Dr. Tom Novacheck, of Gillette Children's, describes the characteristics of the 4 types of unilateral, otherwise known as hemiplegic gait, and how the use of clinical instrumented gait analysis can help with treatment decision making.
Dr. Tom Novacheck, Gillette Children's, describes what to look for in each of the 4 different gait patterns seen for those with bilateral cerebral palsy and considerations for each type.
Understanding different gait patterns is important because it can determine what interventions will potentially be the most effective.
Though the initial insult or injury to the brain that causes cerebral palsy is non-progressive, aging with cerebral palsy and lack of physical activity during critical periods of development can impact biologic and metabolic function for adults with cerebral palsy.
There are multiple factors that impact bone health, including birth weight, nutrition, medications for seizures and/or reflux, genetics, and physical activity. Targeted exercise to improve bone health in childhood can be sustained into adulthood, and childhood is the best time to promote bone health.
A person’s gait is dependent on the interaction between the nervous, musculoskeletal, and cardiorespiratory systems and has many influences.
Learn about Ava's journey with gait analysis and surgery at Gillette Children's.
An international study recently published in the journal Nature Genetics has provided the first firm evidence that for a substantial number of people, their cerebral palsy (CP) may be caused by a genetic mutation, or mis-spelling in the body’s DNA blueprint.
"In addition to commonly associated environmental factors, genomic factors may cause cerebral palsy. We performed whole-exome sequencing of 250 parent–offspring trios, and observed enrichment of damaging de novo mutations in cerebral palsy cases."
Spasticity is usually caused by central nervous system injuries, such as brain injuries or spinal cord injuries. Spasticity is a little different from stiffness.
Weight, height and body composition are important indicators for development. The tools used to measure these can be different for children with cerebral palsy.
Children with cerebral palsy (CP) often grow poorly and assessment of growth in this population is further complicated by two main difficulties. Firstly, children may have joint contractures, muscular weakness, scoliosis, and/or involuntary movements that make standing or lying straight difficult, if not impossible.