A Critical Review on Nanoscience Advancement: In Treatment of Viral Infection

Abstract

Viral contaminations speak to a general medical issue and one of the main sources of worldwide mortality. A large portion of the antiviral medications have low permeability, low dissolvability and other related physical properties which make them less efficient for the antiviral treatment. To conquer these constraints, different nanomedicine stages have been planned. Nanomaterials offer special physico-chemical properties that have various advantages for medicate conveyance as perfect devices for viral treatment. This review focuses on the currently used medicines used in viral infection, presents a broad overview of the application of nanosized materials for the treatment of common viral infections and shed light on the potential of nanotechnology to provide more effective treatment for HIV, Herpes simplex virus, Influenza virus and Hepatitis C virus. The action of antiviral medications could be improved with nanomedicine formulations. As the physicochemical properties of nanocarriers can empower their capacity to target the specific sites. When it comes to structuring nanocarriers, size is the most important factor and the nanoparticles can permit the controlled delivery kinetics, enhanced bioavailability, altered pharmacokinetics, and less side effects. Nanocarriers that build them appealing candidates for antiviral drug such as Improves bioavailability of the encapsulated actives, controlled release, reduce the toxicity associated with the anti-viral drugs. One of the important physicochemical properties mainly size is the most important design factor for nanocarriers for anti-viral drug delivery to the specific sites. Nanobased drug delivery also leads to enhance the potential of currently approved antiviral drugs.
 Keywords: Nanotechnology, HIV, Hepatits virus, Influenza, HSV