Objective: Our objective was to identify contemporary management options for large brain metastases reported in literature, specifically evaluating local control and risk of toxicity.
Background: Large brain metastases are typically defined as lesions >2 cm in diameter, and historically conferred poor outcomes due to the high rates of radiation necrosis and less local control in comparison to smaller brain metastases.
Methods: A literature search examining modern management of large brain metastases was performed using ovid-MEDLINE. A total of 18 articles met criteria for review, evaluating single fraction radiosurgery [stereotactic radiosurgery (SRS)] and multi-fraction stereotactic radiation therapy (MFSRT) in both the definitive and post-operative cavity setting, as well as targeted therapies.
Conclusions: Multi-fractionated radiosurgery represents a modern and attractive treatment approach in the definitive management of patients with large brain metastases, with equivalent local control and reduced rates of radionecrosis less than 13% in comparison to single fraction SRS. In cases where surgery is indicated, fractionated cavity radiation should be considered for large tumor bed volumes. More research is needed for the optimal dose and fractionation regimen for optimal tumor control with reduced risk of radiation toxicity, but common regimens include 3-5 fractions while meeting appropriate biologically effective dose (BED) goals. Future areas of interest include targeted therapies in the initial management of brain metastases as well as pre-operative radiation therapy to reduce risk of leptomeningeal disease (LMD).
Keywords: Large brain metastases; stereotactic radiosurgery (SRS); surgery; targeted therapy.