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功能高分子与生物传感器的整合以促进伤口愈合。

Integration of Functional Polymers and Biosensors to Enhance Wound Healing.

机构信息

Department of Bioengineering, University of California, Riverside, Riverside, CA, 92521, USA.

BICURE LLC, San Marino, CA, 91108, USA.

出版信息

Adv Healthc Mater. 2024 Nov;13(29):e2401461. doi: 10.1002/adhm.202401461. Epub 2024 Sep 5.

DOI:10.1002/adhm.202401461
PMID:39235365
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11582501/
Abstract

Biosensors have led to breakthroughs in the treatment of chronic wounds. Since the discovery of the oxygen electrode by Clarke, biosensors have evolved into the design of smart bandages that dispense drugs to treat wounds in response to physiological factors, such as pH or glucose concentration, which indicate pathogenic tendencies. Aptamer-based biosensors have helped identify and characterize pathogenic bacteria in wounds that often form antibiotic-resistant biofilms. Several functional polymers have served as indispensable parts of the fabrication of these biosensors. Beginning with natural polymers such as alginate, chitosan, and silk-based fibroin, which are biodegradable and absorptive, advances have been made in formulating biocompatible synthetic polymers such as polyurethane and polyethylene glycol designed to reduce non-specific binding of proteins and cells, making biosensors less painful or cumbersome for patient use. Recently, polycaprolactone has been developed, which offers ductility and a large surface-area-to-volume ratio. There is still room for advances in the fabrication and use of biosensors for wound healing and in this review, the trend in developing biosensors from biomarker detection to smart dressings to the incorporation of machine learning in designing customized wound patches while making application easier is highlighted and can be used for a long time.

摘要

生物传感器在慢性伤口治疗方面取得了突破。自 Clarke 发现氧电极以来,生物传感器已经发展成为智能绷带的设计,能够根据生理因素(如 pH 值或葡萄糖浓度)释放药物来治疗伤口,这些生理因素表明存在致病倾向。基于适配体的生物传感器有助于识别和表征经常形成抗生素耐药生物膜的伤口中的致病细菌。几种功能聚合物已成为这些生物传感器制造中不可或缺的部分。从可生物降解和可吸收的天然聚合物(如海藻酸盐、壳聚糖和丝素基纤维蛋白)开始,已经取得了进展,开发出了具有生物相容性的合成聚合物,如设计用于减少蛋白质和细胞非特异性结合的聚氨酯和聚乙二醇,使生物传感器对患者使用的痛苦或麻烦更小。最近,已经开发出了聚己内酯,它具有延展性和较大的表面积与体积比。在伤口愈合的生物传感器制造和使用方面仍有进步的空间,在这篇综述中,重点介绍了从生物标志物检测到智能敷料,再到将机器学习纳入定制伤口贴设计的生物传感器发展趋势,同时使应用更加容易,并且可以长期使用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/114c/11582501/736126b2dc81/ADHM-13-0-g009.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/114c/11582501/11b6611f166d/ADHM-13-0-g010.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/114c/11582501/1c440744fa53/ADHM-13-0-g012.jpg
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