Fingerprinting of metabolic states by NAD(P)H fluorescence lifetime spectroscopy in living cells: A review

Medical Photonics Pub Date : 2015-05-01 DOI:10.1016/j.medpho.2014.06.001

J. Horilova , A. Mateasik , R. Revilla-i-Domingo , F. Raible , D. Chorvat Jr. , A. Marcek Chorvatova

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引用次数: 11

Abstract

Change in metabolic pathways is an important indicator of modifications in physiological, pathological and/or differentiation state of the cell. Its non-invasive investigation can significantly improve medical practice, namely the determination of the suspected tissue during surgery, including fast biopsy used for pre-operative tissue diagnostics, and/or resection guidance during surgical operations. Early detection of these changes is a prerequisite of fast and precise diagnostics directly in living cells and tissues and is thus crucial for the patient's survival and/or his/hers better quality of life. In this contribution, we review time-resolved fluorescence measurements of endogenous NAD(P)H in cells and tissues aimed at separation of specific metabolic pathways (glycolysis vs. oxidative phosphorylation – OXPHOS). Other complex situations, including the presence of oxidative stress, are also discussed. Current state of knowledge on non-invasive diagnostics of pathophysiological state in living cells and tissues, based on time-resolved autofluorescence, is presented.

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NAD(P)H荧光寿命光谱在活细胞代谢状态指纹图谱中的应用进展

代谢途径的改变是反映细胞生理、病理和/或分化状态变化的重要指标。它的无创调查可以显著改善医疗实践，即手术中可疑组织的确定，包括用于术前组织诊断的快速活检，和/或手术过程中的切除指导。早期发现这些变化是直接在活细胞和组织中快速准确诊断的先决条件，因此对患者的生存和/或其生活质量的提高至关重要。在这篇文章中，我们回顾了细胞和组织中内源性NAD(P)H的时间分辨荧光测量，旨在分离特定的代谢途径(糖酵解与氧化磷酸化- OXPHOS)。其他复杂的情况，包括氧化应激的存在，也进行了讨论。介绍了基于时间分辨自身荧光的活细胞和组织病理生理状态非侵入性诊断的现状。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Medical Photonics

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