Creating opportunities that enable play in order to combat social isolation, foster inclusive communities, and improve the quality of life for people with disabilities.
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.
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."
"Cerebral palsy is primarily a motor impairment so it's really important to look at what the child’s motor function is. Are they developing on the trajectory of a child who has cerebral palsy or are they developing as we would expect a baby to develop? "
Cerebral Palsy affects body movement, muscle control, muscle coordination, muscle tone, reflex, posture and balance. Depending on the part of the brain that is injured depends on how someone’s muscle tone will be effected. For people with spastic CP they have increased muscle tone because of the part of the brain that's injured. If causes very tight muscles which in turn effects the movement of the joints and of the limbs. For others who have dyskinetic CP they lose the ability to have voluntary control over their muscles, and they can have jerky and uncontrolled movement patterns.