International Conference on Biotechnology and Healthcare December 07-08, 2020 Auckland, Newzealand

\r\n Infectious diseases pose a threat to humans because they can pass quickly from person to person and affect a large number of people in a very short time. Influenza, or "the flu," is an infectious disease. You may have heard about avian and swine flus in the news. With the growing fear of bioterrorism and a pandemic flu, scientists are using biotechnology to develop new diagnostic tools for rapid and sensitive detection of pathogens. Biotechnology is used extensively in the study of emerging infectious diseases.

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Molecular diagnostics is a collection of techniques used to study biological markers in the genome and proteome the individual's genetic code and how their cells express their genes as proteins by applying molecular biology to medical testing. The method is used to diagnose and monitor disease, notice risk, and decide which therapies will work best for individual patients. These tests are useful in a range of medical specialisms, including infectious disease, oncology, human leucocyte antigen typing, coagulation and pharmacogenomics the genetic prediction of which drugs will work best.

Vaccination, the administration of an antigenic material (vaccine), is considered to be the most effective method for disease prevention and control. A vaccine usually contains an agent that resembles a diseases‐causing pathogen and is often made from inactivated microbes, live attenuated microbes, its toxins, or part of surface antigens (subunit). However, the modern biotechnological tools and genomics have opened a new era to develop novel vaccines and many products are successfully marketing around the world. It is important to formulate and deliver these vaccines appropriately to maximize the potential advances in prevention, therapy, and vaccinology. New vaccines employing biotechnological innovations are helping us to change the way for illness prevention. The clinical application of vaccines will be diversified along with the development of biotechnologies. In modern society, the outbreak of many infectious diseases has decreased through vaccination, but the burden of non-infectious diseases is growing. The new biotechnologies may result in not only the appreciation of vaccines which are critical in inducing protection against an infectious disease but also the production of therapeutic vaccines which are effective for all diseases including infectious and non-infectious diseases.

\r\n <span style="\&quot;color:" rgb(185,="" 134,="" 66);="" text-decoration-line:="" none;\"="">disease-causing genes change with a deepening understanding of genomes and with integration of new technologies.

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Many forms of chronic disease such as cancer and cardiovascular disfunction can, in part, be attributed to diet and arising from the awareness of the relationship between diet and disease has evolved the concept of functional foods. Cancer is caused by undesired changes in the genome as well as in the proteome. These changes allow cancer cells to evade normal cellular control mechanisms and so these cells start growing uncontrolled. Molecular research has showed major types of mutations for many cancer types, locating specific targets and drug development.

Gene therapy comprises the transmission of genetic material, typically in a carrier or vector, and the approval of the gene into the suitable cells of the body. Cell therapy contains the transmission of cells with the applicable function of the patient. Gene and cell therapy is the use of genes and cells to treat disease. A gene is the unit of DNA that contains hereditary information that is passed down from generation to generation. All genes together are called the genome. Genes may contain information about visible traits, such as height or eye colour. Many genes contain the instructions for RNA or protein molecules that are not visible from the outside but perform important functions in the body's cells. Cells are the building blocks of plants and animals. They are small functional units that work together to form organs and tissues.

New advances in stem-cell technology have well the prognosis for tissue engineering. The usage of cultured stem and/or progenitor cells has the potential to advance the amount of renewal, and also increases the likelihood that the transplanted tissue will join with the surrounding tissue. It could ultimately even reduce or eliminate the need for immunosuppressive drugs. The term regenerative medicine is often used synonymously with tissue engineering, although those involved in regenerative medicine place more emphasis on the use of stem cells or progenitor cells to produce tissues.

Nano biotechnology which is knowingly concerned with the creation and application of various nanomaterial’s specific to pharmacy and medicine has huge potential to solve life-threatening issues of important human diseases. Mostly in recent years, large amount of novel Nano therapeutics and Nano devices have been extensively explored with huge positive influences on human health, comprise nanoparticles for the delivery of small molecule drugs, proteins, DNAs, RNAs and MRNAs for dissimilar kinds of therapy via dissimilar administration pathways, brand-new nanomaterial’s for novel treatment approaches and multi-functionalized Nano-agents for imaging as well as the development of novel nanotechnology-based diagnosis/detection approaches.