In Situ Sprayed Hydrogel Delivers Extracellular Vesicles Derived from Human Endometrial Organoids for Uterine Function Preservation and Fertility Restoration

Abstract Impaired endometrial function and reduced receptivity remain significant causes of female infertility. Here, a sprayable hydrogel combined with human endometrial organoid extracellular vesicles (HEO‐EVs) is developed to enhance uterine function preservation and fertility restoration. The peptide amphiphile hydrogel (labeled CPA) is engineered by conjugating a collagen‐binding peptide with glutathione to impart its biocompatible adhesive and antioxidant properties. The therapeutic EVs are isolated and purified from human endometrial organoids that have been stably passaged long‐term using a bioreactor‐culture system. The resulting HEO‐EVs‐loaded CPA (CPA@HEO‐EVs) rapid gelation, triggered by salt‐ion interactions, occurs when the fluid is sprayed onto the uterine lining. The ex vivo studies demonstrate that CPA@HEO‐EVs promote cell proliferation, scavenges free radicals, and increases tube formation in human umbilical vein endothelial cells. In vivo experiments further validate that in situ spraying with the CPA@HEO‐EVs can promote neovascularization, prevent localized endometrial fibrosis, and effectively enhance fertility in a mouse model of endometrial injury. These findings highlight the promising clinical application of in situ sprayed CPA@HEO‐EVs hydrogel for targeted endometrial therapy.