Nanotechnology, a field of science and technology that aims to control matter at the atomic, molecular, and macromolecular level, potentially has far-reaching and paradigm-shifting implications for biology, drug discovery, and medical technologies. The discipline has already yielded discoveries that have been used for drug delivery and diagnostic purposes, and nanotech applications coming to market will include more of the same, in addition to uses in preclinical assays and other assay technologies. Nanotechnology, however, has uses in many fields besides biomedical science. Governments have recognized the broad reach of nanotechnology, and they have poured large sums of money into nanotech R&D to ensure their future competitiveness. This investment has already yielded many discoveries in the field, and it is broadening opportunities for nanotechnology in drug discovery and research.
Business Implications
-- Nanotechnology is an emerging science that could have far-reaching and paradigm-shifting implications for biology, drug discovery, and medical technologies. Nanotechnologies for biological applications already in use include liposomal drug-delivery agents, transfect ion agents, and magnetic resonance imaging contrast agents. An important advantage of nanotechnology will be its ability to enable and improve upon other technologies, including RNA interference, gene delivery, and proteomics.
-- Multifunctional nano-particles that combine targeting, delivery, and imaging components will have important clinical potential but a complex regulatory path. We anticipate that the first and most extensive use of multifunctional nano-particles will be applications in the area of drug target and lead validation studies. These multifunctional particles and complex combination technologies will carry very complex intellectual property issues that will likely lead to the need for multiparty licensing.
-- Many governments have recognized the importance of harnessing nanotechnology to achieve industrial competitiveness and have invested heavily in funding nanotechnology research and innovation. In the absence of private and venture investment, various government initiatives have fostered the growth of numerous nanotechnology companies. These companies have a variety of business models, and many are focused on research tool development, in vivo imaging, and drug delivery.
Business Implications
-- Nanotechnology is an emerging science that could have far-reaching and paradigm-shifting implications for biology, drug discovery, and medical technologies. Nanotechnologies for biological applications already in use include liposomal drug-delivery agents, transfect ion agents, and magnetic resonance imaging contrast agents. An important advantage of nanotechnology will be its ability to enable and improve upon other technologies, including RNA interference, gene delivery, and proteomics.
-- Multifunctional nano-particles that combine targeting, delivery, and imaging components will have important clinical potential but a complex regulatory path. We anticipate that the first and most extensive use of multifunctional nano-particles will be applications in the area of drug target and lead validation studies. These multifunctional particles and complex combination technologies will carry very complex intellectual property issues that will likely lead to the need for multiparty licensing.
-- Many governments have recognized the importance of harnessing nanotechnology to achieve industrial competitiveness and have invested heavily in funding nanotechnology research and innovation. In the absence of private and venture investment, various government initiatives have fostered the growth of numerous nanotechnology companies. These companies have a variety of business models, and many are focused on research tool development, in vivo imaging, and drug delivery.
4 comments:
well, i dont think that nao-tech will be used in drugs , as its not yet practical on human beings, its tested on rats only, so it will take to much of time.
Nanotechnology refers to a field of applied science whose theme is the control of matter on an atomic and molecular scale. Generally nanotechnology deals with structures 100 nanometers or smaller, and involves developing materials or devices within that size.
Nanotechnology is a highly diverse and multidisciplinary field, ranging from novel extensions of conventional device physics, to completely new approaches based upon molecular self-assembly, to developing new materials with dimensions on the nanoscale, even to speculation on whether we can directly control matter on the atomic scale.
Good to here that, nanotechnology is useful in manufacturing the drugs as well... and hence very much. will this technology will impact the properties or quality of the drug or the medicine in any way?
It's really great to know that the application of the nanotechnology is also useful in basic or day today life.
Thanks for such an informative stuff.
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