Spots Global Cancer Trial Database for Pilot Phase 2 Study Whole Brain Radiation Therapy With Simultaneous Integrated Boost for Patients With Brain Metastases

The following info and data is provided "as is" to help patients around the globe.
We do not endorse or review these studies in any way.

Trial Identification

Brief Title: Pilot Phase 2 Study Whole Brain Radiation Therapy With Simultaneous Integrated Boost for Patients With Brain Metastases

Official Title: A Pilot Phase 2 Study Evaluating Dose De-escalation in Whole Brain Radiation Therapy With Simultaneous Integrated Boost for Patients With Brain Metastases

Study ID: NCT03189381

Conditions

Brain Metastases

Interventions

Cohort A

Cohort B

Study Description

Brief Summary: This trial is a pilot, Phase 2, sequential two-cohort study designed to test two de-escalated whole brain radiation therapy (WBRT) dose levels and assess their ability to maintain acceptable in-brain distant control. The WBRT dose would decrease as the study moves forward, both in terms of absolute value and equivalent dose in 2 Gray fractions (EQD2) (as determined by the linear quadratic radiobiological model). The absolute value of the simultaneous integrated boost (SIB) dose will change with each dose level because the number of fractions delivered will depend on the WBRT dose. As such, the SIB dose will be manipulated such that the EQD2 will remain essentially equivalent despite the difference in the number of fractions delivered. This design will ensure that the only variable is the change in WBRT dose. The concept is that WBRT with SIB would be expected to maximize both local and in-brain distant control as has already been shown in studies exploring WBRT with SRS boost. However, by itself WBRT with SIB does not address the concern over neurocognitive outcomes. Therefore, investigators hypothesize that there is a lower WBRT dose threshold that will maintain acceptable in-brain distant control, particularly in the setting of a SIB to gross lesions to maintain treated lesion control. In addition, lower overall brain dose (including lower hippocampal dose without specific hippocampal avoidance) may potentially improve neurocognitive function. Investigators are also interested in evaluating treated lesion control, overall survival, neurocognitive sequelae of therapy, quality of life, performance status, and adverse effects of therapy. Biomarker identification for potential correlative circulating tumor DNA and microRNA is an exploratory endpoint to generate data for future prospective evaluation.

Detailed Description: Primary Objective Evaluate two de-escalated whole brain radiation dose levels (in the setting of simultaneous integrated boost to gross lesions) with respect to in-brain distant control for brain metastases, defined as an in-brain failure rate outside of the planning target volume at 6 months of \< 20%. Secondary Objectives 1. Evaluate treated lesion control at 6 months for brain metastases in the setting of a predetermined total biologically effective SIB dose as determined by radiographic progression within the planning target volume with fusion and overlay of follow-up MRIs. 2. Evaluate overall survival at 6 months for brain metastases in the setting of WBRT with SIB. 3. Evaluate changes in neurocognitive function after WBRT with SIB in the following domains: verbal learning and memory as assessed by the Hopkins Verbal Learning Test - Revised (HVLT-R). 4. Evaluate changes in health-related quality of life as assessed by the Functional Assessment of Cancer Therapy with Brain Subscale (FACT-Br) after WBRT-SIB for brain metastases. 5. Evaluate changes in performance status as assessed by the Karnofsky Performance Status tool after WBRT-SIB for brain metastases. 6. Evaluate adverse events after WBRT-SIB for brain metastases according to current CTCAE criteria.