In pharmacology and medicine, vectorization of drugs refers to ( intracellular) targeting with plastic, noble metal or silicon nanoparticles or liposomes to which pharmacologically active substances are reversibly bound or attached by adsorption. [1] [2]
CNRS researchers have devised a way to overcome the problem of multidrug resistance using polyalkyl cyanoacrylate (PACA) nanoparticles as " vectors". [3]
As a developing concept, drug nanocarriers are expected to play a major role in delivering multiple drugs to tumor tissues by overcoming semi-permeable membranes and biological barriers such as the blood–brain barrier. [4]
In pharmacology and medicine, vectorization of drugs refers to ( intracellular) targeting with plastic, noble metal or silicon nanoparticles or liposomes to which pharmacologically active substances are reversibly bound or attached by adsorption. [1] [2]
CNRS researchers have devised a way to overcome the problem of multidrug resistance using polyalkyl cyanoacrylate (PACA) nanoparticles as " vectors". [3]
As a developing concept, drug nanocarriers are expected to play a major role in delivering multiple drugs to tumor tissues by overcoming semi-permeable membranes and biological barriers such as the blood–brain barrier. [4]