Patterns of failure after stereotactic radiosurgery for brain metastases from small cell lung cancer: outcomes in the immunotherapy era.

Purpose/objective(s): Small cell lung cancer (SCLC) is known to have high rates of development of brain metastases. Standard treatment has been whole brain radiation therapy (WBRT) but the role for more focused treatment and hippocampal avoidance has arisen in the past decade. In addition, with possible penetration of the central nervous system by more modern immunotherapies, the risk of distant failure may be lower. As such, we reviewed patients at our institution treated with stereotactic radiosurgery (SRS) to look at patterns, locations, and predictors of failure in the brain.

Materials/methods: A retrospective review and analysis of charts was done on 46 patients treated with SRS (no history of prior WBRT) for their brain metastases from SCLC. Multivariate analysis was used to determine significant prognostic factors influencing survival and local/distant failure. We tracked timing and type of immunotherapy, if any, as well as if patients failed in the hippocampus or required WBRT.

Results: There were 46 patients with 97 total brain metastases treated with SRS in this study. Median number of metastases was 2 (1-5). The median dose of radiation was 20 Gy (20-30) in 3 fractions (1-5) for all 97 tumors. 11 patients did not receive immunotherapy, whereas 35 patients had immunotherapy of some sort. Median overall survival (OS) for the entire cohort was 13 months, with a 12 month OS of 59% and 2 year OS of 30%. Cox regression did not reveal any significant predictors of OS, including age, sex, total volume, extracranial disease, KPS, immunotherapy, or number of metastases. 12 month and 24 month local control of disease was 95% and 80%, respectively. There were no significant predictors of local failure including volume, dose, or immunotherapy. 25 of the patients had distant brain failure, with a rate of distant failure of 38% and 64% for 6 and 12 months, respectively. Immunotherapy, number of metastases, total target volume, nor presence of extracranial disease was predictive of distant brain failure. WBRT free survival was also measured and found to be 73% at 1 year. There were no significant predictors for this measure. Lastly, five patients in this cohort showed failure in the hippocampus, where the rate of failure at 6 and 12 months was 16%.

Conclusion: Rates of distant brain failure in SCLC patients after SRS remain similar to those of NSCLC patients in the immunotherapy era. We did not show a decrease in distant failure rate based on immunotherapy use. The rate of hippocampal failure was quite low and should provide reassurance that SRS and techniques such as HA-IMRT can be reasonably used in these patients. Ongoing clinical trials will help provide more definitive answers in this arena.