论文信息 - Identifying Isolated Glioblastoma Tissues in Human Patients through Their Optical and Spectral Properties

Identifying Isolated Glioblastoma Tissues in Human Patients through Their Optical and Spectral Properties

Survival rates and health-related quality of life of adult patients suffering from glioblastoma depend significantly on the extent (no residual tumor tissue) and precision (no collateral damage) of the surgical resection. Assistance in defining the borders of the infiltrating component of the glioblastoma would be valuable to improve outcomes. A tissue can be defined by its optical properties : absorption, scattering, intensity of fluorescence, that will give a unique signature. In this work we look at the absorption and scattering coefficients of glioblastoma and control tissues from adult patients using an integrating sphere, spectral measurements were also took on the samples using a fiber endoscope. The preliminary results show the potential of using endogenous fluorescence for intraoperative identification of residual glioblastoma tissue in the wall of the surgical cavity of resection.

[1] M Zanello,et al. Spectral and fluorescence lifetime endoscopic system using a double-clad photonic crystal fiber. , 2016, Optics letters.

[2] B. Devaux,et al. Multimodal optical analysis of meningioma and comparison with histopathology , 2017, Journal of biophotonics.

[3] P. Marquet,et al. In vivo local determination of tissue optical properties: applications to human brain. , 1999, Applied optics.

[4] A. Welch,et al. Determining the optical properties of turbid mediaby using the adding-doubling method. , 1993, Applied optics.

[5] P. Varlet,et al. Optical properties, spectral, and lifetime measurements of central nervous system tumors in humans , 2017, Scientific Reports.

[6] M Zanello,et al. Spectral and lifetime domain measurements of rat brain tumors. , 2015, Biomedical optics express.

[7] A. Kudlinski,et al. Characterization of fiber ultrashort pulse delivery for nonlinear endomicroscopy. , 2016, Optics express.

[8] B. Devaux,et al. Multimodal optical analysis discriminates freshly extracted human sample of gliomas, metastases and meningiomas from their appropriate controls , 2017, Scientific Reports.