Alkaline media‐sensitive nanocarrier based on carboxylated cyclodextrin for targeted delivery of anti‐colon drug

Abstract: The pH‐responsive nanoparticles are a promising drug‐carrier because they always showed sensitivity and specificity to the pH changes caused by the surrounding environment. Most of the therapeutic drugs are generally absorbed in the stomach and small intestine due to the pH‐responsive nanoparticles always release the cargos at acidic media, making them difficult to reach the lower part of the large intestine, as well as inhibiting the therapeutic effects. Herein, an alkaline media‐sensitive supramolecular nano… Show more

“…18 At the same time, we also prepared a pH stimulus-responsive nanocarrier based on carboxylated cyclodextrin for loading the anti-colon cancer drug CSL. 19 While single stimulus-responsive supramolecular nanocarriers have been the subject of widespread research, the internal environment of tumor tissues and cells is complex, and a single stimulus-responsive mechanism may not suffice for targeted and controlled drug delivery. 20 Consequently, there is a need for the construction of multiple stimuli-responsive supramolecular nanocarriers that exhibit synergistic response effects.…”

A temperature-sensitive HA-anchoring supramolecular nanocarrier for targeted delivery of the anti-liver cancer drug doxorubicin

“…18 At the same time, we also prepared a pH stimulus-responsive nanocarrier based on carboxylated cyclodextrin for loading the anti-colon cancer drug CSL. 19 While single stimulus-responsive supramolecular nanocarriers have been the subject of widespread research, the internal environment of tumor tissues and cells is complex, and a single stimulus-responsive mechanism may not suffice for targeted and controlled drug delivery. 20 Consequently, there is a need for the construction of multiple stimuli-responsive supramolecular nanocarriers that exhibit synergistic response effects.…”

A temperature-sensitive HA-anchoring supramolecular nanocarrier for targeted delivery of the anti-liver cancer drug doxorubicin

A Supramolecular Nanovehicle Featuring a pH/Enzyme Co‐Response for Targeted Delivery of the Antitumor Compound

Synthesis of acid-activated reversible conversion supramolecular nanoplatform: application in drug delivery and anti-tumor activity