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Effect of adipose tissue thickness and tissue optical properties on the differential pathlength factor estimation for NIRS studies on human skeletal muscle

Ileana Pirovano, Simone Porcelli, Rebecca Re, Lorenzo Spinelli, Davide Contini, Mauro Marzorati, Alessandro Torricelli

2020Biomedical Optics Express29 citationsDOIOpen Access PDF

Abstract

We propose a quantitative and systematic investigation of the differential pathlength factor (DPF) behavior for skeletal muscles and its dependence on different factors, such as the subcutaneous adipose tissue thickness (ATT), the variations of the tissue absorption ( µ a ) and reduced scattering ( µ′ s ) coefficients, and the source-detector distance. A time domain (TD) NIRS simulation study is performed in a two-layer geometry mimicking a human skeletal muscle with an overlying adipose tissue layer. The DPF decreases when µ a increases, while it increases when µ′ s increases. Moreover, a positive correlation between DPF and ATT is found. These results are supported by an in-vivo TD NIRS study on vastus lateralis and biceps brachii muscles of eleven subjects at rest, showing a high inter-subject and inter-muscle variability.

Topics & Concepts

Adipose tissueBicepsSkeletal muscleSubcutaneous adipose tissueHuman muscleBiomedical engineeringMaterials scienceAnatomyChemistryMedicineInternal medicineOptical Imaging and Spectroscopy TechniquesNon-Invasive Vital Sign MonitoringInfrared Thermography in Medicine
Effect of adipose tissue thickness and tissue optical properties on the differential pathlength factor estimation for NIRS studies on human skeletal muscle | Litcius