Microfluidic-engineered Chinese herbal nanocomposite hydrogel microspheres for diabetic wound tissue regeneration

组织工程 生物相容性 再生医学 伤口愈合 血管生成 生物医学工程 肉芽组织 脚手架 自愈水凝胶 微流控 化学 再生(生物学) 纳米技术 材料科学 细胞生物学 细胞 医学 免疫学 癌症研究 生物 生物化学 有机化学
作者
Peng Guo,Pengkun Lei,Lin Luo,Yang Qin,Qiaolin Yang,Ya Tian,Wen Shi,Yuchun Liu,Rui Zeng,Yunxia Li,Yan Qu,Chen Zhang
出处
期刊:Journal of Nanobiotechnology [BioMed Central]
卷期号:22 (1): 724-724 被引量:29
标识
DOI:10.1186/s12951-024-02998-0
摘要

Microfluidic-engineered hydrogel microspheres have emerged as a promising avenue for advancements in tissue engineering and regenerative medicine, particularly through the precise manipulation of fluids to achieve personalized composite biomaterials. In this study, we employed microfluidic technology to fabricate hydrogel microspheres (HMs) using Chinese herbal Bletilla striata polysaccharide (BSP) as the primary material. Concurrently, the natural active ingredient 20(S)-protopanaxadiol (PPD) was encapsulated within the HMs in the form of liposomes (PPD-Lipo), resulting in the formation of nanocomposite hydrogel microspheres (PPD-Lipo@HMs) intended for diabetic wound tissue repair. PPD-Lipo@HMs are characterized by the expansive specific surface area, adjustable mechanical properties, and exceptional biocompatibility. PPD-Lipo@HMs can stimulate the production of vascular endothelial factors, which in turn enhances the migration of endothelial cells, the creation of tubes, angiogenesis, and tissue repair. Moreover, the PPD-Lipo@HMs accumulation produces a microsphere scaffold that effectively covers damaged tissues, promoting the attachment, spread, and multiplication of fibroblast and endothelial cells. The polysaccharide material BSP within PPD-Lipo@HMs can modulate the immune microenvironment of the damaged tissue, reducing inflammation, encouraging re-epithelialization and granulation tissue formation, accelerating angiogenesis and collagen deposition, ultimately leading to tissue repair. The findings highlight the superior therapeutic efficacy of the microfluidic-engineered PPD-Lipo@HMs in addressing the complex challenges of diabetic wound tissue repair, thereby affirming the significant potential of microfluidic engineering technology in tissue repair applications.
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