A1 Refereed original research article in a scientific journal
Investigating the impact of contact pressure on photoplethysmograms
Authors: Sirkiä Jukka-Pekka, Panula Tuukka, Kaisti Matti
Publisher: Elsevier
Publication year: 2024
Journal: Biomedical Engineering Advances
Journal name in source: Biomedical Engineering Advances
Article number: 100123
Volume: 7
ISSN: 2667-0992
eISSN: 2667-0992
DOI: https://doi.org/10.1016/j.bea.2024.100123
Web address : https://doi.org/10.1016/j.bea.2024.100123
Self-archived copy’s web address: https://research.utu.fi/converis/portal/detail/Publication/387734483
Photoplethysmography (PPG) sensors are widely used to measure a variety of physiological parameters, from heart rate to clinically important peripheral oxygen saturation (SpO2). The ease of obtaining a PPG signal simply by placing the sensor on a body site with even remotely sufficient vasculature (typically the wrist, finger, earlobe, or temple) can easily lead to overlooking the aspect of appropriate sensor contact pressure (Pc). We sought to investigate the effects of Pc from the perspective of: (i) SpO2, (ii) pulse arrival time (PAT), and (iii) PPG features. Consequently, we developed a finger cuff device to measure multispectral (green, red, and infrared) PPG signals at different Pc levels. The SpO2 values were found to increase, driven by the infrared component, above the theoretical maximum of 100% slightly after the level of the mean arterial pressure (MAP). The maximum variation due to Pc was approximately 1.9 percentage points. PAT values calculated using the waveform feet of the red and infrared channels were the most robust. PPG features were also sensitive to varying sensor Pc levels, with each feature showing a rather unique response. However, in general, a Pc between 20–30 mmHg (a slight Pc) and the level of diastolic blood pressure is likely to produce the best results on the features. Overall, the results showed that sensor Pc is a source of inaccuracy in PPG analysis and therefore should be given more consideration in device designs.
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