Title:Role of Nanomedicine for Targeted Drug Delivery in Livestock: Future
Prospective
Volume: 12
Author(s): Neeti Hooda, Aarti Ahlawat, Puja Kumari, Sabir Alam and Jamilur R. Ansari*
Affiliation:
- Functional Packaging Materials Lab, Department of Packaging, School of Science and Technology, Yonsei University, 1 Yonseidae-gil, Wonju-si,
Gangwon-do, 26493, Republic of Korea
Keywords:
Nanomedicine, Drug delivery, Clinical efficacy, Quantum Dots, Magnetic Nanoparticles.
Abstract: Nanotechnology has advanced significantly in recent years and is currently used in a wide
range of sectors. Only a handful of the many diverse issues covered by nanotechnology include nanoscale gadgets, nanomaterials, nanoparticles, and nanomedicines. Its performance in treating a range
of grave conditions, such as cancer, early detection of infections, analysis, bio-imaging, and bio sensing, suggests that it is highly advanced. Nanoscale materials have been employed for medicine delivery, pharmaceutics, and a range of diagnostic techniques due to their various biochemical and physical
features. The use of nanoparticles that are based on nanotechnology can significantly improve the drug
delivery mechanism. It is believed that nanoparticles capacity to improve the stability and solubility
of drugs and shield them from impulsive inactivation during drug transfer makes it possible for them
to capture, encapsulate, or bond with the molecules. The use of nanomedicine or nanoparticle-based
tactics to combat viruses has emerged as a potentially life-saving tactic. These approaches have the
power to protect both humans and animals against viruses. In order to inactivate a virus, nanoparticles
have the unique capacity to connect with the virus epitope. Many nanocarriers have the potential to
replace current drug delivery methods with focused drug delivery. Small dosages, low toxicity, and
targeted flow of drug release at the infected location are all characteristics of nanocarriers or nanomedicine. Due to their distinct physicochemical and biological features, nanomaterial-based drug delivery systems (NBDDS) are frequently employed to enhance the safety and therapeutic efficacy of
encapsulated pharmaceuticals. The program’s objective can be supported by the applications that have
so far been developed. This idea is therefore essential and sophisticated for the development of civilization. Our research will therefore concentrate on how human use of nanomedicines has changed
through time in many domains.
