Potential urinary monitoring of the enhanced permeability and retention effect using MMP-2-responsive poly(ethylene glycol) derivatives

“…What's more, the radiation can penetrate more deeply along with minimal absorbance in skins, tissues, and hemoglobin. [44] To avoid killing normal tissues, targeting groups are commonly decorated to PB NMs to form a targeted drug delivery system. In order to distinguish breast cancer cells, Shang et al [45] conjugated folic acid (FA) to PBNPs packaged in poly(lactic-coglycolic acid) (PLGA) to obtain a core/shell model for drugloading.…”

“…Under the radiation of NIR light with the wavelength of 808 and 1024 nm, drugs could accumulate in tumor tissues through the enhanced permeability and retention effect (EPR). What's more, the radiation can penetrate more deeply along with minimal absorbance in skins, tissues, and hemoglobin [44] …”

Prussian Blue and Its Analogues: From Properties to Biological Applications

“…What's more, the radiation can penetrate more deeply along with minimal absorbance in skins, tissues, and hemoglobin. [44] To avoid killing normal tissues, targeting groups are commonly decorated to PB NMs to form a targeted drug delivery system. In order to distinguish breast cancer cells, Shang et al [45] conjugated folic acid (FA) to PBNPs packaged in poly(lactic-coglycolic acid) (PLGA) to obtain a core/shell model for drugloading.…”

“…Under the radiation of NIR light with the wavelength of 808 and 1024 nm, drugs could accumulate in tumor tissues through the enhanced permeability and retention effect (EPR). What's more, the radiation can penetrate more deeply along with minimal absorbance in skins, tissues, and hemoglobin [44] …”

Prussian Blue and Its Analogues: From Properties to Biological Applications

“…Various types of MMPs-responsive nano systems have been developed both for diagnostic and therapeutic purposes in cancer (Table 1). For instance, a promising tool to predict the enhanced permeability and retention (EPR) effect in cancer patients has been recently developed using MMP-2-responsive PEG-NPs [233]. The EPR effect describes the preferential accumulation of nanomedicines or macromolecular drugs in the tumor sites, as a result of leaky vascular structures and dysfunctional lymphatic drainage, compared to normal tissues [234].…”

“…The EPR effect describes the preferential accumulation of nanomedicines or macromolecular drugs in the tumor sites, as a result of leaky vascular structures and dysfunctional lymphatic drainage, compared to normal tissues [234]. MMP-2-responsive PEG-NPs have been conjugated with a fluorescent dye linked to a synthetic substrate that can be cleaved by MMP-2, which is overexpressed in the tumor ECM [233]. Upon tumor accumulation, the fluorescent dye is released from the PEG and excreted in the urine.…”

Nano-targeting vascular remodeling in cancer: Recent developments and future directions

“…For EPR-based passive tumor targeting, it is also vital to reduce the clearance by the reticuloendothelial system (RES). NPs modified with hydrophilic groups such as polyethylene glycol, 18,19 cyclodextrins, 20 and zwitterions 21 can significantly escape the phagocytosis of the mononuclear macrophage system. Our previous work has shown that modification of zwitterions such as 1,3-propane sulfonate (1,3-PS), 2-methacryloyloxyethyl phosphorylcholine, and carboxymethylacrylamide on the surface of PAMAM dendrimers can endow them with improved antifouling property to boost therapeutic gene delivery and tumor multimodality imaging, thereby promoting the efficacy of the tumor theranostic effect.…”

Phosphorus core–shell tecto dendrimers for enhanced tumor imaging: the rigidity of the backbone matters