Topic > Nanomedicine for the diagnosis and treatment of arthritis, cardiovascular diseases and Alzheimer's disease

IndexNanotechnology and Alzheimer's infectionApplications of nanomedicine in cardiovascular diseasesNanoparticles for the treatment of arthritisNanotechnology and Alzheimer's infectionAn infection characterized by progressive loss of memory and psychological fracture, due to an irreversible degeneration of neurons leading to memory loss is called Alzheimer's disease (AD). This infection currently affects over 30 million people on the planet, with a prediction of 60 million by 2050. Despite such a large number of people suffering from this disease, both research and treatment of AD are still being researched . plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get an Original Essay Shockingly so far, there is no solution for AD. Available drugs provide only symptomatic help, temporarily improving psychological capacity, but cannot demonstrate long-term movement of the confusional state. In an effort to produce drugs against AD, scientists have focused predominantly on the Aß protein. The reason is that two irregular, perceptible structures in the brains of AD patients – faint plaques and neurofibrillary tangles – naturally attach to A ß. Various treatment methods to excrete Aβ or use enzymatic devices to pulverize or degrade it, seemed promising in animals, however, they faced problems and even disappointments in human clinical preliminaries, due to the urgent need to provide stratagems in light of new drugs or on new substrates. -Atomic attentions to solve this medical problem. Although small changes occur in the brain some time before major signs of memory problems, experts are currently unable to identify this infection in the early stages. Nanotechnology-based analytical strategies could help future drugs target disease in its underlying stages, previously irreversible brain damage, or the onset of mental decay. In this sense, researchers are developing new techniques for early detection in this field. Nanotechnology can help answer these procedures in several ways. Furthermore, nanotechnology-based methods can increase brain productivity and energy by focusing and can complement in vivo imaging indicative of brain infections, for example, cerebral ischemia, stroke, brain tumors, and neuroirritation. Finally, a great commitment is expected for in vitro diagnostics through the creation of nano-biosensors with exceptional sensitivity in recognizing the early biomarkers that distinguish the subject predestined to advance towards AD. Applications of nano medicine in cardiovascular diseases The advantage of using a nanoscale specialization is the early diagnosis of disease and treatment of atherosclerosis and the decrease in restenosis rates following stent implantation. There are numerous advanced methods for determining cardiovascular infections as nanoparticle operators and experts in this field of solutions are starting to use nanomedicine to provide restoration specialists. An incredible achievement in this field is the nano-patterning and nano-structuring of stents, which allows these stents to connect with cells at nanoscale levels. This treatment method will allow the endothelium to cover the stent and will be an area of ​​future research into blocking coronary supply route infections. Nanoparticles for treatment.