扩展波长漫反射光谱用于全面观察人体前臂皮肤的血液灌注和组织反应。

Extended-wavelength diffuse reflectance spectroscopy for a comprehensive view of blood perfusion and tissue response in human forearm skin.

机构信息

Lund University, Skane University Hospital, Department of Clinical Sciences Lund, Ophthalmology, Lund, Sweden.

Department of Physics, Lund University, Sweden.

出版信息

Microvasc Res. 2019 Jul;124:1-5. doi: 10.1016/j.mvr.2019.02.001. Epub 2019 Feb 2.

DOI:10.1016/j.mvr.2019.02.001

PMID:30721673

Abstract

BACKGROUND

The aim of this study was to investigate the possibility of using extended-wavelength diffuse reflectance spectroscopy (EW-DRS) to measure tissue response related to blood perfusion. The study was performed on a model that we have previously found to be useful for studying techniques for perfusion monitoring following the injection of epinephrine in a local anesthetic in the human forearm.

METHODS

Nine healthy subjects were included in the study. Spectroscopy was performed with an EW-DRS system using a combination of two spectrometers to resolve light in the visible (350 nm to 1100 nm) and the near-infrared regions (900 nm to 1700 nm). The change in signal upon the injection of lidocaine (20 mg/ml) + epinephrine (12.5 μg/ml) (LIDO +EPI), compared to a control injection with saline (9 mg/ml), was investigated.

RESULTS

Injection of lidocaine + epinephrine (12.5 μg/ml) caused a change in the EW-DRS signal in the wavelength intervals 510 to 610 nm, known to change upon deoxygenation of hemoglobin. When examining the full wavelength range (450 to 1550 nm) a decrease in reflectance upon LIDO +EPI injection was observed, suggesting that the broader spectrum provides more detailed information on the tissue response. The time to stable hypoperfusion was found to be 2.6 min.

CONCLUSIONS

EW-DRS appears to be a promising technique for monitoring perfusion, and could provide a useful tool in plastic and reconstructive surgery. The broad spectrum provides detailed information on the molecular changes taking place in the tissue. However, the technique must be thoroughly validated before it can be implemented in clinical practice.

摘要

背景

本研究旨在探讨使用扩展波长漫反射光谱（EW-DRS）测量与血液灌注相关的组织反应的可能性。该研究是在我们之前发现的一种模型上进行的，该模型对于研究在人体前臂局部麻醉中注射肾上腺素后监测灌注技术非常有用。

方法

本研究纳入了 9 名健康受试者。使用 EW-DRS 系统进行光谱学检测，该系统采用两个光谱仪的组合来解析可见（350nm 至 1100nm）和近红外（900nm 至 1700nm）区域的光。研究了注射利多卡因（20mg/ml）+肾上腺素（12.5μg/ml）（LIDO+EPI）与生理盐水（9mg/ml）对照注射相比信号的变化。

结果

注射利多卡因+肾上腺素（12.5μg/ml）导致在已知血红蛋白去氧时会发生变化的波长间隔 510 至 610nm 处的 EW-DRS 信号发生变化。当检查全波长范围（450 至 1550nm）时，观察到 LIDO+EPI 注射后反射率下降，表明更广泛的光谱提供了关于组织反应的更详细信息。发现稳定低灌注的时间为 2.6 分钟。

结论

EW-DRS 似乎是一种很有前途的监测灌注技术，可能为整形和重建外科提供有用的工具。该广泛的光谱提供了关于组织中发生的分子变化的详细信息。然而，在将该技术应用于临床实践之前，必须对其进行彻底验证。

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扩展波长漫反射光谱用于全面观察人体前臂皮肤的血液灌注和组织反应。

Extended-wavelength diffuse reflectance spectroscopy for a comprehensive view of blood perfusion and tissue response in human forearm skin.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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