Litcius/Paper detail

Non-invasive optical monitoring of human lungs: Monte Carlo modeling of photon migration in Visible Chinese Human and an experimental test on a human

Jianghui Guo, shuo meng, Hengjie Su, Bowen Zhang, Ting Li

2022Biomedical Optics Express16 citationsDOIOpen Access PDF

Abstract

The human lung was quantified and visualized by photon transport in this paper. A Monte Carlo (MC) simulation of voxelized media was used with the visible Chinese human (VCH). This study theoretically explored the feasibility of non-invasive optical detection of pulmonary hemodynamics, and investigated the optimal location of the light source in the lung photon migration and optimized the source-detector distance. The light fluence intensity showed that the photon penetration depth was 6-8.4 mm in the human lung. The optimal distance from the light source to the detector was 2.7-2.9 cm, but the optimal distance of the superior lobe of right lung was 3.3-3.5 cm. We then conducted experiments on diffuse light reflectance using NIRS on 14 volunteers. These measurements agree well with the simulation results. All the results demonstrated the great potential of non-invasive monitoring of pulmonary hemodynamics and contribute to the study of human lungs in the biomedical optics community.

Topics & Concepts

Monte Carlo methodPhotonOpticsPhoton countingComputer sciencePhysicsStatisticsMathematicsOptical Imaging and Spectroscopy TechniquesNon-Invasive Vital Sign MonitoringPhotoacoustic and Ultrasonic Imaging