Fiche publication
Date publication
janvier 2014
Auteurs
Membres identifiés du Cancéropôle Est :
Dr BLONDEL Walter
Tous les auteurs :
Kholodtsova MN, Grachev PV, Savelieva TA, Kalyagina NA, Blondel W, Loschenov VB
Résumé
Appropriate analysis of biological tissue deep regions is important for tumor targeting. This paper is concentrated on photons' paths analysis in such biotissue as brain, because optical probing depth of fluorescent and excitation radiation differs. A method for photon track reconstruction was developed. Images were captured focusing on the transparent wall close and parallel to the source fibres, placed in brain tissue phantoms. The images were processed to reconstruct the photons most probable paths between two fibres. Results were compared with Monte Carlo simulations and diffusion approximation of the radiative transfer equation. It was shown that the excitation radiation optical probing depth is twice more than for the fluorescent photons. The way of fluorescent radiation spreading was discussed. Because of fluorescent and excitation radiation spreads in different ways, and the effective anisotropy factor, g(eff), was proposed for fluorescent radiation. For the brain tissue phantoms it were found to be 0.62 +/- 0.05 and 0.66 +/- 0.05 for the irradiation wavelengths 532 nm and 632.8 nm, respectively. These calculations give more accurate information about the tumor location in biotissue. Reconstruction of photon paths allows fluorescent and excitation probing depths determination. The g(eff) can be used as simplified parameter for calculations of fluorescence probing depth.
Référence
Int J Photoenergy. 2014;:517510.