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From Bench to Bone: Clinical Promise of Exosome-Enhanced Scaffolds in Orthopedic Regeneration Publisher



Emami A ; Menbarioskouie I
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Source: Progress in Biophysics and Molecular Biology Published:2025


Abstract

Bone regeneration remains one of the greatest challenges in orthopedic medicine, particularly in cases of complex fractures, nonhealing bones, or large bone defects. Traditional treatments, such as autologous grafts, allogeneic grafts, synthetic materials, or drug therapies, often face limitations, including donor-site pain, immune rejection, and limited ability to stimulate true bone healing. A promising new approach involves the use of exosome-enhanced scaffolds, which combine the structural support of biomaterial scaffolds with the potent regenerative effects of exosomes. Exosomes are nanosized vesicles secreted by cells such as mesenchymal stem cells, osteoblasts, and macrophages. They carry proteins, lipids, and regulatory RNAs that play crucial roles in coordinating bone formation, angiogenesis, and immune modulation. When incorporated into scaffolds, exosomes promote osteogenesis, stimulate vascularization, and facilitate tissue remodeling, thereby creating an optimal microenvironment for bone repair. Preclinical studies have demonstrated accelerated healing, enhanced bone strength, and improved overall bone quality, while early clinical trials indicate that these therapies are both safe and effective. Current research efforts focus on optimizing exosome isolation, understanding their interactions with scaffolds, and developing controlled delivery systems. This strategy holds great promise for transforming orthopedic care by providing patient-specific, biologically active treatments for even the most challenging bone defects. © 2025 Elsevier B.V., All rights reserved.
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