In cerebral palsy (CP) muscles are often shortened so much that they restrict joint range of motion and the muscles themselves are weak. Thus, ‘shortness’ and ‘weakness’ are two important needs that clinicians must address.
Cohort-based whole exome and whole genome sequencing and copy number variant (CNV) studies have identified genetic etiologies for a sizable proportion of patients with cerebral palsy (CP). These findings indicate that genetic mutations collectively comprise an important cause of CP.
There are many kinds of physical activities that people with cerebral palsy can participate in – for both ambulatory people as well those who use various mobility devices. Knowing just what activities are right for whom can be tough, this article helps to sort that out.
Spasticity is usually caused by central nervous system injuries, such as brain injuries or spinal cord injuries. Spasticity is a little different from stiffness.
As we all know, becoming a teenager means significant upheaval, not only physically, but in terms of friendships, in terms of learning, and life outlook. This is also true for adolescents with cerebral palsy and other developmental disabilities. We know that whilst we may of spent a lot of time focusing on their physical abilities and other difficulties it is not the only part of their life.
Around the age of six all children are going off to school. Children move from explorative play, which is fairly informal to a much more formal day. That can be a lengthy day and it's quite structured. There are a lot of challenges faced by children with cerebral palsy throughout the school year.
When treating a child with CP, part of a pediatrician’s job is assessing and treating children with abnormal tone difficulties, as well as other muscular-skeletal problems. From around the age of two years, kids start to develop difficulties with muscle tone that can have an impact on their hip development.
To give you an idea about genetic variation between each of us, there are about three million differences in our genetic code. They go to influence the color of our hair and the color of our eyes, the way we walk.