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Clinical Trial Summary

The purpose of this study is to find out what effects, good and/or bad, stereotactic radiosurgery (Gamma knife) has on brain metastasis(es). Gamma knife radiosurgery is a way of giving radiation therapy to the brain in a very focused way, so that nearby parts of the brain receive very little exposure to radiation. No incisions are involved. Imaging technology is used to pinpoint the location of the tumor.

In this study, the investigators are also trying to find out how the tumor and/or treatment affect brain function over time. The investigators will do this by performing a series of neurocognitive assessments, or tests of memory, reasoning, and higher brain function, before treatment and at regular intervals after treatment.


Clinical Trial Description

This will be a prospective, multi-institution, non-randomized trial of neurocognitive outcomes in patients with multiple, newly-diagnosed brain metastases managed primarily with stereotactic radiosurgery (SRS), specifically the Gamma Knife (GK) system. The goal of the study is to enroll 45 patients with 1-10 newly-diagnosed brain metastases from varied primary cancers with the largest intracranial tumor volume ≤10 cc, ≤15 cc total tumor volume, absence of leptomeningeal disease on MRI, and Karnofsky performance status (KPS) score ≥70 (unless due to intracranial disease), and KPS expected to improve to ≥70 with treatment. The enrolled patients are expected to have fairly good pre-treatment cognitive function, defined as online neurocognitive function (oNCF) assessment scores ≥70 (within 2 standard deviations of mean, 100).

All study participants will undergo standard, pre-treatment clinical evaluations that include: complete clinical/neurologic exam, performance status assessment, systemic staging, and diagnostic MRI of the brain. Upon enrollment, the patients will further undergo high-resolution MRI, including track density imaging (TDI). The baseline neurocognitive function (NCF) will be assessed by a short (20-30 minute) online test battery that can be completed by patients at home, CogState assessment (22 minutes), as well as by a comprehensive neuropsychological evaluation (2-3 hours). The eligible patients will subsequently go on to receive a radiosurgical treatment for their brain metastases.

All patients will have treatment response assessments every 10-12 weeks consisting of a clinical/neurologic exam, performance status evaluation, disease re-staging (if indicated), and diagnostic MRI of the brain. If progressive disease is identified (radiographic progression of treated lesions or new brain lesions), the patients will be considered for "salvage" therapy which will include repeat SRS, whole-brain radiation therapy (WBRT), surgery with or without brachytherapy or best supportive care (e.g. steroids only). The preferred salvage therapy will be SRS provided that the re-treatment criteria are met. Along with regular clinical MRIs, TDI will be obtained.

Mandatory comprehensive follow-up testing by a neuropsychologist (1-2 hours) will occur every 10-12 weeks, starting 4 weeks after completion of SRS, and will continue at these intervals even if salvage therapy is administered for intracranial recurrence. Online NCF testing (oNCF and CogState) will take place in the office setting on the same day as a comprehensive cognitive assessment. Patients will also have the option to do web-based oNCF assessments from home but not more frequently than every 2 weeks. These optional assessments will not be included in the data analysis. All study participants will be followed until death or withdrawal from the study.

The primary aim of the study is to validate the oNCF battery and to demonstrate the feasibility of its use in patients with metastatic brain disease. The former will be accomplished by correlating the findings of the oNCF testing with those of a comprehensive neurocognitive function (cNCF) assessment of a neuropsychologist. Every attempt will be made to identify imaging correlates of neurocognitive function derived from high-resolution MRI, and TDI. The aggregate data in combination with lesion location information (and the corresponding treatment) should provide unique insights into mechanisms that underlie radiation therapy (RT)-related brain injury. Because salvage therapy with WBRT is also permitted and will likely be necessary in a subset of patients, some insights may also be gained on the relative extent, specificity, and temporal evolution of post-treatment NCF dysfunction of each treatment modality.

The data gained from this pilot study could form the basis of future trials of NCF outcomes in cancer patients, especially if oNCF test battery is validated as this may provide a cost-effective method for including NCF outcomes in clinical trials. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT01821443
Study type Interventional
Source University of California, San Francisco
Contact
Status Terminated
Phase N/A
Start date December 2012
Completion date October 22, 2015

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