A novel reactive oxygen species-responsive polymeric micelle for near-infrared light-triggered drug release in cancer cells

“…The second major function of ROS is to induce the structural change of carriers. With such an approach, Chu et al developed ICG-loaded, ROS-responsive polymeric micelles for NIR-triggered drug release. ICG was encapsulated into the micelles self-assembled from poly­(ethylene glycol)- b -poly­(2-(methylthio)­ethyl methacrylate) (PEG- b -PMTEMA).…”

“…The second major function of ROS is to induce the structural change of carriers. With such an approach, Chu et al 99 developed ICG-loaded, ROS-responsive polymeric micelles for ROS can also function to weaken the coordination interaction between different components. Li et al 101 designed an ROS-responsive vector composed of tellurium-containing BCP (PEG-PUTe-PEG) loaded with cisplatin (CDDP) and ICG.…”

Photoresponsive Drug/Gene Delivery Systems

“…The second major function of ROS is to induce the structural change of carriers. With such an approach, Chu et al developed ICG-loaded, ROS-responsive polymeric micelles for NIR-triggered drug release. ICG was encapsulated into the micelles self-assembled from poly­(ethylene glycol)- b -poly­(2-(methylthio)­ethyl methacrylate) (PEG- b -PMTEMA).…”

“…The second major function of ROS is to induce the structural change of carriers. With such an approach, Chu et al 99 developed ICG-loaded, ROS-responsive polymeric micelles for ROS can also function to weaken the coordination interaction between different components. Li et al 101 designed an ROS-responsive vector composed of tellurium-containing BCP (PEG-PUTe-PEG) loaded with cisplatin (CDDP) and ICG.…”

Photoresponsive Drug/Gene Delivery Systems

Recent progress in stimuli-responsive polymeric micelles for targeted delivery of functional nanoparticles

Photosensitive drug delivery systems for cancer therapy: Mechanisms and applications