View clinical trials related to Cerebral Palsy.
Filter by:The aim of this study is to investigate the effectiveness of synchronous telerehabilitation on improving upper extremity function in children with hemiparetic cerebral palsy.
This research study will combine non-invasive spinal stimulation with mobility devices to examine the acute impact of the individual and combined effects of these innovative techniques on mobility in children with cerebral palsy.
Cerebral palsy (CP) is a motor impairment due to a brain malformation or a brain lesion before the age of two. Spasticity, hypertonus in flexor muscles, dyscoordination and an impaired sensorimotor control are cardinal symptoms. The brain lesion is non-progressive, but the flexor muscles of the limbs will during adolescence become relatively shorter and shorter (contracted), forcing the joints into a progressively flexed position. This will worsen the positions of already paretic and malfunctioning arms and legs. Due to bending forces across the joints, bony malformations will occur, worsening the function even further. Currently, the initial treatment of choice is the use of braces, which diminishes the shortening somewhat, but eventually lengthenings of tendons and release of aponeuroses around the muscles often is needed, and transfers of wrist flexors to wrist extensors may improve wrist position. But the long-term results are unpredictable- how much does the muscle need to be lengthened? What muscles should be transferred for a better position of the wrist, and at what tension? A method to measure sarcomere length in vivo has been developed. The sarcomere, the distance between two striations, is the smallest contractile unit in the striated muscle. When, during surgery, a muscle fiber bundle is transilluminated with a low energy laser light, a diffraction pattern is formed. This diffraction pattern reflects the sarcomere length, and thereby an instant measure of how the stretch of the muscle is obtained. When performing tendon transfers of e.g. wrist flexors to wrist extensors, the setting of the tension of the transfer is arbitrary, and the long-term result is unpredictable. Laser diffraction measurements will give a guide to a precise setting of tension. It is known that there may be pathological changes in muscle in cerebral palsy that also will affect the long-term results of tendon lengthenings and transfers. In order to also take these changes into account, small muscle biopsies will be taken during the same surgeries. These will be examined with immuno-histochemical and biochemical techniques, gel-electrophoresis as well as electron microscopy.
Hippotherapy simulators imitate the passive movements of the horse, producing simple movements similar to those of the horse. Hippotherapy simulators are intended to improve sitting balance, postural control and trunk balance. The aim of this study was to research the therapeutic effects of hippotherapy simulator on sitting balance, trunk control and upper extremity skills in individuals with Cerebral Palsy (CP).
To examine if adding plyometric exercises to sensorimotor exercises would improve respiratory function in children and adolescents with cerebral palsy
- Cerebral palsy (CP) is a motor disorder caused by an injury to the immature brain. Even though the brain damage does not change, children with CP will have progressively weaker, shorter and stiffer muscles that will lead to contractures, bony deformations, difficulty to walk and impaired manual ability. An acquired brain injury (ABI) later during childhood, such as after a stroke or an injury, will result in similar muscle changes, and will therefore also be included in this study. For simplicity, these participants will in this text be referred to as having CP. - The mechanism for the muscle changes is still unknown. Contractures and the risk for the hips to even dislocate is now treated by tendon lengthening, muscle release and bony surgery. During these surgeries muscle biopsies, tendon biopsies and blood samples will be taken and compared with samples from typically developed (TD) children being operated for fractures, knee injuries, and deformities. The specimens will be explored regarding inflammatory markers, signaling for muscle growth, signaling for connective tissue growth and muscle and tendon pathology. In blood samples, plasma and serum, e.g. pro-inflammatory cytokines and the cytoprotective polypeptide humanin will measured, and will be correlated to the amount humanin found in muscle. With this compound information the mechanism of contracture formation may be found, and hopefully give ideas for treatment that will protect muscle and joint health, including prevention of hip dislocation and general health. - The results will be correlated to the degree of contracture of the joint and the severity of the CP (GMFCS I-V, MACS I-V). - By comparing muscle biopsies from the upper limb with muscle biopsies from the lower limb, muscles that are used in more or less automated gait will be compared to muscles in the upper limb that are used more voluntarily and irregularly. - Muscles that flex a joint, often contracted, will be compared with extensor muscles from the same patient. Fascia, aponeurosis and tendon will also be sampled when easily attainable.
To purpose of this study is ;to evaluate prognosis of functionality in children with Cerebral Palsy in different age groups (preschool, school age and adolescence) and predict the progression of motor function according to different functional classification systems in children with CP over a 2 year period.
The investigators would like to compare clinical features (onset, duration, emergence time), efficacy of deep sedation (successful completion of procedure), safety (adverse events) and caregiver's satisfaction for sedation when used propofol and sevoluflurane for deep sedation in 3-11 year old pediatric patients with spastic cerebral palsy receiving botulinum toxin injection.
Combining the advantages of both Neuromuscular electrical stimulation and lower limb serial casting to a selected physical therapy program in children with spastic diplegic cerebral palsy to overcome the adverse effects during the period of casting and the long period of rehabilitative interventions, providing a new multimodal treatment approach.
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.