Active clinical trials for "Muscle Spasticity"

This is a long-term safety and efficacy study of onabotulinumtoxinA in poststroke patients with upper limb spasticity.

To evaluate efficacy and safety of BGG492 versus placebo on moderate to severe spasticity due to multiple sclerosis

The main outcome of physical therapy interventions is the progress of gross motor functions which result from the interactions between many factors not limited to physical, medical or surgical interventions but also including child characteristics and socializing agents. Aim of the study: To determine the effect of socioeconomic status (SES), child characteristics (age, sex, severity, and type of cerebral palsy) on the progress of gross motor functions in children with cerebral palsy. Methods: Prospective cohort study on eighty children (44 boys, 36 girls) aging 3.11 ± 0.88 years old, diagnosed as spastic cerebral palsy. The gross motor function measure (GMFM-88) between two-time intervals with follow-up time 6 months Results: The median of the mean difference for the GMFM scores was related to socioeconomic status, age, sex, severity, and type of CP.

Effects of Chemodenervation (Botulinum Toxin A) and Serial Casting vs Botulinum Toxin A and without serial casting in Lower Limb Spasticity following ABI.

This study seeks to compare the use of ultrasound and electrophysiologic techniques to target muscles for the treatment of spasticity and focal dystonia of the limbs. The purpose of this study is to investigate the use of two ways of locating the muscle for botulinum toxin (BoNT) injection for the treatment of focal hand dystonia and upper limb spasticity. Electrophysiologic guidance, using electrical stimulation, and ultrasound are the standard ways of locating muscles during a treatment of BoNT injection.

This study was conducted to determine the effectiveness of Physical Therapy management in relieving constipation among Spastic Cerebral Palsy children. There were two groups, Group A received routine Physical Therapy and Group B received maintenance Physical Therapy (aim to maintain current level of spasticity, functionality to avoid deterioration of conadition as approved by ASRC)

Spinal cord injury is a devastating condition, causing substantial impairment of vital body functions caudal to the lesion. A major cause of disability stems from spasticity, a common secondary sequelae. Its various clinical manifestations include spasms, clonus, and resistance to passive movements, and often present a major hindrance in rehabilitation, further deteriorate residual motor performance, and negatively impact independence and quality of life. Despite its high prevalence, successful management of spasticity has remained difficult. Standard-of-care treatment modalities are often insufficient or bear the risk of undesirable side effects further accentuating paresis. Epidural stimulation of the lumbar spinal cord via implanted electrodes provides for an alternative approach. It works through modifying the dysregulated neural signal processing of spared spinal circuitry caudal to the injury. Its ameliorative effects on severe lower-limb spasticity have been repetitively reported. Yet, epidural spinal cord stimulation in motor disorders is still off-label, applied in relatively few patients only, also because of its invasive character, the time consuming testing phase for its effective application, and the lack of markers to identify responders in advance. With the development of transcutaneous spinal cord stimulation, a method became available to activate the same input structures to the lumbar spinal cord as with epidural stimulation and hence to induce similar neuromodulatory effects, yet non-invasively, using standard equipment available at rehabilitation centers. A recent proof-of-concept study has shown that a single 30-minute session of transcutaneous spinal cord stimulation controlled various clinical signs of spasticity and augmented residual motor control in spinal cord injured individuals for several hours beyond its application. Further, in one subject, the stimulation was repetitively applied for six weeks, resulting in cumulative therapeutic effects persisting for 10 days after its discontinuation. These observations strongly suggest that the stimulation can induce beneficial neuroplastic adaptations of spared spinal systems and their interaction with residual supraspinal control. The proposed research aims at studying the reproducibility of these findings in a statistically sound cohort of individuals with spinal cord injury and testing the applicability and acceptance of transcutaneous spinal cord stimulation as a home-based therapy.

The purpose of this study is to examine the effectiveness of onabotulinum toxin A (BTX) injections (tone management) and dynamic splinting (contracture reduction) for improving gait patterns in patients with spastic hypertnoia due to stroke or traumatic brain injury and resultant excessive plantarflexion.

Stroke is one of the leading cause of death and disability worldwide. Post-stroke spasticity (PSS) is outbreak after a stroke and is featured by disabling muscle stiffness. PSS could manifest in up tp 50% cases within 6 months after a stroke, especially in the upper limb. Despite it is an acknowledged condition it is insufficiently recognized and treated in clinical practice. Focal and regional spasticity could improve with rehabilitation and in selected cases with botulinum neurotoxin (BoNT) type A injections. The latter causes muscle relaxation and fosters neuroplasticity, which is able in turn of ameliorating several patient functional aspects. Recent literature demonstrated that PSS patients treated with early BoNT (within 3 month since PSS outbreak) could improve in their clinical status better than patients with a later treatment. An earlier recognition of PSS predictors could improve patient management. Hence, the investigators are going to perform a multicentric prospective observational real life study with BoNT, based on the best clinical practice and aimed at the early recognition and management of PSS through the identification of 1) early clinical predictors of spasticity (collected within 10 days since stroke), 2) BoNT clinical outcome relative to the timing of the treatment

Assessing the objective measurement of passive joint mobility (ROM) in the spastic upper limb with Jost's pattern III in patients with post-stroke spasticity after infiltration with BoNT-A allows to objectify the increase in passive joint balance (ROM).