可穿戴近红外光学探头，用于乳腺癌新辅助化疗输注期间的连续监测。

Wearable near-infrared optical probe for continuous monitoring during breast cancer neoadjuvant chemotherapy infusions.

机构信息

Boston University, Department of Electrical and Computer Engineering and Photonics Center, 8 Saint Mary's Street, Boston, Massachusetts 02215, United States.

Boston University, Fraunhofer Center for Manufacturing Innovation, 15 Saint Mary's Street, Brookline, Massachusetts 02446, United States.

出版信息

J Biomed Opt. 2017 Jan 1;22(1):14001. doi: 10.1117/1.JBO.22.1.014001.

DOI:10.1117/1.JBO.22.1.014001

PMID:28114449

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5289133/

Abstract

We present a new continuous-wave wearable diffuse optical probe aimed at investigating the hemodynamic response of locally advanced breast cancer patients during neoadjuvant chemotherapy infusions. The system consists of a flexible printed circuit board that supports an array of six dual wavelength surface-mount LED and photodiode pairs. The probe is encased in a soft silicone housing that conforms to natural breast shape. Probe performance was evaluated using tissue-simulating phantoms and in vivo normal volunteer measurements. High SNR (71 dB), low source-detector crosstalk ( ? 60 ?? dB ), high measurement precision (0.17%), and good thermal stability (0.22% V rms / ° C ) were achieved in phantom studies. A cuff occlusion experiment was performed on the forearm of a healthy volunteer to demonstrate the ability to track rapid hemodynamic changes. Proof-of-principle normal volunteer measurements were taken to demonstrate the ability to collect continuous in vivo breast measurements. This wearable probe is a first of its kind tool to explore prognostic hemodynamic changes during chemotherapy in breast cancer patients.

摘要

我们提出了一种新的连续波可穿戴漫射光学探头，旨在研究新辅助化疗输注过程中局部晚期乳腺癌患者的血液动力学反应。该系统由一个柔性印刷电路板组成，该电路板上支持 6 个双波长表面贴装 LED 和光电二极管对的阵列。探头封装在柔软的硅酮外壳中，与自然乳房形状相贴合。使用组织模拟体模和体内正常志愿者测量对探头性能进行了评估。在体模研究中实现了高信噪比（71dB）、低源-探测器串扰（<60dB）、高精度测量（0.17%）和良好的热稳定性（0.22%Vrms/°C）。在手背上对健康志愿者进行了袖带闭塞实验，以证明其跟踪快速血液动力学变化的能力。进行了正常志愿者的初步测量，以证明能够连续进行体内乳房测量的能力。这种可穿戴探头是一种首创的工具，可用于探索乳腺癌患者化疗过程中的预后血液动力学变化。

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