用于伤口愈合的一氧化氮纳米颗粒:克服挑战的未来方向

A. Kutner, A. Friedman
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引用次数: 7

摘要

慢性、不愈合的伤口造成严重的患者发病率和死亡率,并对卫生保健系统造成相当大的经济负担。这促使了对潜在伤口愈合疗法的研究,而外源性一氧化氮(NO)的递送是一种已被探索的途径。一氧化氮对正常伤口修复至关重要:它介导皮肤损伤后发生的许多重要过程,并因其固有的抗菌和细胞抑制特性帮助抵御入侵的病原体。由于其双重伤口修复和抗菌特性,外源性NO递送加速伤口愈合是一种有吸引力的治疗策略。已经研究了几种外源性NO递送方法,但局限性阻碍了它们在临床的广泛应用。纳米技术可用于多种活性成分的治疗递送,包括一氧化氮。一种混合水凝胶/玻璃复合no释放纳米颗粒平台在体外和实验中都证明了伤口愈合的效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nitric oxide nanoparticles for wound healing: Future directions to overcome challenges
Chronic, nonhealing wounds inflict significant patient morbidity and mortality and impose considerable economic burdens to health care systems. This has prompted investigations of the potential wound healing therapies, and exogenous delivery of nitric oxide (NO) is one avenue that has been explored. NO is crucial for normal wound repair: it mediates many vital processes that take place after cutaneous injury and helps to ward off invading pathogens due to its inherent antimicrobial and cytostatic properties. Because of its dual wound repair and antimicrobial features, exogenous NO delivery for the acceleration of wound healing is an attractive therapeutic strategy. Several exogenous NO delivery methods have been studied, but limitations preclude their widespread clinical use. Nanotechnology can be exploited for therapeutic delivery of a variety of active ingredients including NO. A hybrid hydrogel/glass composite NO-releasing nanoparticles platform has demonstrated wound healing efficacy both in vitro and...
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