Hydrogel-Exosome Complexes: A Novel Strategy for Cardiovascular Regeneration

Abstract

Cardiovascular disease (CVD) remains one of the leading causes of high mortality and morbidity worldwide, posing a substantial threat to global health. Mesenchymal stem cell (MSC) therapy has emerged as a promising treatment approach, primarily through the secretion of various bioactive factors. Exosomes (Exos), in particular, stand out as the most effective components, as their noncoding RNA and proteins play a crucial role in promoting the repair of cardiac function, positioning them a promising cell-free therapy for CVD. However, challenges such as poor stability, low delivery efficiency, weak targeting, and rapid immune-mediated clearance hinder the broader application of Exos, presenting significant obstacles for further clinical translation. Recent advancements in biomaterials, particularly hydrogels, offer new avenues for Exos-based CVD therapies. Hydrogels, with their ability to improve stability, release control, and targeting, have gained considerable attention in the biomedical field. This review explores the latest research developments regarding the treatment of CVD using Exos, and highlights their synergistic application with hydrogels, which provide valuable insights for advancing Exos-based therapies and developing novel therapeutic strategies for CVD.