INTRODUCTION: Mechanical thrombectomy is the standard of care for ischemic stroke, but there is a significant mismatch between successful recanalization and clinical outcomes. Inflammation in the ischemic penumbra remains a target for neuroprotective interventions even in recanalized and non-recanalized patients. P-selectin (Psel) is a marker of endothelial cell activation and could be used to deliver therapeutics locally to the site of ischemic injury. METHODS: The fusion protein Pselectin-Crry was constructed using single chain antibody sequence linked to the extracellular region of mouse Crry. In-vivo testing using surface plasmon resonance for binding affinity to Psel, and zymosan assay for complement inhibitory activity. In-vivo studies were performed in C57bl/6 mice subjected to transient middle cerebral artery occlusion for 1 hour followed by administration of Psel-Crry 2 hours after reperfusion. Psel-Crry was labelled using far-red fluorescence and live-animal imaging was used to study brain-specific targeting. The modified Neurological Severity (NS) score was used for functional outcome along with survival, infarct volume and histological outcomes. RESULTS: Psel-Crry demonstrated dose-dependent complement inhibitory activity, and localized specifically to the stroke brain on in-vivo live imaging. Ex-vivo imaging of explanted brain showed Psel-Crry binding specifically to the injured hemisphere without off-target binding (Stroke vs. Sham, p < 0.001). Psel-Crry resulted in 60% reduction in infarct volume at 3 days compare to vehicle (N = 8/group, p < 0.05), reduction in NS scores compared to vehicle (Median 3 vs. 1.5, p < 0.05), and improved 1-week survival (80% vs. 50%, p < 0.05). Histological analyses demonstrated preservation of dendritic arborization in the ischemic penumbra with Psel-Crry treatment with concurrent significant reduction in microglial activation. CONCLUSIONS: Psel-Crry is a translational agent that can achieve local complement inhibitory effect and antiplatelet activity after stroke and has promise for potential use as ajuvant therapy in stroke.