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Accuracy of homogeneous models for photon diffusion in estimating neonatal cerebral hemodynamics by TD-NIRS

Caterina Amendola, Lorenzo Spinelli, Davide Contini, Agnese De Carli, Cesare Martinelli, Monica Fumagalli, Alessandro Torricelli

2021Biomedical Optics Express11 citationsDOIOpen Access PDF

Abstract

We assessed the accuracy of homogenous (semi-infinite, spherical) photon diffusion models in estimating absolute hemodynamic parameters of the neonatal brain in realistic scenarios (ischemia, hyperoxygenation, and hypoventilation) from 1.5 cm interfiber distance TD NIRS measurements. Time-point-spread-functions in 29- and 44-weeks postmenstrual age head meshes were simulated by the Monte Carlo method, convoluted with a real instrument response function, and then fitted with photon diffusion models. The results show good accuracy in retrieving brain oxygen saturation, and severe underestimation of total cerebral hemoglobin, suggesting the need for more complex models of analysis or of larger interfiber distances to precisely monitor all hemodynamic parameters.

Topics & Concepts

HemodynamicsPhotonPhoton diffusionMonte Carlo methodDiffusionMathematicsPhysicsMedicineCardiologyOpticsStatisticsThermodynamicsLight sourceOptical Imaging and Spectroscopy TechniquesTraumatic Brain Injury and Neurovascular DisturbancesNon-Invasive Vital Sign Monitoring
Accuracy of homogeneous models for photon diffusion in estimating neonatal cerebral hemodynamics by TD-NIRS | Litcius