What is nanotechnological medicine?
Nanotechnological medicine is an area of medicine in which nanotechnology is used. This technology has a number of potential applications that make it an area of immense interest among some medical scientists who believe it could revolutionize medicine and medical treatment. Since 2009, a large part of the work has been found in nanotechnology, research level, with very few products and procedures available to the general public, but the possibilities were quite clear and were constantly expanded and explored. It includes the development of extremely small particles, along with devices and machines that work at this small level, such as nanobots, robots who are potentially small enough to get inside the human cells. Nanotechnology is already used in fields such as electronics where nanotecha can be used very small processors and the same technology can be applied to the human body in illness and health. One way in which nanotechnology medicine can be applied, for exampleSome, with Nanobots manipulating the repair of damaged cells that could not be replaced by other means. Cell repair could potentially restore function in the nervous system and other areas of the body after damage, which is not currently available.
Other applications for nanotechnological medicine are in delivery of medicines. Nanoparticles can supply drugs quickly and efficiently to the correct area of the body and can be developed to focus on specific areas. For example, cancer cell nanoparticles could be used to supply chemotherapy doses that do not surround tissue, reduce side effects and other risks to the patient. Similarly, they could be used to supply controlled heat and cooler, minimizing damage to neighboring tissue.
In diagnostic and medical imaging fields, there are also potential applications. Nanotechnological medicine is attractive because it canE be precisely targeted and developed for use in a very focused environment, unlike current methods that seem almost clumsy compared. The use of nanotechnological medicine can be able to generate more accurate medical imaging, except to the cellular level and reduce the exposure to harmful radiation, which is a common problem associated with imaging studies.