View clinical trials related to Gait Disorders in Children.
Filter by:Cerebral Palsy (CP) is a non-progressive neurodevelopmental disorder that starts in the early stages of life, causes activity limitation, and consists of movement and posture deficiencies. Children with CP usually have difficulties in mobility, transfer and social participation due to many motor and sensory disorders such as muscle weakness, decreased postural control, balance, spasticity. Core stability maintains posture and provides support for extremity movements by connecting with the deep abdominal muscles, spine, pelvis and shoulder girdle muscles. During reaching, walking and sudden perturbations in the body, the Transversus Abdominus (TrAb) muscle is activated primarily than other trunk and extremity muscles, creating a core stability. Core activity includes not only spinal stability and power generation, but also many upper and lower extremity movements. By focusing on the TrAb muscle with Pilates, the stabilization of the trunk muscles can be increased by creating control thanks to the core stabilization training. In addition, the TrAb muscle works together with the diaphragm muscle, which is the main respiratory muscle. The expected increased respiratory capacity with training may also affect hemodynamic responses.
Cerebral Palsy (CP) is a non-progressive neurodevelopmental disorder that starts in the early stages of life, causes activity limitation, and consists of movement and posture deficiencies. Children with CP usually have difficulties in mobility, transfer and social participation due to many motor and sensory disorders such as muscle weakness, decreased postural control, balance, spasticity. Many children with CP have difficulty in balancing independently, walking, walking on hills/uneven ground, and performing daily physical functions.
The aim of this study is to evaluate postural control in children with idiopathic toe walking using computerized dynamic posturography (Biodex Balance System), which is reported to be a reliable and valid instrument for detecting changes in balance and postural control in the literature.
The relationship between increased femoral anteversion and postural control in healthy children has not been studied in the current literature. To our knowledge there is no study to evaluate postural control in children with increased femoral anteversion by computerized posturography. We aimed to evaluate postural control in children with increased femoral anteversion using computerized dynamic posturography (Biodex Balance System).
The overall aim of this project is to investigate the clinical utility of the Andago System, a CE certified mobile bodyweight supporting walking robot, in children with neuromotor disorders. Clinical utility encompasses practicability, acceptability, appropriateness, and accessibility. In this study, the investigators would like to investigate several aspects of clinical utility that belong to the first three components.