Clinical Trials Logo

Clinical Trial Summary

Objectives: To look for the effect of upper limb loading with external weights during partial body weight support treadmill training on gait speed, gait endurance and trunk control. Hypothesis: Investigator's hypothesis is that loading the upper limb with 1 lb. external weights during partial body weight support treadmill training is more effective than partial body weight support treadmill training without loading of the upper limbs in improving gait speed, gait endurance and trunk control.


Clinical Trial Description

Cerebral Palsy (CP) is a non-progressive neurodevelopmental disorder which affects the child's motor and sensory system, and consequently posture and walking. The underlying etiology is considered multifactorial, and no specific etiological factor has been blamed. While it may be seen in the prenatal, neonatal, and postnatal period, prenatal factors account for 70 to 80 % of all cases. Although the incidence of cerebral palsy widely varies worldwide, it has been often estimated as 1.5 to 2.5/1000. While the prevalence in young people is as high as 74%. One of the characteristics of CP is gait abnormalities because of myasthenia, spasticity and impairment of movement. Children with CP have difficulties in activities, which severely affect the children's quality of life. There is no cure for CP. WHO considers limb movement function as the main rehabilitation goal. Walking capacity training of CP needs to be taken seriously. Physiotherapy is considered the core part of CP children rehabilitation due to the risk of neurosurgery and side effects of drug intervention. Many of the gait deviations observed in neurologically impaired patient results from their inability to adequately bear weight through their affected lower extremities during the loading phase of the gait cycle. Treadmill walking with partial body weight support (PBWS) using a harness seems to address the problem. It allows even a patient with severe weakness of lower limb extensor muscles to go through the gait cycle because lower levels of muscle forces are needed to support the body mass compared with over ground walking. In addition, the harness provides a sense of secure to the patient who has fear of falling. Partial body weight support (PBWS) systems have been widely used as an alternative therapeutic strategy for gait training in different populations, including individuals with stroke , Parkinson's disease , Spinal cord injury and children with cerebral palsy. Some individual studies suggested that treadmill training with body weight support was superior to treadmill training alone. The addition of body weight support makes repetitive training far more feasible for a boarder range of clients and allows for more flexibility in terms of optimizing speed and training kinematic patterns for those with weakness of other impairments limiting their gait function by increasing safety and decreasing the physical work necessary by one of more therapists. Many studies showed the effectiveness of body weight support training on gait and gross motor function in the rehabilitation of CP. The trunk plays a critical role in the organization of postural reaction. The primary contribution of the trunk muscles is to stabilize the spine and trunk, and this stabilization is essential for free and selective movements of the head and the extremities. Children with CP frequently show impaired trunk control, which can affect performance of activities of daily life such as sitting, reaching and walking. The trunk was described as a key segment in the organization of postural stabilization and orientation control. Upper body movement during walking provide information about balance control and gait stability, and children with CP exhibit a general increase of upper body acceleration compared to typically developing (TD) children which present a progressive decrease of acceleration from pelvis to head. Also, it has been found that excessive arm swing significantly increases local dynamics stability of human gait. And children with CP appear to rely on 'guard' arm posture as a compensation strategy to maintain balance while walking compared to newly walking toddlers. Spasticity and associated movements are also important contributing factors. The hand position of children with unilateral CP has been found to be more elevated and anterior, and their upper arm was rotated more posterior than typically developing children. A study showed that facilitation of arm swing in specific situations possibly enhances safety and reduces the risk of falling in children with CP. Using arm cycling exercise has been found as an effective method for improving both arm swing and leg angular displacements during gait of children with hemiplegic CP. Also, it has been found that bilateral upper extremity exercises has a positive effect on trunk performance and alignment in stroke patients. From all of this physiotherapists get to know the importance of involving the upper limbs in the rehabilitation program for children with CP to improve gait. A study indicated that walking while moving hand weights through large range of motion provides a combined upper and lower body aerobic stimulus that is sufficient for endurance training for persons with poor to excellent levels of aerobic fitness. Other studies looked for the physiological effect of hand-held weights during walking in normal adults. However, according to our knowledge no studies looked for the effect of upper limb external weights on gait and trunk in children with cerebral palsy. The investigators expect that placing an external weight around the both wrists while walking on the treadmill with partial body weight support will improve trunk control and gait in ambulatory children with cerebral palsy. The purpose of this study is to investigate if adding upper limb external weights during gait training using PBWS can increase the walking endurance, speed and trunk control in ambulatory children with CP. Objectives: To look for the effect of upper limb loading with external weights during partial body weight support treadmill training on gait speed, gait endurance and trunk control. Hypothesis: Investigator's hypothesis is that loading the upper limb with 1 lb. external weights during partial body weight support treadmill training is more effective than partial body weight support treadmill training without loading of the upper limbs in improving gait speed, gait endurance and trunk control. Trial Design: Randomized control trial ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05444387
Study type Interventional
Source University of Sharjah
Contact
Status Enrolling by invitation
Phase N/A
Start date July 1, 2022
Completion date October 1, 2022

See also
  Status Clinical Trial Phase
Recruiting NCT05317234 - Genetic Predisposition in Cerebral Palsy N/A
Recruiting NCT05576948 - Natural History of Cerebral Palsy Prospective Study
Completed NCT04119063 - Evaluating Wearable Robotic Assistance on Gait Early Phase 1
Completed NCT03264339 - The Small Step Program - Early Intervention for Children With High Risk of Developing Cerebral Palsy N/A
Completed NCT05551364 - Usability and Effectiveness of the ATLAS2030 Exoskeleton in Children With Cerebral Palsy N/A
Completed NCT03902886 - Independent Walking Onset of Children With Cerebral Palsy
Recruiting NCT05571033 - Operant Conditioning of the Soleus Stretch Reflex in Adults With Cerebral Palsy N/A
Not yet recruiting NCT04081675 - Compliance in Children With Cerebral Palsy Supplied With AFOs
Completed NCT02167022 - Intense Physiotherapies to Improve Function in Young Children With Cerebral Palsy N/A
Completed NCT04012125 - The Effect of Flexible Thoracolumbar Brace on Scoliosis in Cerebral Palsy N/A
Enrolling by invitation NCT05619211 - Piloting Movement-to-Music With Arm-based Sprint-Intensity Interval Training Among Children With Physical Disabilities Phase 1
Completed NCT04489498 - Comparison of Somatometric Characteristics Between Cerebral Palsy and Normal Children, Cross-sectional, Multi Center Study
Completed NCT03677193 - Biofeedback-enhanced Interactive Computer-play for Youth With Cerebral Palsy N/A
Recruiting NCT06450158 - Robot-assisted Training in Children With CP N/A
Completed NCT04093180 - Intensive Neurorehabilitation for Cerebral Palsy N/A
Completed NCT02909127 - The Pediatric Eating Assessment Tool
Not yet recruiting NCT06377982 - Human Umbilical Cord Blood Infusion in Patients With Cerebral Palsy Phase 1
Not yet recruiting NCT06007885 - Examining Capacity Building of Youth With Physical Disabilities to Pursue Participation Following the PREP Intervention. N/A
Not yet recruiting NCT03183427 - Corpus Callosum Size in Patients With Pineal Cyst N/A
Active, not recruiting NCT03078621 - Bone Marrow-Derived Stem Cell Transplantation for the Treatment of Cerebral Palsy Phase 1/Phase 2