Feasibility of Monitoring Tissue Properties During Microcirculation Disorder Using a Compact Fiber-Based Probe With Sapphire Tip.

Journal of biophotonics Pub Date : 2024-11-01 Epub Date: 2024-10-02 DOI:10.1002/jbio.202400368
Alina A Platonova, Polina V Aleksandrova, Anna I Alekseeva, Sophya P Kudryavtseva, Arsen K Zotov, Kirill I Zaytsev, Kirill B Dolganov, Igor V Reshetov, Vladimir N Kurlov, Irina N Dolganova
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Abstract

One of the urgent tasks of modern medicine is to detect microcirculation disorder during surgery to avoid possible consequences like tissue hypoxia, ischemia, and necrosis. To address this issue, in this article, we propose a compact probe with sapphire tip and optical sensing based on the principle of spatially resolved diffuse reflectance analysis. It allows for intraoperative measurement of tissue effective attenuation coefficient and its alteration during the changes of tissue condition, caused by microcirculation disorder. The results of experimental studies using (1) a tissue-mimicking phantom based on lipid emulsion and hemoglobin and (2) a model of hindlimb ischemia performed in a rat demonstrated the ability to detect rapid changes of tissue attenuation confirming the feasibility of the probe to sense the stressful exposure. Due to a compact design of the probe, it could be useful for rather wide surgical operations and diagnostic purposes as an auxiliary instrument.

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使用带蓝宝石尖端的紧凑型光纤探头监测微循环紊乱期间组织特性的可行性。
现代医学的当务之急之一是在手术过程中检测微循环障碍,以避免可能出现的后果,如组织缺氧、缺血和坏死。为了解决这个问题,我们在本文中提出了一种基于空间分辨漫反射分析原理的蓝宝石尖端和光学传感的紧凑型探头。它可以在术中测量组织的有效衰减系数及其在微循环障碍引起的组织状况变化过程中的变化情况。使用(1)基于脂质乳液和血红蛋白的组织模拟模型和(2)大鼠后肢缺血模型进行的实验研究结果表明,该探针能够检测组织衰减的快速变化,证实了探针感知压力暴露的可行性。由于该探针设计小巧,可作为一种辅助仪器用于相当广泛的外科手术和诊断目的。
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