investigators will recruit 50 subjects, 25 males and 25 females, who will be randomized to receive either hyaluronidase plus saline (treatment arm, n=25) or normal saline (control arm, n=25) injections (first injection) in Phase 1 of the study over 5 visits that will test all 3 study aims. Then subjects will join the Phase 2 to receive a second injection, where the treatment arm will receive the placebo and the placebo arm will receive the treatment. It is expected that approximately 50 participants will be enrolled to produce 42 evaluable participants. This design will ensure that all subjects receive the drug treatment, which will facilitate recruitment. The injecting physician, the assessors, and the patients will be blind to group assignment. Randomization will be initiated by the IDS pharmacy as per the study statistician. All patients will be assessed at seven visits over 9 weeks of the study: Visit 1 - screening and baseline assessment of aims 1 and 2 (week 1-2); Visit 2 - pre-injection MRI for aim 3 (week 1-2); Visit 3 - first injection (week 2); Visit 4 - post-injection MRI (week 3-5); Visit 5 - post-injection follow up for aims 1 and 2 (week 3-5); CROSSOVER TO OPPOSITE TREATMENT ARM Visit 6 - Second injection (week 6); Visit 7 - post-injection follow-up for aims 1 and 2/ final study visit (week 7-9). There will be no MRI assessment after the second injection as the technique is adequately sensitive to demonstrate changes with a small sample size. The investigators will follow the patients for approximately 9 weeks in this study. After obtaining informed consent, subjects will be screened to ensure that the subjects meet study criteria.
The purpose of this study is to evaluate if it is possible to use a new 3D imaging method to guide Botulinum neurotoxin (BTX) injection for muscle spasticity management after stroke. This imaging method is called three dimensional innervation zone imaging, or 3DIZI.
Multiple Sclerosis (MS) is an acquired inflammatory demyelinating disease of the central nervous system (CNS) that is regarded as the foremost cause of non-traumatic neurologic disability in adults in North America. Spasticity is a common complication in MS and occurs in up to 84% of patients. The main sign of spasticity is resistance to passive limb movement characterized by increased resistance to stretching, clonus, and exaggerated deep reflexes. Osmotica Pharmaceutical is currently developing arbaclofen extended-release tablets (AERT) for the treatment of spasticity in patients with MS.
The purpose of this study is to evaluate the efficacy and safety of CORETOX® in the treatment of post-stroke upper limb spasticity