2011 Background: Clinical predictors of local recurrence following radiation among patients with brain metastases (BrM) provide limited explanatory power. As a result, radiation doses and fractionation schemes are prescribed with a “one-size-fits-all” approach. We sought to develop a DNA-based signature of radiation-based efficacy among patients with BrM, utilizing readily testable genes, to identify subpopulations at greater vs. lesser risk of recurrence. Methods: We retrospectively identified 570 patients with 1,487 distinct BrM managed with whole-brain (WBRT) or stereotactic radiation therapy (SRS/SRT) at a tertiary cancer center (2013-2020) for whom next-generation sequencing panel data (OncoPanel, 239 genes) were available on at least one tumor specimen. Local recurrence was assessed in a manner consistent with Response Assessment in Neuro-Oncology – Brain Metastases guidelines (i.e., radiographic enlargement of >20% in maximal cross-sectional diameter). Enlarging lesions managed with salvage treatment prior to >20% enlargement were considered to have recurred on the date of salvage therapy. Fine/Gray’s competing risks regression was utilized to compare local recurrence on a per-metastasis level among patients with vs. without somatic alterations of likely biological significance across 84 OncoPanel genes with a mutational frequency >0.5%. Genes with a q-value<0.10 were utilized to develop a numeric “Brain-Radiation Prediction Score” (“Brain-RPS”) to quantify local recurrence risk. Results: Genomic alterations of potential biological relevance in 11 ( ATM, MYCL, PALB2, FAS, PRDM1, PAX5, CDKN1B, EZH2, NBN, DIS3, MDM4) and two genes ( FBXW 7 and AURKA) were associated with a decreased or increased risk of local recurrence, respectively (q-value<0.10). Weighted scores corresponding to the strength of association with local failure for each gene were summed to calculate a patient-level RPS. On multivariable Fine/Gray’s competing risks regression, RPS [1.66 (1.44-1.92, p<0.001)], metastasis-associated edema [1.89 (1.38-2.59), p<0.001] and receipt of WBRT without SRS/SRT or neurosurgical resection [2.73 (1.78-4.20), p<0.001] were independent predictors of local failure. Conclusions: We developed a genomic score that can be calculated from an extracranial or intracranial site to quantify local recurrence risk following brain-directed radiation. Prior attempts to develop a biomarker-based radiation response signature have not been BrM-specific and have primarily relied on RNA-based measures of radiosensitivity, limiting their utility in clinical practice. To our knowledge, this represents the first study to systemically correlate DNA-based alterations with radiation-based outcomes among patients with BrM. If validated, Brain-RPS has potential to facilitate clinical trials aimed at genomic personalization of radiation treatment among patients with BrM.