Acellular Extracellular Matrix Scaffolds in Regenerative Medicine: Advances in Decellularization and Clinical Applications
Caijun Jin, Xinrui Zhang, Yongxun Jin, Pham Ngoc Chien, Chan Yeong Heo
Abstract
Decellularized extracellular matrix (dECM) scaffolds preserve native tissue structure and biochemical cues while minimizing immune responses, creating biomimetic templates that promote cell integration and tissue remodeling. This review examines the current state of dECM research, encompassing decellularization methods, scaffold quality evaluation assays, and tissue-specific applications across dermis, nerve, heart, lung, adipose, and placental ECMs. We analyze commercially available dECM products and ongoing clinical trials, while highlighting recent advances including 3D bioprinting and the integration of dECM with stem cells and growth factors. Despite these promising developments, several challenges continue to limit broader clinical translation: protocol standardization, residual immunogenicity, mechanical durability, and regulatory, manufacturing, and cost barriers. To address these limitations, we outline future directions focusing on patient-specific scaffolds, scalable bioprocessing, and integrated biofabrication strategies that will enable the development of safe and effective dECM-based therapies.