Add to BibSonomyAbstract
This study investigates that the light source can be transmitted deeper for photodynamic treatment of deep locations using the biological correlations of Focused Ultrasound and tissue. we used the phenomenon that Focused Ultrasound induced changes in tissue structure. Ultrasound interacts with tissue through both thermal and non-thermal mechanisms and generates a variety of biological effects. We measured 1. Monte Carlo Simulation to measurement of the relationship between the constitutional deformation of the tissue and the transmittance of the light source 2. Measurement of the effect of the scattering coefficient. 3. Measurement of biological tissue by constitution modification with biological characteristics of ultrasound. a chest tissue phantom was sampled, and a system was developed with FUS and Laser. In conclusion, we could detect the possibility that the light source could penetrate deeper into the region of the tissue after the FUS was irradiated.
© 2019 SPIE/OSA
PDF ArticleMore Like This
Mikhail Kirillin, Maria Shakhova, Daria Kurakina, Aleksandr Khilov, Anna Orlova, Ekaterina Sergeeva, Alina Meller, Natalia Orlinskaya, and Ilya Turchin
11079_26 European Conference on Biomedical Optics (ECBO) 2019
Maximilian Aumiller, Adrian Rühm, Maximilian Eisel, Christian Freymüller, Herbert Stepp, André Liemert, Alwin Kienle, and Ronald Sroka
11079_25 European Conference on Biomedical Optics (ECBO) 2019
Gang Yao and Lihong V. Wang
SuF2 Biomedical Optical Spectroscopy and Diagnostics (BIOMED) 2000