Brain Tumor Clinical Trial
Official title:
Quantitative Assessment of Radiation-induced Neuroinflammation - A Proof of Principle Study
QARIN 1 is a study of [18F]DPA-714 Translocation Protein (TSPO) Positron Emission Tomography (PET) for longitudinal, quantitative assessment of brain neuroinflammation following whole brain radiation therapy. This TSPO PET, uses a radioactive tracer. An optional MRI (magnetic resonance imaging) will also be performed to monitor brain microstructure damages induced by neuroinflammation. Primary Objectives - Assessment of temporal and regional variability of uptake of translocator protein (TSPO) positron emission tomography (PET) tracer. - Regional variability will be assessed in medial temporal lobe, frontal lobe, and in white matter - Temporal variability will be assessed by scanning each subject four-times: at baseline (before or within 2 weeks of start of radiation therapy), before start of chemotherapy, at 1 year from the initiation of the radiation therapy, and at 1.5-2 years from the initiation of the radiation therapy - Correlation of radiation dose in specific brain regions with radiation induced neuroinflammation as measured by uptake of TSPO PET tracer. Exploratory Objectives - Assessment of radiation-induced brain microstructure injuries (RIBMI) in specific brain regions (medial temporal lobe, frontal lobe, and in white matter) using advanced magnetic resonance imaging (MRI) techniques. - Association of radiation dose with MRI measures of RIBMI in these specific brain regions. - Association of PET measures of RIN with MRI measures of RIBMI. - Association of PET measure of RIN and MRI measures of RIBMI in specific regions of interest (ROI) with specific domain of neuro-cognition. For example, to investigate whether PET measure of RIN and MRI measures of RIBMI in hippocampal ROI have strongest association with episodic memory; whether frontal lobe cortical ROI are associated with attention and executive function. - Association of a novel MRI based technique for assessment of RIN with TSPO PET. - Association of the PET and MRI measure of neuroinflammation within 2- years of completion of radiation with delayed cognitive outcome that will be measured at 3, 4 and 5 years from the completion of radiation
| Status | Recruiting |
| Enrollment | 22 |
| Est. completion date | December 31, 2025 |
| Est. primary completion date | October 26, 2025 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 8 Years to 39 Years |
| Eligibility | Inclusion Criteria - Participant is at least 8 years of age - Participants with histologically confirmed medulloblastoma and are scheduled to receive 36 Gy craniospinal irradiation - Participant and/or guardian can understand and is willing to sign a written informed consent document according to institutional guidelines - Subjects have either have high-affinity or mixed-affinity TSPO binding sites as determined by the single-nucleotide polymorphism (SNP) rs6971 in the TSPO gene. Exclusion Criteria: - Participants with a large pseudomeningocele (>4 cm in size) at the surgical site, complications from ventricular access (evidenced by hemorrhage and/or enhancement along the catheter), large subdural effusion in the supra-tentorial compartment (>1 cm in the maximum transverse dimension). All of these are expected to induce inflammation. - Female participants of childbearing age must not be lactating due to theoretical potential harm to the infant from exposure to radiation. - Subjects with low-affinity TSPO binding sites as determined by the single-nucleotide polymorphism (SNP) rs6971 in the TSPO gene. - Pregnant subjects. - Patients needing sedation for the PET scans. |
| Country | Name | City | State |
|---|---|---|---|
| United States | St.Jude Children's Research Hospital | Memphis | Tennessee |
| Lead Sponsor | Collaborator |
|---|---|
| St. Jude Children's Research Hospital |
United States,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | SUVr | SUVr values for dorsolateral prefrontal cortex comparing baseline vs. follow up 1 | follow up 1: up to 13 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for medial prefrontal cortex comparing baseline vs. follow up 1 | follow up 1 : up to 13 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for hippocampus comparing baseline vs. follow up 1. | follow up 1 : up to 13 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for Corpus callosum comparing baseline vs. follow up 1. | follow up 1 : up to 13 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for corticospinal tract comparing baseline vs. follow up 1. | follow up 1 : up to 13 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for superior longitudinal fasciculus comparing baseline vs. follow up 1 | follow up 1 : up to 13 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for dorsolateral prefrontal cortex comparing baseline vs. follow up 2. | follow up 2: up to 53 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for medial prefrontal cortex comparing baseline vs. follow up 2. | follow up 2: up to 53 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for hippocampus comparing baseline vs. follow up 2. | follow up 2: up to 53 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for Corpus callosum comparing baseline vs. follow up 2. | follow up 2: up to 53 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for corticospinal tract comparing baseline vs. follow up 2. | follow up 2: up to 53 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for superior longitudinal fasciculus comparing baseline vs. follow up 2. | follow up 2: up to 53 weeks after radiation therapy | |
| Primary | SUVr | SUVr values for dorsolateral prefrontal cortex comparing baseline vs. follow up 3. | follow up 3: up to 2 years after radiation therapy | |
| Primary | SUVr | SUVr values for medial prefrontal cortex comparing baseline vs. follow up 3. | follow up 3: up to 2 years after radiation therapy | |
| Primary | SUVr | SUVr values for hippocampus comparing baseline vs. follow up 3. | follow up 3: up to 2 years after radiation therapy | |
| Primary | SUVr | SUVr values for Corpus callosum comparing baseline vs. follow up 3 | follow up 3: up to 2 years after radiation therapy | |
| Primary | SUVr | SUVr values for corticospinal tract comparing baseline vs. follow up 3. | follow up 3: up to 2 years after radiation therapy | |
| Primary | SUVr | SUVr values for superior longitudinal fasciculus comparing baseline vs. follow up 3. | follow up 3: up to 2 years after radiation therapy |
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