37 Background: Immune related adverse events still occur in up to 91% of patients receiving immunotherapy. Intratumoral administration is a potential solution to limit these events by reducing systemic exposure while increasing local concentration. However, intratumoral injection is hindered by rapid clearance of drug from the tumor. Our group has developed an intratumoral nanochannel implant for sustained delivery of immunotherapy (NDES) as a solution. Recent clinical and preclinical studies have found success in the combination of radiotherapy and immunotherapy in improving both local and distant tumor response. We propose a combination of radiotherapy followed by sustained intratumoral delivery of immunotherapy as a treatment regimen to improve tumor response and reduce side effects. Methods: Mice were implanted with the 4T1 murine mammary carcinoma and separated into treatment and control groups. CD40 agonist antibody was delivered intratumorally via NDES. Radiotherapy was administered at 8 Gy for three consecutive days and implantation of the NDES occurred the day after the final fraction of radiation. The tumor growth curve was plotted and tumor, spleen, lymph nodes, lungs, and blood were collected at the study endpoint for further flow cytometry and histological analysis. Results: The combination of radiotherapy and sustained intratumoral CD40 antibody showed significantly decreased tumor growth rates over radiotherapy or sustained intratumoral immunotherapy alone. Both intratumoral and systemic T-cell activation was observed. Mice treated with sustained intratumoral CD40 antibody showed decreased toxicity when compared to those receiving comparable systemic dosage. Conclusions: Radiotherapy combined with local sustained intratumoral immunotherapy is a potential strategy for improving treatment of solid tumors which currently show suboptimal response to current immunotherapy regimens and for inducing a systemic response to distant metastases while minimizing adverse side effects. The sustained delivery profile of the NDES presents an opportunity for practical intratumoral administration and avoidance of repeated invasive procedures in patients.