Time-resolved and steady-state fluorescence spectroscopy for the assessment of skin photoaging process

Biophotonics South America Pub Date : 2015-06-19 DOI:10.1117/12.2180975

Camila de Paula D´Almeida, C. Campos, Marcelo Saito Nogueira, S. Pratavieira, C. Kurachi

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引用次数: 23

Abstract

pathology. The optical properties of these intrinsic fluorophores respond to the microenvironment and the metabolic status, thus making fluorescence spectroscopy a valuable tool to study the conditions of biological tissues. The purpose of this study is to investigate the hairless mice skin metabolic changes during the photoaging process through lifetime and fluorescence measurements targeting NADH and FAD. Two lasers centered at 378 nm and 445 nm, respectively, perform excitation of NADH and FAD. The fluorescence acquisition is carried out at mice dorsal and ventral regions throughout the photoaging protocol and aging process. Differences in fluorescence and lifetime data between young and photoaged mice measurements were observed. The endogenous fluorescence spectrum of photoaged dorsal skin showed an increase compared to young and aged skin. Lifetime of bound NADH and free FAD presented an increase in the first week that continued until the end of the protocol. Aging process is being investigated to complement the information obtained from fluorescence data and lifetime of photoaging process.

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用于评估皮肤光老化过程的时间分辨和稳态荧光光谱

病理这些固有荧光团的光学性质响应微环境和代谢状态，从而使荧光光谱成为研究生物组织状况的有价值的工具。本研究通过对脱毛小鼠光老化过程中NADH和FAD的寿命和荧光测量，探讨脱毛小鼠皮肤代谢的变化。以378 nm和445 nm为中心的两个激光器分别进行NADH和FAD的激发。在整个光老化过程和衰老过程中，在小鼠的背侧和腹侧区域进行荧光采集。观察了年轻小鼠和光老龄小鼠在荧光和寿命数据上的差异。光老化背侧皮肤的内源性荧光光谱较年轻和衰老皮肤有所增加。结合NADH和游离FAD的寿命在第一周出现增加，并持续到方案结束。老化过程的研究是为了补充从荧光数据和光老化过程的寿命得到的信息。

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Biophotonics South America

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