Investigation of the link between the human skin relief and the dermal fibers network by coupling topographic analysis and LC-OCT imaging before and during folding tests

4open Pub Date : 2023-01-01 DOI:10.1051/fopen/2023005
M. Ayadh, Amaury Guillermin, M. Abellan, Sara Figueiredo, M. Pedrazzani, Emmanuel Cohen, A. Bigouret, H. Zahouani
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引用次数: 1

Abstract

Knowing the evolution of the skin’s response to mechanical solicitations and understanding its origin is important in medicine, surgery, and cosmetics. Studies performed in vitro and ex vivo show that links exist between the topographic skin properties and the collagen and elastin fibers network in the dermis. But, to our knowledge, no in vivo study shows this link. In this study we propose a combination of experimental tests to demonstrate the link between the topographic skin properties and the fibers network in the dermis in vivo. The first method consists in analyzing the skin relief images. The second method uses a recently developed imaging technique of human skin in vivo with a high spatial resolution: Line-field Confocal Optical Coherence Tomography (LC-OCT). This technology provides two types of images modalities: vertical and horizontal section images. The skin relief images and its internal layers are carried out for the skin at rest and during a folding test. The latter is performed using a folding system developed in this study. From these images, we calculate the density of the skin lines printed on the skin surface and their orientations. Thanks to the two modalities of LC-OCT, we obtain the full 3D image of the skin volume. From these images we extract the fibers density and their orientation in the plans parallel and perpendicular to the outer skin surface. The study is carried out on 42 volunteers aged from 20 to 55 years-old. Skin relief analysis and LC-OCT images are performed on the skin of the forearm and thigh. The results show similar distributions of the skin lines on the surface and of its fibers in the volume. We could observe a correlation between the skin lines at the surface and the structure in depth of its layers in the volume (0.40 < rSpearman < 0.73).
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在折叠试验前和折叠过程中,结合地形分析和LC-OCT成像研究人体皮肤松弛与真皮纤维网络之间的联系
了解皮肤对机械刺激反应的演变及其起源在医学、外科和化妆品领域都很重要。体外和离体研究表明,皮肤的地形特性与真皮层中的胶原蛋白和弹性蛋白纤维网络之间存在联系。但是,据我们所知,没有活体研究表明这种联系。在这项研究中,我们提出了一种实验测试的组合来证明皮肤的地形特性和真皮纤维网络之间的联系。第一种方法是对皮肤浮雕图像进行分析。第二种方法使用了最近开发的具有高空间分辨率的人体皮肤体内成像技术:线场共聚焦光学相干断层扫描(LC-OCT)。该技术提供了两种类型的图像模式:垂直和水平切片图像。在静止和折叠试验期间,对皮肤进行皮肤浮雕图像及其内层。后者是使用本研究中开发的折叠系统进行的。从这些图像中,我们计算在皮肤表面上打印的皮肤线的密度及其方向。由于LC-OCT的两种模式,我们获得了皮肤体积的完整3D图像。从这些图像中,我们提取纤维密度及其在平行和垂直于皮肤表面的平面上的方向。这项研究对42名年龄在20岁到55岁之间的志愿者进行了调查。前臂和大腿皮肤进行皮肤松弛分析和LC-OCT图像。结果表明,皮肤线在表面的分布与纤维在体积中的分布相似。我们可以观察到表面的皮肤线条与体积中其层深结构之间的相关性(0.40 < rSpearman < 0.73)。
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