Novel targeted pH-responsive drug delivery systems based on PEGMA-modified bimetallic Prussian blue analogs for breast cancer chemotherapy

Abstract: Core–shell structured bimetallic PBA@PEGMA@AS1411-based DOX loading and pH-responsive controlled release systems for breast cancer chemotherapy.

“…Chen et al developed two species of prussian blue based-nanoparticles (PBNPs) having a metal–organic framework using cobalt (cobalt-iron) and copper (copper-iron) for the delivery of doxorubicin [ 110 ]. The cuboid NPs were then modified with polyethylene glycol methacylate (PEGMA) followed by attachment of the aptamer AS1411.…”

Advanced cancer targeting using aptamer functionalized nanocarriers for site-specific cargo delivery

“…Chen et al developed two species of prussian blue based-nanoparticles (PBNPs) having a metal–organic framework using cobalt (cobalt-iron) and copper (copper-iron) for the delivery of doxorubicin [ 110 ]. The cuboid NPs were then modified with polyethylene glycol methacylate (PEGMA) followed by attachment of the aptamer AS1411.…”

Advanced cancer targeting using aptamer functionalized nanocarriers for site-specific cargo delivery

“…Cancer is one of the major causes of death globally. The most common type of cancer in women is breast cancer [ 1 ]. According to the 2020 annual report, 55.9 % of women are diagnosed with breast cancer, over the last 25 years, global trends in breast cancer incidence and mortality of 12.8 % indicate a remarkable rise worldwide [ 2 , 3 ].…”

Platinum nanoparticles-embedded single-walled carbon nanotubes as a new carrier for curcumin delivery and investigating its anticancer effect on cell line 4T1

Catechol determination based on two dimensional SnSe nanosheets modified glassy carbon electrode with enhanced sensitivity