伤口愈合
生物医学工程
材料科学
纳米技术
计算机科学
外科
医学
作者
Yuqin Xiao,Kaige Xu,Peng Zhao,Leilei Ji,Hua Chao,Xiaoli Jia,Xiaozhuo Wu,Ling Diao,Wen Zhong,Guozhong Lyu,Malcolm Xing
出处
期刊:Biomaterials
[Elsevier BV]
日期:2024-09-05
卷期号:314: 122813-122813
被引量:20
标识
DOI:10.1016/j.biomaterials.2024.122813
摘要
Wound healing concerns almost all bed-side related diseases. With our increasing comprehension of healing nature, the physical and chemical natures behind the wound microenvironment have been decoupled. Wound care demands timely screening and prompt diagnosis of wound complications such as infection and inflammation. Biosensor by the way of exhaustive collection, delivery, and analysis of data, becomes indispensable to arrive at an ideal healing upshot and controlling complications by capturing in-situ wound status. Electrochemical based sensors carry some potential unstable performance subjected to the electrical circuitry and power access and contamination. The colorimetric sensors are free from those concerns. We report that microsensors designed from O/W/O of capillary fluids can continuously monitor wound temperature, pH and glucose concentration. We combined three different types of microgels to encapsulate liquid crystals of cholesterol, nontoxic fuel litmus and two glucose-sensitizing enzymes. A smartphone applet was then developed to convert wound healing images to RGB of digitalizing data. The microgel dressing effectively demonstrates the local temperature change, pH and glucose levels of the wound in high resolution where a microgel is a 'pixel'. They are highly responsive, reversible and accurate. Monitoring multiple physicochemical and physiological indicators provides tremendous potential with insight into healing processing.
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