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用于细胞生物学和早期癌症检测的角度分辨低相干干涉术的细胞核形态测量

Nuclear morphology measurements with angle-resolved low coherence interferometry for application to cell biology and early cancer detection.

作者信息

Wax Adam, Chalut Kevin J

机构信息

Department of Biomedical Engineering, Fitzpatrick Institute for Photonics, Duke University, Durham, NC, USA.

出版信息

Stud Health Technol Inform. 2013;185:129-51.

Abstract

The study of intact, living cells using non-invasive optical spectroscopic methods offers the opportunity to assess cellular structure and organization in a way that is not possible with commonly used cell biology imaging techniques. We have developed a novel spectroscopic technique for diagnosing disease at the cellular level based on using low-coherence interferometry (LCI) to detect the angular distribution of scattered light. Angle-resolved LCI (a/LCI) combines the ability of LCI to isolate scattering from sub-surface tissue layers with the ability of light scattering spectroscopy to obtain structural information on sub-wavelength scales. In application to examining cellular structure, a/LCI enables quantitative measurements of changes in the size and texture of cell nuclei. These quantitative measurements are characteristic of different pathological states. The capabilities of a/LCI were demonstrated using a clinical system that can be applied in endoscopic surveillance of esophageal tissue, producing high sensitivity and specificity for detecting dysplastic tissues in vivo. Experiments with in vitro cell samples also show the utility of a/LCI in observing structural changes due to environmental stimuli as well as detecting apoptosis due to chemotherapeutic agents.

摘要

使用非侵入性光学光谱方法对完整活细胞进行研究,为评估细胞结构和组织提供了一种常用细胞生物学成像技术无法实现的方式。我们基于使用低相干干涉测量法(LCI)检测散射光的角分布,开发了一种用于在细胞水平诊断疾病的新型光谱技术。角分辨LCI(a/LCI)将LCI从亚表面组织层分离散射的能力与光散射光谱法在亚波长尺度上获取结构信息的能力相结合。在应用于检查细胞结构时,a/LCI能够对细胞核大小和纹理的变化进行定量测量。这些定量测量是不同病理状态的特征。使用可应用于食管组织内镜监测的临床系统展示了a/LCI的能力,该系统在体内检测发育异常组织时具有高灵敏度和特异性。对体外细胞样本进行的实验还表明,a/LCI在观察环境刺激引起的结构变化以及检测化疗药物导致的细胞凋亡方面也具有实用性。

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