Nanotherapeutics: An insight into healthcare and multi-dimensional applications in medical sector of the modern world.

In recent years nanotechnology has revolutionized the healthcare strategies and envisioned to have a tremendous impact to offer better health facilities. In this context, medical nanotechnology involves design, fabrication, regulation, and application of therapeutic drugs and devices having a size in nano-range (1-100 nm). Owing to the revolutionary implications in drug delivery and gene therapy, nanotherapeutics has gained increasing research interest in the current medical sector of the modern world. The areas which anticipate benefits from nano-based drug delivery systems are cancer, diabetes, infectious diseases, neurodegenerative diseases, blood disorders and orthopedic problems. The development of nanotherapeutics with multi-functionalities has considerable potential to fill the lacunae existing in the present therapeutic domain. Nanomedicines in the field of cancer management have enhanced permeability and retention of drugs thereby effectively targeting the affected tissues. Polymeric conjugates of asparaginase, polymeric micelles of paclitaxel have been recmended for various types of cancer treatment .The advancement of nano therapeutics and diagnostics can provide the improved effectiveness of the drug with less or no toxicity concerns. Similarly, diagnostic imaging is having potential future applications with newer imaging elements at nano level. The newly emerging field of nanorobotics can provide new directions in the field of healthcare. In this article, an attempt has been made to highlight the novel nanotherapeutic potentialities of polymeric nanoparticles, nanoemulsion, solid lipid nanoparticle, nanostructured lipid carriers, dendrimers, nanocapsules and nanosponges based approaches. The useful applications of these nano-medicines in the field of cancer, nutrition, and health have been discussed in details. Regulatory and safety concerns along with the commercial status of nanosystems have also been presented. In summary, a successful translation of emerging nanotherapeutics into commercial products may lead to an expansion of biomedical science. Towards the end of the review, future perspectives of this important field have been introduced briefly.

Virus-Host Interactions: New Insights and Advances in Drug Development Against Viral Pathogens.

BACKGROUND: Viruses are the most devastating pathogens of almost all life forms including humans and animals. Viruses can replicate very fast and may affect any metabolic and physiological function of the host cell. Therefore, it has been a challenge to develop a universal and common treatment against viral pathogens, in contrast to bacterial pathogens. Virus-host interaction is a complex phenomenon and often is virus- and host cell-specific. Exciting new insights into the molecular pathogenesis and host-virus interactions have been gained over the past few decades. These advances have enabled researchers to design better antiviral drugs. METHODS: The literature related to various aspects of virus-host interactions: new insights and advances in drug development was collected from several scientific research related databases such as Science Direct, Google Scholar, Scopus, PubMed, AGRICOLA, and Medline, etc. Total number of 319 research papers was used to compile the information regarding drug development against viral pathogens. RESULTS: Clinical adequacy of antiviral drugs and their bioavailability are important parameters for effective treatment of viral infections. The problems associated with effective delivery of a drug in a safe and desired quantity have led to the search for (and design of) better drug delivery systems. In recent past, several new antiviral drugs have been developed, which have high therapeutic effectiveness against life-threatening viral diseases such as HIV, hepatitis B virus, herpes virus, dengue virus and influenza virus infections. The majority of recent advances in antiviral drug discovery were possible due to the developments in allied fields such as in vitro virus cultivation technology, molecular biology of viral-genome-encoded enzymes, complete-genome-sequence-based studies of viruses and identification of suitable targets for antiviral drugs in viral genomes. Recently, several novel drug delivery approaches including small interfering RNAs (siRNAs) have emerged to aid antiviral therapy. CONCLUSION: The present review is aimed at providing an update on research and development efforts being made to create effective antiviral chemotherapeutic agents and approaches to their delivery to appropriate targeted cells or tissues.