Abstract

Background/purpose: The penetration depth of light in diffuse reflectance near‐infrared spectroscopy for measuring water content in skin is assessed both from theoretical and experimental points of view. Methods: The Monte Carlo simulation was implemented to investigate the dependencies of the light penetration depth on a source–detector distance. To compare with the simulation results, an in vivo experiment for water contents of skin was performed introducing two different optical fiber probes. Results: It is found that the minimum separation between a source and detector fibers influences largely the measurement depth. The larger separation leads to a deeper measurement depth at a particular wavelength. The measurement depth is also influenced fairly by the absorption coefficient of the tissue. The larger absorption coefficient results in a shallower measurement depth. Conclusion: The correlations between the water contents measured by the optical and capacitance techniques were discussed. The dependencies of the light penetration depth on the source‐detector geometry and wavelength are presented.