通过用于经皮氧合可穿戴应用的逆边界问题计算组织氧合。

Calculation of Tissue Oxygenation via an Inverse Boundary Problem for Transcutaneous Oxygenation Wearable Applications.

作者信息

Cascales Juan Pedro, Draghici Adina E, Keshishian Helen, Taylor J Andrew, Evans Conor L

机构信息

Wellman Center for Photomedicine, Massachusetts General Hospital, Harvard Medical School, Charlestown, Massachusetts 02129, United States.

Departamento de Química en Ciencias Farmacéuticas, Facultad de Farmacia, Universidad Complutense de Madrid, Plaza Ramón y Cajal S/N, Madrid 28040, Spain.

出版信息

ACS Meas Sci Au. 2023 May 2;3(4):269-276. doi: 10.1021/acsmeasuresciau.3c00013. eCollection 2023 Aug 16.

DOI:10.1021/acsmeasuresciau.3c00013

PMID:37600461

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10436371/

Abstract

In this article, we present a toolset to fully leverage a previously developed transcutaneous oxygenation monitor (TCOM) wearable technology to accurately measure skin oxygenation values. We describe numerical models and experimental characterization techniques that allow for the extraction of precise tissue oxygenation measurements. The numerical model is based on an inverse boundary problem of the parabolic equation with Dirichlet boundary conditions. To validate this model and characterize the diffusion of oxygen through the oxygen sensing materials, we designed a series of control/calibration experiments modeled after the device's clinical application using oxygenation values in the physiological range expected for healthy tissue. Our results demonstrate that it is possible to obtain accurate tissue pO measurements without the need for long equilibration times with a small wearable device.

摘要

在本文中，我们展示了一套工具集，以充分利用先前开发的经皮氧合监测仪（TCOM）可穿戴技术来精确测量皮肤氧合值。我们描述了数值模型和实验表征技术，这些技术能够提取精确的组织氧合测量值。该数值模型基于具有狄利克雷边界条件的抛物方程的逆边界问题。为了验证该模型并表征氧气在氧传感材料中的扩散，我们设计了一系列对照/校准实验，这些实验以该设备的临床应用为蓝本，使用健康组织预期生理范围内的氧合值。我们的结果表明，使用小型可穿戴设备无需长时间平衡即可获得准确的组织pO测量值。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/08f4/10436371/1c7e6438031e/tg3c00013_0001.jpg

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通过用于经皮氧合可穿戴应用的逆边界问题计算组织氧合。

Calculation of Tissue Oxygenation via an Inverse Boundary Problem for Transcutaneous Oxygenation Wearable Applications.

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