MRI Markers of Outcome After Severe Pediatric TBI
- Conditions
- Brain Injuries
- Interventions
- Other: MRI Scans
- Registration Number
- NCT02688660
- Lead Sponsor
- University of Wisconsin, Madison
- Brief Summary
Traumatic brain injury (TBI) is the leading cause of death or disability in children. Each year in the United States, pediatric TBI results in an estimated 630,000 emergency room visits, 58,900 hospitalizations, and 7000 deaths. The incidence of long-term disability after severe TBI is high, with over 60% of children requiring educational or community based supportive services 12 months post-injury. Over 5,000 children require inpatient rehabilitation after TBI each year and an estimated 145,000 US children are currently living with disabilities after a severe TBI. Hospital costs for the acute treatment of children with TBI are estimated at \~$2.6 billion each year, while the gross annual costs accounting for long-term care and lost productivity approach $60 billion. Therefore, pediatric TBI is a major public health concern and new ways to diagnose and treat TBI are urgently needed.
- Detailed Description
Severe pediatric TBI results in a range of neurocognitive and behavioral deficits with resultant impact on school performance, social functioning, and quality of life. Sixty percent of children suffer from long-term functional impairments after severe TBI, and more than 40% demonstrate deficits in multiple cognitive and psychological domains. Importantly, a recent meta-analysis revealed that rather than catching up to their peers in these domains, children with severe TBI fall further behind over time. These deficits in cognitive and emotional function have a major impact on the child's quality of life after a TBI. A large study recently reported that severe TBI patients demonstrated lower quality of life than children undergoing active treatment for cancer. Considerable variation exists in the severity of impairment within each cognitive domain from patient to patient, likely relating to the mechanism of injury, the type and location of lesion, patient age, and pre-morbid functioning among other factors. While clinical scales such as the Glasgow Coma Scale (GCS) are useful for assessing injury severity and may provide general prognostic information, they are insufficient to identify risk for specific cognitive deficits. Identifying predictors of impairment within specific domains would aid in directing rehabilitation strategies towards at-risk cognitive domains, thereby improving long-term function and quality of life.
The investigators are partnering with an ongoing pediatric TBI trial (ADAPT Trial: Approaches and Decisions in Acute Pediatric TBI) and will also be enrolling past UW patients and healthy controls. Consistency in timing of follow-up scans, large sample size and access to the ADAPT Trial injury severity data and neuropsychological testing will give this study unprecedented power to assess the relationship between early MRI findings and subsequent atrophy, white matter injury, network connectivity changes and neurocognitive and behavioral impairments.
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 82
Aim 1 Subjects:
- Children 0 through < 18 years of age
- Diagnosis of severe TBI (defined as a Glasgow Coma Scale (GCS) score less than or equal to 8)
- Had an intracranial pressure (ICP) monitor as part of standard care
Aims 2 & 3 Subjects:
- Children 9 through < 18 years of age with severe TBI
- Consent for a follow-up MRI within 10 years of the time of TBI
Controls:
- Healthy children greater than or equal to 9 and < 18 years of age.
- TBI & controls:
- Anyone unable to tolerate a non-sedated MRI
Controls:
- Any history of head injury resulting in loss of consciousness
- Standard contraindications to MRI (metallic implants, implanted electronic devices, pregnancy, etc.).
Study & Design
- Study Type
- OBSERVATIONAL
- Study Design
- Not specified
- Arm && Interventions
Group Intervention Description Healthy Controls MRI Scans This cohort will have one MRI to be used in comparison of the above cohorts. Follow-Up MRI MRI Scans This cohort will include patients from ADAPT sites who choose to participate in this option and obtain a follow-up MRI approximately 1 year after the TBI.
- Primary Outcome Measures
Name Time Method Brain network connectivity 1 year Network connectivity will be assessed using resting-state functional MRI
Cerebral Atrophy 1 year Global and regional cerebral atrophy will be assessed using MRI
White matter fractional anisotropy 1 year Fractional Anisotropy will be assessed using Diffusion Tensor MRI
- Secondary Outcome Measures
Name Time Method
Trial Locations
- Locations (21)
Children's Hospital of Philadelphia
πΊπΈPhiladelphia, Pennsylvania, United States
Nationwide Children's Hospital
πΊπΈColumbus, Ohio, United States
University of Texas Southwestern Medical Center
πΊπΈDallas, Texas, United States
Children's Hospital of Pittsburgh
πΊπΈPittsburgh, Pennsylvania, United States
Washington University School of Medicine
πΊπΈSaint Louis, Missouri, United States
University of Tennessee
πΊπΈKnoxville, Tennessee, United States
American Family Children's Hospital (AFCH)
πΊπΈMadison, Wisconsin, United States
Penn State Hershey Children's Hospital
πΊπΈHershey, Pennsylvania, United States
Johns Hopkins University
πΊπΈBaltimore, Maryland, United States
The Royal Children's Hospital
π¦πΊMelbourne, Victoria, Australia
Children's Healthcare of Atlanta
πΊπΈAtlanta, Georgia, United States
Children's National Medical Center
πΊπΈWashington, District of Columbia, United States
University Hospital Southampton
π¬π§Southampton, Hampshire, United Kingdom
Birmingham Children's Hospital
π¬π§Birmingham, England, United Kingdom
Phoenix Children's Hospital
πΊπΈPhoenix, Arizona, United States
Boston Children's Hospital
πΊπΈBoston, Massachusetts, United States
UC San Diego Health Sciences Center
πΊπΈSan Diego, California, United States
Cincinnati Children's Hospital
πΊπΈCincinnati, Ohio, United States
University of Utah Primary Children's Medical Center
πΊπΈSalt Lake City, Utah, United States
Virginia Commonwealth University
πΊπΈRichmond, Virginia, United States
Seattle Children's Hospital
πΊπΈSeattle, Washington, United States