Photodynamic and Sonodynamic Therapy of Diseases and Their Main Mechanisms
Development and study of nanostructured and molecular generators of reactive oxygen species (ROS) for photo- and sonodynamic therapy of tumors. Investigation of the photophysical properties of tetrapyrrole compounds and their use as generators of chemically active singlet oxygen. Experimental and theoretical studies on the influence of low-intensity ultrasound at a frequency of 20 kHz on the optical and catalytic properties of molecular and nanostructured stabilizers for ROS generation.
Development and study of nanostructured and molecular generators of reactive oxygen species (ROS) for photo- and sonodynamic therapy of tumors. Investigation of the photophysical properties of tetrapyrrole compounds and their use as generators of chemically active singlet oxygen. Experimental and theoretical studies on the influence of low-intensity ultrasound at a frequency of 20 kHz on the optical and catalytic properties of molecular and nanostructured stabilizers for ROS generation