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.
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.
Our 3rd Virtual Town Hall featured experts from the Shirley Ryan Ability Lab and Northwestern University in Chicago. This multi-disciplinary panel discussion highlights the latest updates in care of children with #CerebralPalsy.
A year ago, I wrote in my Forbes column about the decades-long pattern of Pride Month celebrations excluding people with disabilities. The underlying reason why Pride events were (and still are) mostly inaccessible for people with disabilities, both in terms of physical spaces and social acceptance, is that mainstream media and public don’t see them having identities outside of their disabilities.
If you’re a history nerd like me, then you probably wondered about the origin of cerebral palsy at least once in your life. As an ever-inquisitive kid, that was certainly at the forefront of my mind, especially when I was old enough to truly comprehend that I had CP.
I’m at that age when Facebook friends begin to get engaged and married, and shortly after, have children. So, I feel the pressure to proceed onto the next stage of my adulthood. But, as anyone with cerebral palsy knows, everything in life is a tad more complicated with this disability.
Although the brain injury that causes cerebral palsy is nonprogressive, adults with CP can experience a variety of symptoms as they age which often depend on the type of CP they have, as well as the level.