Pitfalls on sample preparation for ex vivo imaging of resected cancer tissue using enzyme-activatable fluorescent probes

Abstract: In vivo and ex vivo fluorescence imaging-assisted surgery can aid in determining the margins of tumors during surgical resection. While a variety of fluorescent probes have been proposed for this task, small molecule enzyme-activatable fluorescent probes are ideal for this application. They are quickly activated at tumor sites and result in bright signal with little background, resulting in high sensitivity. Testing in resected specimens, however, can be difficult. Enzymes are usually stable after freezing and… Show more

“…To this end, quite a few optical probes which could be activated specifically by β-Gal have been reported. [76][77][78][79][80][81][82][83][84][85] Probe 21-23 are exhibited in Figure 11 as the representatives to demonstrate the design rationale, working mechanism, and applications of β-Gal-activatable probes.…”

Most recent advances on enzyme‐activatable optical probes for bioimaging

“…To this end, quite a few optical probes which could be activated specifically by β-Gal have been reported. [76][77][78][79][80][81][82][83][84][85] Probe 21-23 are exhibited in Figure 11 as the representatives to demonstrate the design rationale, working mechanism, and applications of β-Gal-activatable probes.…”

Most recent advances on enzyme‐activatable optical probes for bioimaging

Recent advances in the development of fluorescent probes for γ‐glutamyltranspeptidase