多层浑浊介质中近红外光谱研究光子飞行时间分布的分析灵敏度因子。https://pubmed.ncbi.nlm.nih.gov/39845728/ 。

Analytical sensitivity factors from distributions of time of flight of photons for near-infrared spectroscopy studies in multilayered turbid media.https://pubmed.ncbi.nlm.nih.gov/39845728/.

作者信息

García Héctor A, Vera Demián A, Carbone Nicolás A, Waks-Serra María V, Pomarico Juan A

机构信息

University of Wisconsin-Madison, School of Medicine and Public Health, Department of Medical Physics, Madison, Wisconsin, United States.

CIFICEN (UNCPBA - CICPBA - CONICET), Tandil, Argentina.

出版信息

J Biomed Opt. 2025 Jan;30(1):015002. doi: 10.1117/1.JBO.30.1.015002. Epub 2025 Jan 22.

DOI:10.1117/1.JBO.30.1.015002

PMID:39845728

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11753179/

Abstract

SIGNIFICANCE

In the last years, time-resolved near-infrared spectroscopy (TD-NIRS) has gained increasing interest as a tool for studying tissue spectroscopy with commercial devices. Although it provides much more information than its continuous wave counterpart, accurate models interpreting the measured raw data in real time are still lacking.

AIM

We introduce an analytical model that can be integrated and used in TD-NIRS data processing software and toolkits in real time. This is based on the so-called sensitivity factors (SFs) of the distributions of time of flight (DTOFs) of photons measured in optically turbid and semi-infinite multilayered media, such as the human head.

APPROACH

We derived analytical expressions for the SFs that link changes in the absorption coefficient of each layer to changes in the statistical moments of DTOFs acquired in a reflectance configuration. This was later validated with results from Monte Carlo (MC) simulations, which stand as the gold standard in terms of photon migration in biological tissue. Next, we designed a couple of simulated experiments depicting how the analytical SFs can be used to retrieve absorption changes in the particular case of a five-layered medium.

RESULTS

Comparison between theory and simulations in 2-, 5-, and 10-layered media showed very good agreement (in most cases with weighted mean absolute percentage errors below 10%). Moreover, our derivations could be run in a few milliseconds (except for the extreme case of the variance SF in the 10-layered medium), which means a speedup of up to 10,000× with respect to MC simulations, with a much better spatial resolution and without their typically associated stochastic noise.

CONCLUSIONS

In summary, our method achieves performances similar to those given by MC simulations, but orders of magnitude faster, which makes it very suitable for its implementation in real-time applications.

摘要

意义

在过去几年中，时间分辨近红外光谱技术（TD-NIRS）作为一种使用商业设备研究组织光谱的工具，越来越受到关注。尽管它比连续波近红外光谱技术能提供更多信息，但仍缺乏能够实时解释测量原始数据的精确模型。

目的

我们引入一种分析模型，该模型可集成并实时用于TD-NIRS数据处理软件和工具包中。此模型基于在光学浑浊和半无限多层介质（如人头）中测量的光子飞行时间（DTOF）分布的所谓灵敏度因子（SF）。

方法

我们推导了灵敏度因子的解析表达式，这些表达式将每层吸收系数的变化与反射配置中获取的DTOF统计矩的变化联系起来。随后，我们用蒙特卡罗（MC）模拟结果对其进行了验证，在生物组织中的光子迁移方面，MC模拟是金标准。接下来，我们设计了几个模拟实验，描述了在五层介质的特定情况下，如何使用解析灵敏度因子来检索吸收变化。

结果

在2层、5层和10层介质中理论与模拟的比较显示出非常好的一致性（在大多数情况下，加权平均绝对百分比误差低于10%）。此外，我们的推导可以在几毫秒内运行（除了10层介质中方差灵敏度因子的极端情况），这意味着相对于MC模拟，速度提高了多达10000倍，具有更好的空间分辨率，且没有其通常伴随的随机噪声。

结论

总之，我们的方法实现了与MC模拟相似的性能，但速度快了几个数量级，这使其非常适合在实时应用中实现。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f451/11753179/36f95ef0add0/JBO-030-015002-g001.jpg

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Analytical sensitivity factors from distributions of time of flight of photons for near-infrared spectroscopy studies in multilayered turbid media.https://pubmed.ncbi.nlm.nih.gov/39845728/.多层浑浊介质中近红外光谱研究光子飞行时间分布的分析灵敏度因子。https://pubmed.ncbi.nlm.nih.gov/39845728/ 。

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多层浑浊介质中近红外光谱研究光子飞行时间分布的分析灵敏度因子。https://pubmed.ncbi.nlm.nih.gov/39845728/ 。

Analytical sensitivity factors from distributions of time of flight of photons for near-infrared spectroscopy studies in multilayered turbid media.https://pubmed.ncbi.nlm.nih.gov/39845728/.

作者信息

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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