Confocal Raman study of aging process in diabetes mellitus human voluntaries

Biophotonics South America Pub Date : 2015-06-19 DOI:10.1117/12.2181040

L. Pereira, C. A. Téllez Soto, L. dos Santos, S. M. Ali, P. Fávero, A. Martin

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引用次数: 4

Abstract

Accumulation of AGEs [Advanced Glycation End – products] occurs slowly during the human aging process. However, its formation is accelerated in the presence of diabetes mellitus. In this paper, we perform a noninvasive analysis of glycation effect on human skin by in vivo confocal Raman spectroscopy. This technique uses a laser of 785 nm as excitation source and, by the inelastic scattering of light, it is possible to obtain information about the biochemical composition of the skin. Our aim in this work was to characterize the aging process resulting from the glycation process in a group of 10 Health Elderly Women (HEW) and 10 Diabetic Elderly Women (DEW). The Raman data were collected from the dermis at a depth of 70-130 microns. Through the theory of functional density (DFT) the bands positions of hydroxyproline, proline and AGEs (pentosidine and glucosepane) were calculated by using Gaussian 0.9 software. A molecular interpretation of changes in type I collagen was performed by the changes in the vibrational modes of the proline (P) and hydroxyproline (HP). The data analysis shows that the aging effects caused by glycation of proteins degrades type I collagen differently and leads to accelerated aging process.

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糖尿病自愿者衰老过程的共聚焦拉曼研究

AGEs[晚期糖基化终产物]的积累在人类衰老过程中缓慢发生。然而，它的形成在糖尿病患者中加速。在本文中，我们通过体内共聚焦拉曼光谱对人体皮肤的糖基化效应进行了无创分析。该技术使用785纳米的激光作为激发源，通过光的非弹性散射，可以获得有关皮肤生化成分的信息。在这项工作中，我们的目的是表征10名健康老年妇女(HEW)和10名糖尿病老年妇女(DEW)的糖基化过程引起的衰老过程。拉曼数据采集于真皮70-130微米深度。通过功能密度理论(DFT)，利用高斯0.9软件计算了羟脯氨酸、脯氨酸和AGEs(戊苷和葡萄糖苷)的能带位置。通过脯氨酸(P)和羟脯氨酸(HP)振动模式的变化，对I型胶原蛋白的变化进行了分子解释。数据分析表明，蛋白质糖基化引起的衰老效应对I型胶原的降解不同，导致衰老过程加速。

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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Biophotonics South America

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