Stomatological Hospital of Chongqing Medical University, Chongqing Key Laboratory of Oral Diseases and Biomedical Sciences, Chongqing Municipal Key Laboratory of Oral Biomedical Engineering of Higher Education, Chongqing, 401147, P. R. China.
Key State Laboratory of Fine Chemicals, School of Bioengineering, Dalian University of Technology, Dalian, 116023, P. R. China.
Adv Healthc Mater. 2023 Oct;12(25):e2300469. doi: 10.1002/adhm.202300469. Epub 2023 Jul 27.
The healing of infected bone defects (IBD) is a complex physiological process involving a series of spatially and temporally overlapping events, including pathogen clearance, immunological modulation, vascularization, and osteogenesis. Based on the theory that bone healing is regulated by both biochemical and biophysical signals, in this study, a copper doped bioglass (CuBGs)/methacryloyl-modified gelatin nanoparticle (MA-GNPs)/methacrylated silk fibroin (SilMA) hybrid hydrogel is developed to promote IBD healing. This hybrid hydrogel demonstrates a dual-photocrosslinked interpenetrating network mechanism, wherein the photocrosslinked SilMA as the main network ensures structural integrity, and the photocrosslinked MA-GNPs colloidal network increases strength and dissipates loading forces. In an IBD model, the hydrogel exhibits excellent biophysical characteristics, such as adhesion, adaptation to irregular defect shapes, and in situ physical reinforcement. At the same time, by sequentially releasing bioactive ions such as Cu , Ca , and Si ions from CuBGs on demand, the hydrogel spatiotemporally coordinates antibacterial, immunomodulatory and bone remodeling events, efficiently removing infection and accelerating bone repair without the use of antibiotics or exogenous recombinant proteins. Therefore, the hybrid hydrogel can be used as a simple and effective method for the treatment of IBD.
感染性骨缺损(IBD)的愈合是一个复杂的生理过程,涉及一系列时空重叠的事件,包括病原体清除、免疫调节、血管生成和成骨。基于骨愈合受生化和生物物理信号调节的理论,本研究开发了一种铜掺杂生物玻璃(CuBGs)/甲基丙烯酰化明胶纳米颗粒(MA-GNPs)/甲基丙烯酰化丝素(SilMA)杂化水凝胶,以促进 IBD 愈合。这种杂化水凝胶表现出双重光交联互穿网络机制,其中光交联的 SilMA 作为主网络确保结构完整性,而光交联的 MA-GNPs 胶体网络增加强度并耗散加载力。在 IBD 模型中,水凝胶表现出良好的生物物理特性,如粘附性、适应不规则缺陷形状和原位物理增强。同时,通过按需从 CuBGs 中顺序释放 Cu、Ca 和 Si 等生物活性离子,水凝胶时空协调抗菌、免疫调节和骨重塑事件,有效去除感染并加速骨修复,而无需使用抗生素或外源性重组蛋白。因此,杂化水凝胶可作为治疗 IBD 的一种简单有效的方法。
