Synthesis of CaCO3-Based Nanomedicine for Enhanced Sonodynamic Therapy via Amplification of Tumor Oxidative Stress

(Chem 6, 1–17; June 11, 2020) In the originally published version of this article, the confocal images of 4T1 cells from the PBS group in Figure 3C were unfortunately identical to those in the BSO group as a result of a copy-and-paste error during figure compilation. The corrected Figure 3 appears below, online, and in print. This correction does not affect the analysis or conclusions of the article, although the authors deeply apologize for any confusion the error may have caused.Figure 3. In Vitro Oxidative Stress Generation of [email protected]3-PEG (original)View Large Image Figure ViewerDownload Hi-res image Download (PPT) Synthesis of CaCO3-Based Nanomedicine for Enhanced Sonodynamic Therapy via Amplification of Tumor Oxidative StressDong et al.ChemMarch 20, 2020In BriefThe authors report a self-templated strategy to prepare pH-dissociable nanomedicine for effective cancer treatment via triple amplification of tumor oxidative stresses by the Ca2+-overloading-induced ROS generation, BSO-induced GSH depletion, and TCPP-mediated sonodynamic therapy. Full-Text PDF Open Archive