Electrochemical and optical methods for detection of cystatin C as a biomarker of kidney disease.

Jiakui Zhang, Baiping Ren, Jingxuan Liu, Hongwu Li
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Abstract

The kidneys have vital functions in the body, including maintaining homeostasis and blood pressure, controlling water-electrolyte balance, and eliminating metabolic wastes. Early identification of renal dysfunction disease and selection of effective treatment methods reduce mortality in patients. Nowadays, Common indicators of kidney function lack the necessary specificity and sensitivity, but recent studies have reported that cystatin C (CysC) may be an ideal marker for glomerular filtration. CysC, known as a cysteine protease inhibitor, is synthesized by nucleated cells and is easily filtered due to its positive charge and low molecular weight. Also, the synthesis and secretion of CysC is a stable process that is not affected by dietary factors, enhanced protein catabolism, and renal conditions. Various studies have reported that measuring the level of CysC in the body's biological fluids is necessary for the treatment and diagnosis of a wide range of diseases, especially chronic kidney disease (CKD).Despite evidence that positive correlation between the high risk and/or progression of CKD and CysC, it's applied in clinical practice is still rare. Biosensors have been widely developed and researched as an effective method for the pharmaceutical, environmental, and medical fields. Biosensors are designed to create an effective electronic signal commensurate with the concentration of a particular biochemical.Recently, many studies have used biosensor techniques to detect CysC in kidneys and other diseases. In this study, we attempt to examine studies that have used different biosensor techniques for the detect CysC.

检测作为肾病生物标志物的胱抑素 C 的电化学和光学方法。
肾脏在人体中具有重要功能,包括维持体内平衡和血压、控制水电解质平衡以及排出代谢废物。及早发现肾功能障碍疾病并选择有效的治疗方法可降低患者的死亡率。目前,肾功能的普通指标缺乏必要的特异性和敏感性,但最近的研究报告称,胱抑素 C(CysC)可能是肾小球滤过功能的理想标志物。胱抑素 C 是一种半胱氨酸蛋白酶抑制剂,由有核细胞合成,由于带正电荷且分子量低,因此很容易被过滤。此外,CysC 的合成和分泌是一个稳定的过程,不受饮食因素、蛋白质分解代谢增强和肾脏状况的影响。尽管有证据表明 CKD 的高风险和/或进展与 CysC 呈正相关,但其在临床实践中的应用仍然很少。生物传感器作为制药、环境和医疗领域的一种有效方法,已经得到了广泛的开发和研究。生物传感器旨在产生与特定生化物质浓度相匹配的有效电子信号。在本研究中,我们试图考察使用不同生物传感器技术检测 CysC 的研究。
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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