State-of-the-art electrochemistry for the assessment of oxidative stress and integral antioxidant activity of biological environments

IF 2.9 Q2 ELECTROCHEMISTRY Electrochemical science advances Pub Date : 2022-03-31 DOI:10.1002/elsa.202100219
Khiena Z. Brainina, Liliya K. Shpigun
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引用次数: 1

Abstract

The present review focuses on the interplay between electrochemistry and life, events on the border of electrochemistry-biology-life science, electrochemistry as the basis, and the information source on oxidative stress (OS) or Red/Ox state of biological systems and food to be investigated. Electroanalytical chemistry provides rapid, relatively simple, and sensitive approaches to assess the redox characteristics and antioxidant activity of biologically active compounds in various samples.

OS is a relatively new physiological response concept, recognized in medicine and biology in the last three decades. This phenomenon is caused by an imbalance between (pro)oxidants and antioxidants in living organisms and it is related to the fundamental redox reactions that underlie health signaling and life processes in general. OS can contribute to many pathological conditions and diseases. In particular, it is recognized that a highly contagious infectious disease, coronavirus disease 2019, is associated with an inflammation process related to OS-induced cellular changes. Recent years have shown a marked increase in electrochemical studies of OS and quantitation of its reductant-oxidant markers (signaling agents), such as reactive oxygen species and antioxidants.

The goal of this overview is to cover the brief scope of modern electrochemical analysis and sensor devices for monitoring biomarkers of OS and antioxidant status of biological systems. By discussing the great potential of potentiometric and voltammetric methods for human health assessment, it is hoped to bridge between recent electrochemical research and medical diagnostic treatment in the 21st century.

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最先进的电化学技术用于评估生物环境的氧化应激和整体抗氧化活性
本文综述了电化学与生命的相互作用,电化学-生物学-生命科学的边界事件,电化学作为基础,以及生物系统和食物氧化应激(OS)或红/牛状态的信息源。电分析化学提供了快速、相对简单和敏感的方法来评估各种样品中生物活性化合物的氧化还原特性和抗氧化活性。OS是近三十年来医学和生物学公认的一个相对较新的生理反应概念。这种现象是由生物体中(原)氧化剂和抗氧化剂之间的不平衡引起的,它与构成健康信号和一般生命过程的基本氧化还原反应有关。OS可以导致许多病理状况和疾病。特别是,人们认识到,2019年冠状病毒病这一高度传染性传染病与os诱导的细胞变化相关的炎症过程有关。近年来,OS的电化学研究及其还原性氧化标记物(信号剂)(如活性氧和抗氧化剂)的定量研究显着增加。本综述的目标是涵盖现代电化学分析和传感器设备的简要范围,用于监测生物系统的生物标志物和抗氧化状态。通过讨论电位法和伏安法在人体健康评估中的巨大潜力,希望在21世纪的电化学研究和医学诊断治疗之间架起一座桥梁。
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CiteScore
3.80
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审稿时长
10 weeks
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