Condensed and Distributed Robotic Therapy in Spastic Stroke Post Botulinum Toxin Injection
StrokeHemiplegia1 moreThe 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.
Repetitive Transcranial Magnetic Stimulation in Post Stroke Upper Limb Spasticity
Spasticity as Sequela of StrokeThe reticulospinal pathway (RSP) is at the center of spasticity mechanism. The RSP indirectly synapses with motor neurons via interneurons in the ventromedial intermediate zone in both halves of the spinal cord, and directly synapses with motor neurons of proximal extremity muscles. The main motor cortex region controlling unilateral RSP is the premotor cortex. That is, a single limb is represented in both premotor cortices. This suggests theoretically that if the corticoreticular pathway controlling RSP is modulated by dorsal premotor cortex stimulation, there may be a change in the regulation of the intraspinal network regulating the stretch reflex. Therefore, the hypothesis in this study is that the application of repetitive transcranial magnetic stimulation (rTMS) over the contralesional dorsal premotor cortex in chronic stroke patients changes the severity of spasticity.
Effect of Myofascial Release With Tennis Ball on Spasticity and Motor Functions
StrokeImpaired motor function and upper extremity spasticity are common concerns in patients after stroke. It is essential to plan therapeutic techniques to recover from the stroke. The objective of this study was to investigate the effects of myofascial release with the tennis ball on spasticity and motor functions of the upper extremity in patients with chronic stroke.
Myofascial Release and Sustained Stretching in Spastic CP Children
Cerebral PalsyThe aim of this research was to find and compare the effects of Myofascial Release Technique and Passive Sustained Stretching on Hamstrings Flexibility in Children with Spastic Cerebral Palsy.
Effect of Cervical Mobilization on Balance and Plantar Pressure Distribution in Multiple Sclerosis...
Multiple SclerosisMuscle Spasticity2 moreMS patients were randomly divided into traditional therapy and traditional therapy + cervical mobilization groups. While muscle strengthening, stretching, balance and coordination exercises were given to the traditional group, cervical mobilization was applied in addition to these in cervical group. Patients received treatments twice a week for 4 weeks. The effect of the applied treatment on the tonus and plantar pressure distribution was analyzed. Treatments were interrupted for 4 weeks and the groups continued with the treatment they did not receive (crossover design). The group that received traditional treatment in the first period completed traditional + cervical mobilization, and the other group with traditional + cervical mobilization traditionally completed the treatment.
Effects Of Whole Body Vibration On Lower Extremity With Diplegic Spastic Cerebral Palsy
Spastic DiplegiaThis study will help to determine the beneficial effects of high frequency vibration on children with diplegic cerebral palsy in improving balance ,spasticity, strength of lower limb and quality of life and a comparison between the effect of simple conventional treatment and conventional management with the usage of vibrational therapy in cp patients.
Efficacy of Combination Taping Technique vs Ankle Foot Orthosis on Improving Gait Parameters in...
GaitSpastic DiplegiaGait in children with spastic CP is often characterized by abnormal gait kinematics as knee flexion and equines foot which associated with such gait deviations, an elevated walking energy cost is often observed which may contribute to activity limitations. The ability to maintain proper joint alignment of the lower extremity, and control the position of the foot in standing and walking is a critical treatment objective for gait in children with cerebral palsy. Lower extremity orthoses, such as ankle-foot orthoses (AFOs) are widely recommended in children with spastic cerebral palsy to prevent the development or progression of this deformity and to improve the dynamic efficiency of the child's gait. The use of Kinesio taping in pediatric rehabilitation becomes increasingly popular in recent years. Recent systematic reviews reported moderate evidence that Kinesiology taping is a useful adjunct to physiotherapy intervention in higher functioning children with CP. Combination tapings is a technique first introduced by Kenzo Kase, in which Kinesio taping is coupled with the rigid athletic tape to maximize the treatment benefits. This approach remains briefly addressed in the literature with no prior studies has examined the effects of combination tapings in the CP pediatric population. Hypothesis: there is no difference between the effect of combining tapings and ankle-foot orthosis on spatiotemporal gait parameters in spastic cerebral palsied
Effect of Tecar in Addition of Functional Massage in Post-stroke Spasticity
Stroke SequelaeMassage3 moreSpasticity is due to an abnormal processing of a normal input from muscle spindles in the spinal cord.
Effects of Neurodynamics on Lower Extremity Spasticity - a Study in Chronic Stroke
Chronic StrokeStroke1 morePost-stroke spasticity in the lower extremity affects balance and gait, leading to decreased mobility and functional independence. Therefore, effective intervention for reducing spasticity is crucial in stroke rehabilitation. Recently, neurodynamics, though originally designed for pain management in orthopedic patients, has also been applied for treating spasticity in patients with neurological disorders. However, previous studies focused mainly on treating the upper extremity spasticity, but not on lower extremity spasticity, and not on possible neurophysiological changes. The present study aims to investigate the immediate effects of neurodynamics in reducing lower limb spasticity and neurophysiological changes in people with chronic stroke.
DDN in Stroke--COBRE
StrokeSpasticity2 moreThe study team is recruiting 20 adults with spasticity due to chronic stroke for a 7 day study over 2 weeks. In people with chronic stroke, one of the most common and disabling problems is spasticity (increased muscle tone or muscle stiffness). The purpose of this research study is to examine effects of dry needling on the nervous system (pathways between the muscle, spinal cord, and brain) in people with spasticity due to chronic stroke. Dry needling is a procedure in which a thin, stainless steel needle is inserted into the skin to produce a muscle twitch response. It is intended to release a knot in the muscle and relieve pain. The total study duration is 7 visits over 2 weeks. There will be 4 visits the first week, and 3 visits the second week. The first visit will take about 1.5 hours, during which study staff will determine the best placement of electrodes and create a cast of the participant's leg to aid them in quickly placing the electrodes on the remainder of the visits. The second and fifth visits will last about 3.5 hours, and all other visits will last about 1.5 hours. Dry needling will take place on the fifth visit only. During each visit the participant will be asked to participate in examinations of reflexes (muscle responses to non-invasive nerve stimulation) and leg function.