Near-Infrared Afterglow Luminescent Aggregation-Induced
Emission Dots with Ultrahigh Tumor-to-Liver Signal Ratio for Promoted
Image-Guided Cancer Surgery
posted on 2018-12-17, 15:34authored byXiang Ni, Xiaoyan Zhang, Xingchen Duan, Han-Liang Zheng, Xiao-Song Xue, Dan Ding
Afterglow imaging through the collection
of persistent luminescence
after the stopping of light excitation holds enormous promise for
advanced biomedical uses. However, efficient near-infrared (NIR)-emitting
afterglow luminescent materials and probes (particularly the organic
and polymeric ones) are still very limited, and their in-depth biomedical
applications such as precise image-guided cancer surgery are rarely
reported. Here, we design and synthesize a NIR afterglow luminescent
nanoparticle with aggregation-induced emission (AIE) characteristics
(named AGL AIE dots). It is demonstrated that the AGL AIE dots emit
rather-high NIR afterglow luminescence persisting over 10 days after
the stopping of a single excitation through a series of processes
occurring in the AIE dots, including singlet oxygen production by
AIE luminogens (AIEgens), Schaap’s dioxetane formation, chemiexcitation
by dioxetane decomposition, and energy transfer to NIR-emitting AIEgens.
The animal studies reveal that the AGL AIE dots have the innate property
of fast afterglow signal quenching in normal tissues, including the
liver, spleen, and kidney. After the intravenous injection of AGL
AIE dots into peritoneal carcinomatosis bearing mice, the tumor-to-liver
ratio of afterglow imaging is nearly 100-fold larger than that for
fluorescence imaging. The ultrahigh tumor-to-liver signal ratio, together
with low afterglow background noise, enables AGL AIE dots to give
excellent performance in precise image-guided cancer surgery.