Brain Metastases Clinical Trial
Official title:
A Randomized Controlled Study Of Neurocognitive Outcomes In Patients With Five Or More Brain Metastases Treated With Radiosurgery Or Whole-Brain Radiotherapy
This is randomized study of neurocognitive outcomes in patients with five or more brain metastases treated with stereotactic radiosurgery (SRS), specifically the Gamma Knife (GK) system, or whole-brain radiation therapy (WBRT). The primary aim of this study is to compare the change in neurocognitive function outcome between baseline and 6 months in WBRT versus SRS treatment groups.
This is randomized controlled study of neurocognitive outcomes in patients with five or more
brain metastases treated with stereotactic radiosurgery (SRS), specifically the Gamma Knife
(GK) system, or whole-brain radiation therapy (WBRT). The goal of the study is to enroll 120
patients with at least five (≥5) newly-diagnosed brain metastases from non-melanoma, except
melanoma patients with BRAF V600E B-Raf protein mutation, 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.
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. 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. All
study participants will be randomized to receive radiosurgical or whole-brain radiation
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 primarily consist of SRS, WBRT,
surgery±brachytherapy or best supportive care (e.g. steroids only). The preferred salvage
therapy will be SRS provided that the re-treatment criteria are met. The NCF follow-up will
start 2 weeks after completion of the initial SRS treatment and will repeat at 2-week
intervals, irrespective of any salvage therapy that may be indicated. All study participants
will be followed until death or withdrawal from the study.
The primary aim of this study is to compare the change in neurocognitive outcome between
baseline and 6 months for surviving patients in upfront WBRT versus SRS treatment groups.
The primary study endpoint is neurocognitive function as measured by a significant change in
online neurocognitive function (oNCF) z-score from baseline to 6 months. The outcomes will
be compared after initial treatment and then repeatedly in follow-up, and will include the
impact of salvage SRS treatments. This approach will allow us to assess the relative impact
on neurocognitive outcomes of repeat SRS treatments to sites of new brain metastases.
Since SRS and WBRT are two very different forms of treatment (single high-dose treatment vs.
multiple low-dose treatments) with markedly different target volumes, it is expected that
local control rates will also be markedly different. This, in turn, will impact salvage
therapies and associated costs. This study will evaluate local control rates and overall
intracranial disease control at 3, 6, 9, and 12 months as a function of initial treatment
cohort (SRS vs. WBRT). We also expect significant differences between the treatment groups
in patient and caregiver reported quality of life (QoL) measures.
It is also expected that the SRS cohort will require multiple SRS treatments over the course
of the study since, unlike WBRT, the treatments target only gross brain metastases and do
not address microscopic (clinically undetectable) disease. Conversely, WBRT is expected to
result in inferior control rates of gross metastatic disease, increasing the likelihood of
subsequent SRS or other salvage therapy. For these reasons, we will track the actual costs
of treatments over the course of the study, including the need for supportive care and the
ability of patients to continue to work in their previous occupation.
The structure of the current study provides a unique opportunity to explore various
dosimetric SRS parameters in the setting of multiple brain metastases. Dose-volume criteria
for SRS have been established in a prospective RTOG 90-05 dose-finding study and
subsequently validated in RTOG 95-08, a randomized controlled trial of WBRT±SRS in patients
with 1-3 brain metastases. Several single-institution series as well as multi-institutional
retrospective analyses support the use of single-dose SRS for treatment of brain metastases;
however, the dose-volume criteria and prescription guidelines are not known in the setting
of ≥5 brain metastases where dose interaction among different lesion targets are much more
likely. These interactions can potentially lead to increased rates of radiation necrosis,
and if the SRS doses are arbitrarily reduced because of such concerns, then to a potentially
decreased local control rates. These parameters will be closely tracked in this study with
the aim of establishing an evidence-based dosimetric guidelines for radiosurgical treatment
of multiple (≥5) brain metastases.
The data gained from this study could help define patient selection and treatment criteria
for SRS of multiple brain metastases as a potential alternative to WBRT in a select group of
patients. This will also be a first study of its kind to use online neurocognitive
assessments for its primary endpoints to demonstrate feasibility and cost-effectiveness of
such an approach in a multi-institutional setting.
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