Exploring the Bias: How Skin Colour Influences Oxygen Saturation Readings via Monte Carlo Simulations
View/ Open
Publication date
2024-08-01Creators
Kuppur Narayana Swamy, Suvvi
Liu, Chong
Correia, Ricardo
Hayes-Gill, Barrie
Morgan, Stephen
Metadata
Show full item recordDescription
The main of this study is to gain theoretical insights into the effect of skin tone on SpO2 - R curves by using a three-dimensional, four-layer finger tissue model. The purpose was to understand the the root cause of reported oxygen saturation overestimation in heavily pigmented skin types to devise solutions toward enabling equity in pulse oximeter design. A finger tissue model, containing the epidermis, dermis, two arteries and a bone was developed using a Monte Carlo based approach in the MCmatlab software tool. Two different skin tones were simulated - light and dark skin by adjusting the optical properties within the epidermal layer. Based on this SpO2 vs R curves were produced in various tissue configurations, including transmission and reflection mode using red and infrared wavelengths. Further to this, the influence of source-detector separation distances on both light and dark skin tissue models were investigated.
External URI
Subjects
- Pulse oximeters
- Biomedical engineering
- Monte Carlo method
- Human skin color
- Pulse oximeter, oxygen saturation, transmission-mode, occult hypoxemia, racial bias, melanin, skin colour, Monte Carlo
- Engineering::General engineering::Bioengineering, biomedical engineering & clinical engineering::Biosensors
- R Medicine::R Medicine (General)::R855 Medical technology. Biomedical engineering. Electronics
Divisions
- University of Nottingham, UK Campus::Faculty of Engineering
Research institutes and centres
- University of Nottingham, UK Campus
Deposit date
2024-07-09Corporate creators
- DrDonik Dominik
- ankrh Anders
Data type
Matlab output dataFunders
- Engineering & Physical Sciences Research Council
- Medical Research Council
Grant number
- EP/T517902/1
- MR/T025638/1
Collection dates
- November 2023 - April 2024
Data collection method
MATLABResource languages
- en
Copyright
- Suvvi Kuppur Narayana Swamy
- Stephen P Morgan