生物活性聚乙二醇-硫酸软骨素-三重螺旋重组胶原水凝胶用于增强颅骨缺损修复效果

Journal of Leather Science and Engineering Pub Date : 2024-08-01 DOI:10.1186/s42825-024-00168-4

Lili Wang, Shanshan Zhang, Fan Yang, Xian Chen, Huixia He, Zaiman Liu, Jianxi Xiao

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引用次数: 0

摘要

重建临界大小的腓骨缺损仍是一项基本挑战。由于重组胶原蛋白具有显著的生物活性和非免疫原性，因此在骨组织工程中备受关注。在此，我们首次开发了一种生物活性聚乙二醇-硫酸软骨素-三重螺旋重组胶原（PEG-ChS-THRC）水凝胶，用于增强颅骨缺损的骨再生。双臂聚乙二醇活性酯（NHS-PEG-NHS）、己二酸二酰肼修饰的硫酸软骨素（ChS-ADH）和三重螺旋重组胶原（THRC）通过简单温和的交联反应形成了 PEG-ChS-THRC 水凝胶。这种水凝胶具有相互连接的多孔结构、更强的机械强度、更小的溶胀率和可调节的生物降解性。它具有优异的生物相容性和生物活性，能显著促进 BMSCs 的细胞增殖、粘附、迁移和成骨分化。对临界大小颅骨缺损大鼠模型进行的显微计算机断层扫描（micro-CT）、磁共振成像（MRI）和组织学鉴定一致表明，PEG-ChS-THRC 水凝胶能显著促进骨组织再生。这种创新的生物活性支架能明显改善临界大小颅骨缺损的治疗效果，在骨组织再生领域具有广阔的应用前景。

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Bioactive poly(ethylene glycol)-chondroitin sulfate-triple helical recombinant collagen hydrogel for enhanced cranial defect repair

The reconstruction of critical-size calvarial defects remains a fundamental challenge. Recombinant collagen has gained significant attention in bone tissue engineering owing to its remarkable bioactivity and non-immunogenicity. Herein, we have for the first time developed a bioactive poly(ethylene glycol)-chondroitin sulfate-triple helical recombinant collagen (PEG-ChS-THRC) hydrogel for enhanced bone regeneration in cranial defects. A simple and mild crosslinking reaction of two-arm polyethylene glycol active ester (NHS-PEG-NHS), adipic dihydrazide modified chondroitin sulfate (ChS-ADH) and triple helical recombinant collagen (THRC) leads to the formation of the PEG-ChS-THRC hydrogel. The hydrogel demonstrates interconnected porous structures, enhanced mechanical strength, diminished swelling ratios and adjustable biodegradability. It possesses exceptional biocompatibility and bioactivity, significantly facilitating cell proliferation, adhesion, migration, and osteogenic differentiation of BMSCs. Micro-computed tomography (micro-CT), magnetic resonance imaging (MRI) and histological characterization of rat models with critical-size cranial defects have consistently demonstrated that the PEG-ChS-THRC hydrogel significantly promotes bone tissues regeneration. The innovative bioactive scaffold provides a remarkably improved remedy for critical-size cranial defects, holding greatly promising applications in the fields of bone tissue regeneration.

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来源期刊

Journal of Leather Science and Engineering 工程技术-材料科学：综合

CiteScore

12.80

自引率

0.00%

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