Title :
Nonlinear fitting model for continuous monitoring of mean blood oxygen saturation
Author :
Huong, Audrey K. C. ; Koh, C.L. ; Ngu, Xavier T. I.
Author_Institution :
Dept. of Electron. Eng., UTHM, Batu Pahat, Malaysia
Abstract :
We aim to demonstrate the use of Extended Modified Lambert Beer model (EMLB) to detect changes in one´s mean blood oxygen saturation (SmO2) with different experimental settings. We performed spectroscopy measurement on fingertip and back of the hand of four healthy adults at rest condition, and on the same fingertip after the heat application. The attenuation values given from EMLB are fitted to the experimental reflectance data in the estimation of SmO2. The obtained results revealed mean SmO2 of 92.6±3.7%, 39.8±6.85% and 102±3.1%, respectively, estimated for measurement on the fingertip and the back of the hand of volunteers at rest, and the heated fingertips. This work concluded that Extended Modified Lambert Beer model can potentially be used to monitor skin oxygenation.
Keywords :
biochemistry; biothermics; heating; numerical analysis; oximetry; patient monitoring; physiological models; skin; spectrochemical analysis; EMLB; O2; attenuation value fitting; continuous monitoring; experimental reflectance data; experimental setting variation; extended modified Lambert Beer model; fingertip heating; fingertip spectroscopy measurement; hand back spectroscopy measurement; mean SmO2 estimation; mean blood oxygen saturation change detection; mean blood oxygen saturation monitoring; nonlinear fitting model; skin oxygenation monitoring; Attenuation; Blood; Fitting; Heating; Mathematical model; Reflectivity; Skin; Extended Modified Lambert Beer model; Mean blood oxygen saturation; skin oxygenation; spectroscopy;
Conference_Titel :
Computational Science and Technology (ICCST), 2014 International Conference on
DOI :
10.1109/ICCST.2014.7045195
