Computer-based Neurocognitive Assessment in Children With Central Nervous System Tumors Receiving Proton Beam Radiation Therapy
Summary
This study will explore neurocognitive performance in pediatric brain tumor patients receiving proton beam radiation therapy (PBRT). The investigators goal is to gather baseline neurocognitive testing prior to the completion of the first week of radiation therapy along with follow-up testing 6-12 months after the completion of radiation and serial annual testing thereafter. With these data the investigators plan to evaluate the effects of PBRT on neurocognitive performance as it relates to patients' age at diagnosis, tumor location, and radiation dose. Modeling studies have demonstrated that PBRT could improve neurocognitive outcomes, but there is a paucity of prospectively-collected patient data. The investigators are uniquely positioned to address this important question given the busy pediatric central nervous system (CNS) tumor service, the delivery of proton therapy at the S. Lee Kling Proton Therapy Center at Barnes-Jewish Hospital, and the multi-disciplinary research team with extensive experience into the late effects of therapy as it relates to neurocognition.
Arms & interventions
- OtherNIH Toolbox Cognitive Battery
* For ages 4 to 7 years, the NIH Toolbox Early Childhood Battery will be administered. This test includes the Picture Vocabulary, Flanker Inhibitory Control and Attention, Dimensional Change Card Sort, and Picture Sequence Memory measures to evaluate language, executive function, attention, and episodic memory, respectively. * For patients age 8 years or older, the administered battery will consist of the aforementioned tests in addition to Oral Reading Recognition, Pattern Comparison Processing Speed, and List Sort Working Memory tests. Results will include scores for each individual measure. In addition, each cognition battery provides composite scores, which allow for general interpretation/evaluation of overall cognitive functioning.
Outcome measures
Primary
Feasibility of obtaining serial computer-based neurocognitive testing as measured by an acceptance rate of 60% of eligible patients.
The acceptance rate will be a proportion of those who consent to participation over the total number of eligible and approached participants. The 60% acceptance rate is chosen because previous behavioral science intervention study participation in pediatric hematology and oncology ranges from 42% to 90%.
Time frame: At the completion of enrollment of all patients (estimated to be 9 years)
Feasibility of obtaining serial computer-based neurocognitive testing as measured by an implementation rate of 80% among survivors
An implementation rate will be calculated by tracking the proportion of consented participants who complete at least two assessments in the first year of follow up. The primary length of time for implementation is in the first 12 months, but the rate of implementation will be tracked for up to five years for each participant. This is consistent with a two-staged assessment from Butler's remediation trial.
Time frame: 12 months
Feasibility of obtaining serial computer-based neurocognitive testing as measured by an implementation rate of 80% among survivors
An implementation rate will be calculated by tracking the proportion of consented participants who complete at least two assessments in the first year of follow up. The primary length of time for implementation is in the first 12 months, but the rate of implementation will be tracked for up to five years for each participant. This is consistent with a two-staged assessment from Butler's remediation trial.
Time frame: 5 years
Eligibility criteria
Study locations (1)
Washington University School of Medicine
St Louis, Missouri, 63110