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Cerebral Palsy, Spastic clinical trials

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NCT ID: NCT03201237 Completed - Clinical trials for Cerebral Palsy, Spastic

Comparison of Short- and Long-time Action Observation Training on Upper Limb Function in Children With Cerebral Palsy

Start date: June 1, 2017
Phase: N/A
Study type: Interventional

To compared short- and long-time action observation training (AOT) in terms of grip strength, the Jebsen Taylor Hand Function Test (JTHF), the Quality of Upper Extremities Skills Test (QUEST), and the ABILHAND-Kids test.

NCT ID: NCT03005938 Completed - Clinical trials for Cerebral Palsy, Spastic

Influence of the Spinal Manipulation on Muscle Spasticity and Manual Dexterity in Cerebral Palsy.

SpiManCP
Start date: September 2016
Phase: N/A
Study type: Interventional

The aim of the study is to evaluate a short term influence of the Spinal Manipulation (SM) on the wrist muscles spasticity and manual dexterity in children with spastic Cerebral Palsy. Effect of SM and imitation of the SM has to be compared in the double-blinded randomized clinical trial.

NCT ID: NCT02643160 Completed - Clinical trials for Cerebral Palsy, Spastic

Analyzing the Effect of Trunk Training on Limbs in Children With Spastic Cerebral Palsy

FTT
Start date: January 2014
Phase: N/A
Study type: Interventional

The purpose of this study is to analyze if trunk training has effects on trunk, upper, lower extremity motor functions in children with spastic Cerebral Palsy. Second purpose is to analyze the relation between trunk control and prematurity, birth weight, upper and lower extremity motor functions in children with spastic Cerebral Palsy.

NCT ID: NCT00306761 Completed - Clinical trials for Cerebral Palsy, Spastic

Effects of Dynamic Wheelchair Seating on Spasticity and Functional Mobility in Children

Start date: April 2006
Phase: N/A
Study type: Interventional

Cerebral palsy (CP) is a non-degenerative neuromuscular disease that can exist at or occur as a result of birth. Because of damage to one or more parts of the brain that control movement, an affected child cannot control his or her muscles normally. Prevalence of CP is similar worldwide, with pronounced severity in underdeveloped countries due to poor health and financial conditions. Research should be conducted to find methods of medical treatment to allow affected children to maintain or regain musculoskeletal functionality. Many children affected with CP spend much of their days restricted to a rigid wheelchair; limiting muscular and cognitive development, making it difficult to interact with their environment. The gap to be addressed by this study is to determine if a wheelchair that is based on the dynamics of human anatomy can allow enhanced function, while being adaptive to individual growth and development. At present, there is very little dynamic capability available in commercial wheelchairs to allow this mobility. A dynamic wheelchair system was recently designed and a small sample of able-bodied children has been tested in the chair. It is hypothesized that significant increases in functional mobility will be achieved in children with CP from the use of this novel wheelchair design.