Chemodynamic therapy kills cancer cells with reactive oxygen species generated by endogenous triggers in the tumor microenvironment.Although chemodynamic therapy is blossoming in recent years,their therapy process sti...Chemodynamic therapy kills cancer cells with reactive oxygen species generated by endogenous triggers in the tumor microenvironment.Although chemodynamic therapy is blossoming in recent years,their therapy process still faces a series of hampers.The unknown catalytic activity of chemodynamic therapy reagents may lead to unpredictable therapy effects,so it is necessary to reveal the therapeutic mechanism of chemodynamic therapy and develop self-monitoring probes.In this mini-review,we summarize and illustrate the most recent progress of chemodynamic therapy,focusing on the applications of magnetic imaging and optical imaging probe for monitoring cancer chemodynamic therapy.Furthermore,we also discuss the potential challenges and the further directions of this field.展开更多
基金supported by the National Natural Science Foundation of China(Nos.21804039 and 51872088)the Science and Technology Project of Hunan Province,China(No.2020RC3022)the Fundamental Research Funds for the Central Universities,China.
文摘Chemodynamic therapy kills cancer cells with reactive oxygen species generated by endogenous triggers in the tumor microenvironment.Although chemodynamic therapy is blossoming in recent years,their therapy process still faces a series of hampers.The unknown catalytic activity of chemodynamic therapy reagents may lead to unpredictable therapy effects,so it is necessary to reveal the therapeutic mechanism of chemodynamic therapy and develop self-monitoring probes.In this mini-review,we summarize and illustrate the most recent progress of chemodynamic therapy,focusing on the applications of magnetic imaging and optical imaging probe for monitoring cancer chemodynamic therapy.Furthermore,we also discuss the potential challenges and the further directions of this field.
