Optical properties of brain tissues at the different stages of glioma development in rats: pilot study.
Elina A GeninaAlexey N BashkatovDaria K TuchinaPolina A DyachenkoNikita A NavolokinAlexander ShirokovAlexander KhorovodovAndrey TerskovMaria KlimovaAysel MamedovaInna BlokhinaIlana AgranovichEkaterina ZinchenkoOxana V Semyachkina-GlushkovskayaValery Victorovich TuchinPublished in: Biomedical optics express (2019)
In this paper, measurements of the optical properties (diffuse reflectance, total and collimated transmittance) of brain tissues in healthy rats and rats with C6-glioma were performed in the spectral range from 350 to 1800 nm. Using these measurements, characteristic tissue optical parameters, such as absorption coefficient, scattering coefficient, reduced scattering coefficient, and scattering anisotropy factor were reconstructed. It was obtained that the 10-day development of glioma led to increase of absorption coefficient, which was associated with the water content elevation in the tumor. However, further development of the tumor (formation of the necrotic core) led to decrease in the water content. The dependence of the scattering properties on the different stages of model glioma development was more complex. Light penetration depth into the healthy and tumor brain was evaluated.