多频域空间频率成像：一种深度分辨光散射模型，用于分离皮肤浅层中的散射对比度。

Multi-frequency spatial frequency domain imaging: a depth-resolved optical scattering model to isolate scattering contrast in thin layers of skin.

机构信息

Linköping University, Department of Biomedical Engineering, Linköping, Sweden.

出版信息

J Biomed Opt. 2024 Apr;29(4):046003. doi: 10.1117/1.JBO.29.4.046003. Epub 2024 Apr 22.

DOI:10.1117/1.JBO.29.4.046003

PMID:38650893

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11033580/

Abstract

SIGNIFICANCE

Current methods for wound healing assessment rely on visual inspection, which gives qualitative information. Optical methods allow for quantitative non-invasive measurements of optical properties relevant to wound healing.

AIM

Spatial frequency domain imaging (SFDI) measures the absorption and reduced scattering coefficients of tissue. Typically, SFDI assumes homogeneous tissue; however, layered structures are present in skin. We evaluate a multi-frequency approach to process SFDI data that estimates depth-specific scattering over differing penetration depths.

APPROACH

Multi-layer phantoms were manufactured to mimic wound healing scattering contrast in depth. An SFDI device imaged these phantoms and data were processed according to our multi-frequency approach. The depth sensitive data were then compared with a two-layer scattering model based on light fluence.

RESULTS

The measured scattering from the phantoms changed with spatial frequency as our two-layer model predicted. The performance of two models solutions for SFDI was consistently better than the standard diffusion approximation.

CONCLUSIONS

We presented an approach to process SFDI data that returns depth-resolved scattering contrast. This method allows for the implementation of layered optical models that more accurately represent physiologic parameters in thin tissue structures as in wound healing.

摘要

意义

目前的伤口愈合评估方法依赖于视觉检查，只能提供定性信息。光学方法允许对与伤口愈合相关的光学性质进行定量的非侵入性测量。

目的

空间域成像（SFDI）测量组织的吸收和散射系数。通常，SFDI 假设组织是均匀的；然而，皮肤中存在分层结构。我们评估了一种多频方法来处理 SFDI 数据，该方法可以估计不同穿透深度下特定深度的散射。

方法

制造多层幻影以模拟伤口愈合深度的散射对比。SFDI 设备对这些幻影进行成像，并根据我们的多频方法对数据进行处理。然后将深度敏感数据与基于光通量的两层散射模型进行比较。

结果

正如我们的两层模型所预测的那样，从幻影中测量到的散射随空间频率而变化。两种 SFDI 模型解决方案的性能始终优于标准扩散近似值。

结论

我们提出了一种处理 SFDI 数据的方法，该方法可返回深度分辨的散射对比。这种方法允许实施分层光学模型，这些模型更准确地表示在薄组织结构（如伤口愈合）中生理参数。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1545/11033580/2fad5fc619c9/JBO-029-046003-g001.jpg

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多频域空间频率成像：一种深度分辨光散射模型，用于分离皮肤浅层中的散射对比度。

Multi-frequency spatial frequency domain imaging: a depth-resolved optical scattering model to isolate scattering contrast in thin layers of skin.

机构信息

出版信息

SIGNIFICANCE

AIM

APPROACH

RESULTS

CONCLUSIONS

意义

目的

方法

结果

结论

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