Early diagnosis begins with a medical history and involves using neuroimaging, standardized neurological, and standardized motor assessments that indicate congruent abnormal findings indicative of cerebral palsy. Clinicians should understand the importance of prompt referral to diagnostic-specific early intervention to optimize infant motor and cognitive plasticity, prevent secondary complications, and enhance caregiver well-being.
In 10% to 15% of cases, there is no clear cause of CP. There is increasing recognition that genetics plays a part, but no standardized approach to genetic testing in patients with CP exists. In this study we asked the question whether both people with and without known risk factors for CP should have genetic testing.
Speech impairments like dysarthria are common in children with cerebral palsy (CP) which can greatly affect participation across environments. Our study examined how speech impairment severity changes over time in 101 children with CP at 4, 6, 8, and 10 years of age.
Dysarthria is a motor speech disorder that affects how clear and understandable a person’s speech is. Between 50-90% of people with CP have dysarthria.
Now you can receive a no-cost genetic test for you or your child sent directly to your home.
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.
Can there be a genetic cause of Cerebral Palsy in some cases? Let's Talk CP host, Cynthia Frisina talks with Dr. Michael Kruer about this topic and his ground-breaking research in Part 2 of a two-part discussion about the possible genetic causes of CP. When Michael Kruer was in medical school, he knew he wanted to work with children. With advancements in gene therapy opening up incredible opportunities in neuroscience, he realized he could be a part of something much bigger than himself and give children affected by movement disorders like cerebral palsy hope that didn’t seem possible just a few years ago.
If you're interested in learning more about what is involved with genetic testing and how a visit with a genetic counselor might be helpful, join Cynthia Frisina, the host of Let's Talk CP, as she dives deep with licensed genetic counselor, Danielle Lemke and they talk about what genetic counseling really is, how it can help and what it might be used for as it relates to potential genetic causes of cerebral palsy.
Can there be a genetic cause of Cerebral Palsy in some cases? Let's Talk CP host, Cynthia Frisina talks with Dr. Michael Kruer about this topic and his ground-breaking research in Part 1 of a two-part discussion about the possible genetic causes of CP. When Michael Kruer was in medical school, he knew he wanted to work with children. With advancements in gene therapy opening up incredible opportunities in neuroscience, he realized he could be a part of something much bigger than himself and give children affected by movement disorders like cerebral palsy hope that didn’t seem possible just a few years ago.
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."
It's really essential to understand how brain function works to really tap into how learners learn.
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.
A speech language pathologist is someone who is trained in working with kids and adults. Everything from working with articulation errors and correcting things to what I do, which is working with people with profound physical impairments and getting them augmentative communication strategies.
Sleep is important to all of us, but it's especially important for infants. When infants go to sleep, they start to create neural networks about what they've been learning during the day. It's estimated that as many as one in five children with disabilities have a sleep disorder, and that's higher than the rate of typically-developing children. Finding sleep interventions for these children is incredibly important so they can lay down their brain networks and continue to learn during their early childhood years.