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Ultrasound‐Driven Innervated Bone Regeneration in Additively Manufactured Degradable Metallic Scaffolds

再生(生物学) 材料科学 超声波 生物医学工程 医学 细胞生物学 放射科 生物
作者
Wencheng Song,Danlei Zhao,Jiajia Wang,Z. Han,Yijun Liu,Yifan Wang,Cheng Yang
出处
期刊:Advanced Healthcare Materials [Wiley]
卷期号:14 (12): e2404024-e2404024 被引量:9
标识
DOI:10.1002/adhm.202404024
摘要

Bone tissues are densely innervated by nerve fibers throughout the periosteum and mineralized bone. The impairment of innervated bone regeneration is a critical factor contributing to the challenges in osteoporotic bone remodeling and repair. Herein, an "ultrasound-driven innervated bone regeneration" strategy is proposed in additively manufactured degradable Zn-Cu scaffolds. The in vitro investigations with RSC96 cells elucidated the synergistic promotion of low-intensity pulsed ultrasound (LIPUS) and metal cations on Schwann cell proliferation and exosome secretion. Notably, these Schwann cell-derived exosomes, once internalized by neighboring bone marrow stromal cells (BMSCs), significantly enhanced their migration, osteogenic differentiation, and extracellular matrix deposition, indicating a potent mechanism for innervated bone regeneration. Furthermore, the in vivo evaluation validated that LIPUS stimulation significantly activated S100β-positive Schwann cells and facilitated the regeneration of peripheral nerve fibers within cranial defects, leading to accelerated bone healing of osteoporotic rats with Zn-Cu implantation over 2- and 6-week recovery periods. This work provides an innervated bone regeneration strategy by focusing on the activation of Schwann cells and enhancement of paracrine effect, especially exosome secretion, which further recruited surrounding BMSCs and promoted their osteogenic differentiation. This study holds considerable promise for clinical applications and translation in the treatment of osteoporotic bone defects.
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