Pulsatile 3D-printed multilayer optical phantoms with microchannels for testing pulse oximeters

Derek Bashe, Michael Butler, Anmol Jarang, Quinlan McGrath, Aizitiaili Abulikemu Kashgari, Mohammed Shahriar Arefin, Chetan A. Patil, Christine M. O’Brien, Leonid Shmuylovich
Conference
Photonics West BiOS
Design and Quality for Biomedical Technologies XVII
March 13th, 2024
Oral
DOI
10.1117/12.3002150
Share
tweet

Abstract

Understanding pigmentation’s effect on pulse oximetry is critical amid evidence that pulse oximetry is less accurate for patients with pigmented skin. Optical phantoms can help validate oximeters, but commercial phantoms do not vary pigmentation. We develop a resin-based 3D printing method that generates mechanically flexible phantoms with tunable optical properties and <100 μm diameter channels. Using a reflectance-mode Maxim 86171 pulse oximeter, we evaluate how photoplethysmogram waveforms change as phantom pigmentation increases, and test an algorithm for estimating pigmentation from waveforms alone. 3D-printed phantoms can provide a platform for testing pulse oximeter performance across the spectrum of human pigmentation.

Presentation Video

If not loading, go to 10.1117/12.3002150 directly to view

Citation

Derek Bashe, Michael Butler, Anmol Jarang, Quinlan McGrath, Mohammed Shahriar Arefin, Chetan A. Patil, Christine M. O’Brien, and Leonid Shmuylovich, “Pulsatile 3D-printed multilayer optical phantoms with microchannels for testing pulse oximeters (Conference Presentation),” Proc. SPIE PC12833, Design and Quality for Biomedical Technologies XVII, PC128330B (13 March 2024); https://doi.org/10.1117/12.3002150