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Macro/Microgel‐Encapsulated, Biofilm‐Armored Living Probiotic Platform for Regenerating Bacteria‐Infected Diabetic Wounds

益生菌 生物膜 干酪乳杆菌 微生物学 生物 细菌 遗传学
作者
Huilong Xin,Zhe Cai,Jiahui Hao,Jing An,Yi Li,Min Wen,Zhaojun Jia
出处
期刊:Advanced Healthcare Materials [Wiley]
卷期号:14 (7): e2403476-e2403476 被引量:32
标识
DOI:10.1002/adhm.202403476
摘要

Infectious diabetic wounds pose an arduous threat to contemporary healthcare. The combination of refractory biofilms, persistent inflammation, and retarded angiogenesis can procure non-unions and life-threatening complications, calling for advanced therapeutics potent to orchestrate anti-infective effectiveness, benign biocompatibility, pro-reparative immunomodulation, and angiogenic regeneration. Herein, embracing the emergent "living bacterial therapy" paradigm, a designer probiotic-in-hydrogel wound dressing platform is demonstrated. The platform is constructed employing a "macrogel/microgel/biofilm" hierarchical encapsulation strategy, with Lactobacillus casei as the model probiotic. Alginate gels, in both macro and micro forms, along with self-produced probiotic biofilms, served as encapsulating agents. Specifically, live probiotics are enclosed within alginate microspheres, embedded into an alginate bulk matrix, and cultivated to facilitate biofilm self-encasing. This multiscale confinement protected the probiotics and averted their inadvertent escape, while enabling sustained secretion, proper reservation, and localized delivery of therapeutically active probiotic metabolites, such as lactic acid. The resulting biosystem, as validated in vitro/ovo/vivo, elicited well-balanced antibacterial activities and biological compatibility, alongside prominent pro-healing, vasculogenic and anti-inflammatory potencies, thus accelerating the regeneration of infected full-thickness excisional wounds in diabetic mice. Such multiple encapsulation-engineered "all-in-one" probiotic delivery tactic may shed new light on the safe and efficient adoption of live bacteria for treating chronic infectious diseases.
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