Activatable fluorescent probes for atherosclerosis theranostics.

The onset of atherosclerosis (AS) is insidious, and early stage patients have atypical clinical symptoms. After being diagnosed in late stage, it is often prone to sudden and fatal cardiovascular events. Therefore, it is highly desirable to develop precise and efficient diagnosis and therapy strategies of AS.

Dual-/multi-organelle-targeted AIE probes associated with oxidative stress for biomedical applications.

monitoring of biological processes between different organelles upon oxidative stress is one of the most important research hotspots. Fluorescence imaging is especially suitable for biomedical applications due to its distinct advantages of high spatiotemporal resolution, high sensitivity, non-invasiveness, and monitoring capabilities. However, most fluorescent probes can only achieve light-up imaging of single organelles, thus the combined use of two or more probes is usually required for monitoring biological processes between organelles, which can suffer from tedious staining and washing procedures, increased cytotoxicity and poor photostability.

Photoactivatable aggregation-induced emission luminogens based on photodehydrogenation reactions for biomedical applications.

The development of photoactivatable aggregation-induced emission (AIE) probes is one of the hotspots for bioimaging and imaging-guided precise disease therapy due to the distinct advantages of high spatiotemporal resolution, precise spatiotemporal controllability, and noninvasiveness of light. To design and develop novel photoactivatable AIE probes, functional groups based on photodehydrogenation reaction mechanisms are combined with the AIE-active skeleton. Here, the recent progress in biomedical applications of photoactivatable AIE probes based on photocyclodehydrogenation and photo-oxidative dehydrogenation reactions are summarized briefly.