Cognitive Biomarkers in Pediatric Brain Tumor Patients

Summary

The investigators will focus on three cohorts of brain tumor patients aged, 4-18 years, to answer two critical questions: 1) Can the investigators acquire high quality data relevant to cognitive function during the peri-diagnostic period and, 2) can the investigators develop predictive models for cognitive outcomes using serial examination of functional imaging and cognitive function. Any patient with a newly diagnosed brain tumor aged 4-18 will be eligible for enrollment in cohort 1. Only patients with previously diagnosed tumors of the posterior fossa will be eligible for cohort 2. For cohort 3, eligible patients will include patients with a clinical diagnosis of posterior fossa syndrome with physical impairments that prohibit completion of the NIH Toolbox Cognitive Battery. The investigators have decided to expand the eligible tumor types to better capture the most significant deficit variability that can be caused by tumors outside the posterior fossa. Thus, this focus will provide a platform to analyze the impact that different tumor types and different standard treatments have on cognitive dysfunction. The rationale for inclusion of subjects on cohort 3 is that posterior fossa syndrome is one of the most cognitively devastating diagnoses following a posterior fossa surgery. The causes of posterior fossa syndrome and unknown and there are currently no interventions to improve symptoms. RsfcMRI would offer a novel and non-invasive assessment of posterior fossa syndrome patients by assessing connectivity within and outside of the cerebellum. Expanding the tumor eligibility will allow us to further explore the effect tumor location will have on cognitive testing and rsfcMRI. Here, repeated evaluations on and off therapy will provide the necessary data points to establish trajectories of cognitive development and recovery in this population.

Conditions

• Childhood Brain Tumor

Interventions

OTHER

Neurocognitive testing

DEVICE

rsfcMRI

The imaging protocols will be a combined version of a standard of care (SOC) protocol with a research portion. The SOC portion of the pre-surgical scans includes a 3D T2-weighted (T2w) scans and 3D pre- and post-contrast T1-weighted (T1w) images, both at high resolution (1.0 mm3) for use in the intraoperative navigation system. This scan also includes a DTI portion for definition of fiber bundles of interest. The SOC portion of the post-surgical scans includes transverse FLAIR and post-contrast T1w images in all 3 planes. The research portion of the scan will be identical at all 3 time points and include 15 min of rsfcMRI during which the non-sedated subjects will be asked to stay still and awake while looking at a fixation cross

Sponsors & Collaborators

• Children's Discovery Institute

  collaborator OTHER

• Neurosurgery Research & Education Foundation

  collaborator UNKNOWN

• The Andrew McDonough B+ Foundation

  collaborator OTHER

• Washington University School of Medicine

  lead OTHER

Principal Investigators

• Stephanie Perkins, M.D. · Washington University School of Medicine

Study Design

Allocation

NON_RANDOMIZED

Purpose

OTHER

Masking

NONE

Model

PARALLEL

Eligibility

Min Age

4 Years

Max Age

18 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2016-10-26

Primary Completion

2026-11-30

Completion

2029-01-31

FDA Device

Yes

Countries

• United States

Study Locations