Diplegic Cerebral Palsy With Spasticity Clinical Trial
Official title:
The Effects of Ankle Mulligan Mobilization on Range of Motion, Balance, Functional Performance and Quality of Life of Children With Diplegic Spastic Cerebral Palsy
Cerebral palsy is the most common motor disability of childhood (Suvanand et al 1997). By definition CP is a static encephalopathy, but the musculoskeletal pathology is a major concern . Chronic neurologic impairment affects the development of bones and muscles. In spastic hemiplegia, the affected side demonstrates muscle atrophy and limb shortening, compared to the unaffected side. Thus, CP is a neuromusculoskeletal disorder . Musculoskeletal conditions of people with CP can develop or worsen across the lifespan as a consequence of the primary neuromotor impairments which will affect their physical activity and participation. In fact these complications can lead to lose the ability of walking in ambulatory children up to 30% . (Peterson 2015) Physical inactivity among regularly growing paediatric community has become a general health load. Neurological interventions are well documented, However, there is a gap of information and evidence documenting the orthopaedic intervention effect on orthopaedic secondary complications in CP. Even though the neurological pathology isn't progressive , the orthopaedic complication itself is progressive and affect the ability of the CP children to progress, and in so many cases they lose their functional achievements when their functional status can't meet their growth requirements any more, due to the neurological dysfunction and progressive secondary complications, that makes walking less efficient , less effective, and increased fatigue levels in gait. (Tosi et al. 2009). Little is known about the practice of Brian Mulligan's mobilization with movement (MWM) in CP patients in early ages, for the secondary complication of the ankle hypomobility and ROM. This study will be conducted to discover the immediate effect of MWM on the ankle to improve the range and mobility of ankle as a musculoskeletal (dysfunction) for the function of gait.
Cerebral palsy is the most common motor disability of childhood (Suvanand et al 1997). By definition CP is a static encephalopathy, but the musculoskeletal pathology is a major concern . Chronic neurologic impairment affects the development of bones and muscles. In spastic hemiplegia, the affected side demonstrates muscle atrophy and limb shortening, compared to the unaffected side. Thus, CP is a neuromusculoskeletal disorder . Musculoskeletal conditions of people with CP can develop or worsen across the lifespan as a consequence of the primary neuromotor impairments which will affect their physical activity and participation. In fact these complications can lead to lose the ability of walking in ambulatory children up to 30% . (Peterson 2015) Physical inactivity among regularly growing paediatric community has become a general health load. Neurological interventions are well documented, However, there is a gap of information and evidence documenting the orthopaedic intervention effect on orthopaedic secondary complications in CP. Even though the neurological pathology isn't progressive , the orthopaedic complication itself is progressive and affect the ability of the CP children to progress, and in so many cases they lose their functional achievements when their functional status can't meet their growth requirements any more, due to the neurological dysfunction and progressive secondary complications, that makes walking less efficient , less effective, and increased fatigue levels in gait. (Tosi et al. 2009). Little is known about the practice of Brian Mulligan's mobilization with movement (MWM) in CP patients in early ages, for the secondary complication of the ankle hypomobility and ROM. This study will be conducted to discover the immediate effect of MWM on the ankle to improve the range and mobility of ankle as a musculoskeletal (dysfunction) for the function of gait. Research questions What is the effect of Ankle MWM in functional activities on gait function ? What is the effect of Ankle MWM in functional activities on balance function ? What is the effect of Ankle MWM in functional activities on quality of life? What is the effect of Ankle MWM in functional activities on fatigue? Research hypothesis Ankle MWM in functional activities improves gait function? Ankle MWM in functional activities improve balance? Ankle MWM in functional activities improves quality of life? Ankle MWM in functional activities increase happiness? Research objectives To investigate the effect of Ankle MWM in functional activities on gait function? To study the effect of Ankle MWM in functional activities on balance function? To highlight the effect of Ankle MWM in functional activities on quality of life? To study the effect of Ankle MWM in functional activities on happiness? ;