Whole Body Vibration for Hemiparetic Cerebral Palsy
- Conditions
- Physical Therapy
- Interventions
- Procedure: Physical therapy exercises.
- Registration Number
- NCT05896111
- Lead Sponsor
- Cairo University
- Brief Summary
This study is to investigate the effect of whole body vibration in children with hemiparetic cerebral palsy on range of motion of shoulder, elbow and wrist and muscle strength of shoulder abductors and flexors, elbow flexors and extensors, wrist extensors and flexors.
- Detailed Description
Studies show efficacy of whole body vibration in reducing spasticity, improving strength, balance, ankle dorsiflexion angle and gait parameters in post stroke and spinal cord injury patients improving posture and balance in patients with Parkinson's disease and multiple sclerosis. Although research suggests a positive influence of vibration on motor performance in individuals with neurological disorders, there are very limited numbers of studies in children with cerebral palsy.
Few Studies Have Shown improvement in children with cerebral palsy: spasticity decrease as measured by isokinetic dynamometer. Strength of muscles increase as measured by hand held dynamometer. Motor function increase as measured by Gross Motor Function Measure and Gross Motor Function Classification Scale. Increase of the activation and the co- activation of biceps and triceps. Vibrations increase bone mass and muscle strength in upper limbs.
Vibration therapy decreases spasticity and improve motor performance in children with cerebral palsy. Reduce flexors spasticity and improve functions in the rehabilitation of upper limb spasticity. Focal muscle vibration on triceps brachii muscle can reduce the spasticity for both elbow and wrist joint muscles.
So in this study, the investigators are trying to implement an additional rehabilitation method for upper limbs in hemiparetic children to improve their upper limb range of motion and strength which will reflect an improvement in their upper limb functions and activities of daily living.
Recruitment & Eligibility
- Status
- RECRUITING
- Sex
- All
- Target Recruitment
- 40
Not provided
Not provided
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- PARALLEL
- Arm && Interventions
Group Intervention Description Whole body vibration. Physical therapy exercises. Each child will be seated on an armless chair in front of the platform and instructed to flex both shoulders at 90°, slightly bend both elbows, and then bend the trunk forward to allow both hands to be placed on the platform. Each subject will be allowed to hold the palms slightly off the platform to minimize discomfort and prevent strong stimulation of the organs, eyes, and head. designed physiotherapy program Physical therapy exercises. These exercises included: Passive stretching exercises for elbow and wrist flexors. Weight-bearing exercises for the upper limbs. Stimulation of the protective reactions of the upper limbs in all directions. Strengthening exercises for antagonists of the spastic muscles, including elbow and wrist extensors, using different toys and motivation to encourage the children to perform the desired exercises (El-shamy, 2018). The treatment session for 1hour 5 days / week for 4 weeks.
- Primary Outcome Measures
Name Time Method Change in shoulder joint abduction range of motion. Change from Baseline shoulder joint abduction range of motion at one month. Measurement of range of motion of shoulder joint abduction using the digital Goniometer.
Change in wrist joint extension range of motion. Change from Baseline wrist joint extension range of motion at one month. Measurement of range of motion of wrist joint extension using the digital Goniometer.
Change in wrist joint flexion range of motion. Change from Baseline wrist joint flexion range of motion at one month. Measurement of range of motion of wrist joint flexion using the digital Goniometer.
Change in strength of elbow extensors muscles. Change from Baseline strength of elbow extensors muscles at one month. Measurement of strength of elbow extensors muscles using the Lafayette handheld dynamometer
Change in shoulder joint flexion range of motion. Change from Baseline shoulder joint flexion range of motion at one month. Measurement of range of motion of shoulder joint flexion using the digital Goniometer.
Change in strength of shoulder abductors muscles. Change from Baseline strength of shoulder abductors muscles at one month. Measurement of strength of shoulder abductors muscles using the Lafayette handheld dynamometer
Change in strength of elbow flexors muscles. Change from Baseline strength of elbow flexors muscles at one month. Measurement of strength of elbow flexors muscles using the Lafayette handheld dynamometer
Change in elbow joint flexion range of motion. Change from Baseline elbow joint flexion range of motion at one month. Measurement of range of motion of elbow joint flexion using the digital Goniometer.
Change in elbow joint extension range of motion. Change from Baseline elbow joint extension range of motion at one month. Measurement of range of motion of elbow joint extension using the digital Goniometer.
Change in strength of wrist flexors muscles. Change from Baseline strength of wrist flexors muscles at one month. Measurement of strength of wrist flexors muscles using the Lafayette handheld dynamometer
Change in strength of shoulder flexors muscles. Change from Baseline strength of shoulder flexors muscles at one month. Measurement of strength of shoulder flexors muscles using the Lafayette handheld dynamometer
Change in strength of wrist extensors muscles. Change from Baseline strength of wrist extensors muscles at one month. Measurement of strength of wrist extensors muscles using the Lafayette handheld dynamometer
- Secondary Outcome Measures
Name Time Method
Trial Locations
- Locations (1)
Ministry of Health
🇪🇬Giza, Egypt