RESUMO
Stimulus-responsive transdermal drug delivery systems can achieve specific drug release and improve drug utilization. According to the different stimulation modes, these preparations can be divided into endogenous stimulus-responsive, exogenous stimulus-responsive and combined stimulus-responsive transdermal drug delivery systems. The endogenous stimulation- responsive transdermal drug delivery system can respond specifically to changes in temperature and pH of the lesion site through carrier materials, so as to deliver drugs to the target site. Exogenous stimulus-responsive transdermal drug delivery system can use light, heat, magnetic, electric and other external stimulation to make the carrier material phase change, so as to achieve drug delivery. The combined stimulus-responsive transdermal drug delivery system is a combination of two or more stimulus-responsive percutaneous drug delivery systems, such as temperature-pH dual-responsive drug delivery system. At present, the relevant studies of stimulus-responsive transdermal drug delivery systems are mostly in the experimental stage, and further evaluation of stability, toxicity and skin irritation is needed in the future to lay a theoretical foundation for clinical application.
RESUMO
Internal contamination of radionuclides in the event of nuclear emergencies can lead to serious harm to human health. The research and development of radionuclide chelating agents and the application of new technologies can reduce the internal damage caused by radionuclides. Compared with traditional preparations, the nano-preparations have the advantages of improving drug dissolution, targeting and positioning drug release, and easily passing through biofilm barrier. In recent years, many scholars have used different nano-preparation forms for different decorporation drugs, including nanoparticles, nano-liposomes, nano-emulsions, etc., to conduct related research in order to achieve better clinical application effects. Nanomaterials with excellent properties have the advantages of high efficiency, rapid adsorption and high biocompatibility, etc., and have been used more and more widely in radionuclide decorporation. In this paper, combined with the relevant literatures at home and abroad, the internal contamination of radionuclides is classified according to nuclide-deposited sites of tissues and organs, and the applications of related nanoformulations and nanomaterials in radionuclide decorporation are introduced in order to provide reference for further research.