具有多种生物物理和生化线索的可注射水凝胶系统，用于骨再生。

Injectable hydrogel systems with multiple biophysical and biochemical cues for bone regeneration.

机构信息

Department of Orthopedics, The Second Affiliated Hospital of Soochow University, Suzhou 215000, People's Republic of China.

Department of Burns and Plastic Surgery, The Affiliated Hospital of Jiangnan University, Wuxi 214041, People's Republic of China.

出版信息

Biomater Sci. 2020 May 6;8(9):2537-2548. doi: 10.1039/d0bm00104j.

DOI:10.1039/d0bm00104j

PMID:32215404

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7204512/

Abstract

Bone regeneration is a complex process in which angiogenesis and osteogenesis are crucial. Introducing multiple angiogenic and osteogenic cues simultaneously into a single system and tuning these cues to optimize the niche remains a challenge for bone tissue engineering. Herein, based on our injectable biomimetic hydrogels composed of silk nanofibers (SNF) and hydroxyapatite nanoparticles (HA), deferoxamine (DFO) and bone morphogenetic protein-2 (BMP-2) were loaded on SNF and HA to introduce more angiogenic and osteogenic cues. The angiogenesis and osteogenesis capacity of injectable hydrogels could be regulated by tuning the delivery of DFO and BMP-2 independently, resulting in vascularization and bone regeneration in cranial defects. The angiogenesis and osteogenesis outcomes accelerated the regeneration of vascularized bones toward similar composition and structure to natural bones. Therefore, the multiple biophysical and chemical cues provided by the nanofibrous structures, organic-inorganic compositions, and chemical and biochemical angiogenic and osteogenic inducing cues suggest the potential for clinical applicability of these hydrogels in bone tissue engineering.

摘要

骨再生是一个复杂的过程，其中血管生成和成骨作用至关重要。将多种血管生成和成骨线索同时引入单个系统，并调整这些线索以优化小生境仍然是骨组织工程的一个挑战。在此，基于我们的可注射仿生水凝胶，该水凝胶由丝纳米纤维（SNF）和羟基磷灰石纳米颗粒（HA）组成，将去铁胺（DFO）和骨形态发生蛋白-2（BMP-2）装载到 SNF 和 HA 上，以引入更多的血管生成和成骨线索。可注射水凝胶的血管生成和成骨能力可以通过独立调节 DFO 和 BMP-2 的递送来调节，从而导致颅骨缺损中的血管化和骨再生。血管生成和成骨的结果加速了血管化骨骼的再生，使其具有与天然骨骼相似的组成和结构。因此，纳米纤维结构、有机-无机成分以及化学和生化血管生成和成骨诱导线索提供的多种生物物理和化学线索表明，这些水凝胶在骨组织工程中的临床应用具有潜力。

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