探讨偏见：通过蒙特卡罗模拟研究皮肤颜色如何影响血氧饱和度读数。

Exploring the bias: how skin color influences oxygen saturation readings via Monte Carlo simulations.

机构信息

University of Nottingham, Optics and Photonics Research Group and Centre for Healthcare Technologies, Nottingham, United Kingdom.

出版信息

J Biomed Opt. 2024 Jun;29(Suppl 3):S33308. doi: 10.1117/1.JBO.29.S3.S33308. Epub 2024 Aug 29.

DOI:10.1117/1.JBO.29.S3.S33308

PMID:39211937

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11358849/

Abstract

SIGNIFICANCE

Our goal is to understand the root cause of reported oxygen saturation ( ) overestimation in heavily pigmented skin types to devise solutions toward enabling equity in pulse oximeter designs.

AIM

We aim to gain theoretical insights into the effect of skin tone on curves using a three-dimensional, four-layer tissue model representing a finger.

APPROACH

A finger tissue model, comprising the epidermis, dermis, two arteries, and a bone, was developed using a Monte Carlo-based approach in the MCmatlab software. Two skin tones-light and dark-were simulated by adjusting the absorption and scattering properties within the epidermal layer. Following this, curves were generated in various tissue configurations, including transmission and reflection modes using red and infrared wavelengths. In addition, the influence of source-detector (SD) separation distances on both light and dark skin tissue models was studied.

RESULTS

In transmission mode, curves did not deviate with changes in skin tones because both pulsatile and non-pulsatile terms experienced equal attenuation at red and infrared wavelengths. However, in reflection mode, measurable variations in curves were evident. This was due to differential attenuation of the red components, which resulted in a lower perfusion index at the red wavelength in darker skin. As the SD separation increased, the effect of skin tone on curves in reflection mode became less pronounced, with the largest SD separation exhibiting effects similar to those observed in transmission mode.

CONCLUSIONS

Monte Carlo simulations have demonstrated that different light pathlengths within the tissue contribute to the overestimation of in people with darker skin in reflection mode pulse oximetry. Increasing the SD separation may mitigate the effect of skin tone on readings. These trends were not observed in transmission mode; however, further planned research using more complex models of the tissue is essential.

摘要

意义

我们的目标是了解报告中血氧饱和度（）在色素沉着严重的皮肤类型中过高的根本原因，从而设计出能够使脉搏血氧计设计公平的解决方案。

目的

我们旨在通过使用代表手指的三层四层组织模型，从理论上深入了解肤色对曲线的影响。

方法

使用基于蒙特卡罗的 MCmatlab 软件，开发了一个包括表皮、真皮、两条动脉和骨骼的指组织模型。通过调整表皮层内的吸收和散射特性来模拟两种肤色-浅色和深色。在此之后，在各种组织配置中生成曲线，包括使用红色和红外线波长的透射和反射模式。此外，还研究了源-探测器（SD）分离距离对浅色和深色皮肤组织模型的影响。

结果

在透射模式下，曲线不会随肤色变化而偏离，因为红色和红外线波长下的脉动和非脉动项都经历了相等的衰减。然而，在反射模式下，曲线存在可测量的变化。这是由于红色成分的差异衰减导致在较深肤色下红色波长的灌注指数较低。随着 SD 分离的增加，肤色对反射模式下曲线的影响变得不那么明显，最大的 SD 分离表现出与透射模式下观察到的相似的效果。

结论

蒙特卡罗模拟表明，组织内不同的光路长度导致反射模式脉搏血氧计中较深肤色的过高估计。增加 SD 分离可能会减轻肤色对读数的影响。这些趋势在透射模式中没有观察到；然而，使用更复杂的组织模型进行进一步的计划研究是必要的。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c9f5/11358849/291fd37340c6/JBO-029-S33308-g001.jpg

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探讨偏见：通过蒙特卡罗模拟研究皮肤颜色如何影响血氧饱和度读数。

Exploring the bias: how skin color influences oxygen saturation readings via Monte Carlo simulations.

机构信息

University of Nottingham, Optics and Photonics Research Group and Centre for Healthcare Technologies, Nottingham, United Kingdom.