Pharmaceutical Biotechnology

Pharmaceutical Biotechnology is the science that covers all technologies required for producing, manufacturing and registration of biological drugs. Biochemistry is the branch of science that explores the chemical processes within and related to living organisms. It is a laboratory based science that brings together biology and chemistry. Pharmaceutical companies use biotechnology for manufacturing drugs, pharmacogenomics, gene therapy, and genetic testing.  It contributes in design and delivery of new therapeutic drugs, diagnostic agents for medical tests, and in gene therapy for correcting the medical symptoms of hereditary diseases. Euro pharmaceutical Biotechnology 2019 will focus on Biopharmaceuticals Discovery, Biopharmaceutical Regulations and Validations, Biologics and Biosimilars.

Medical Biotechnology

The field of medical biotechnology is experiencing rapid growth in recent years, leading to the development of several innovative techniques for preventing, diagnosing, and treating diseases. Novel methodologies, including polymerase chain reaction, gene sequencing, microarrays, cell culture, gene silencing using interference RNA, and genome editing, have significantly contributed towards improving health science, such as the sequencing of the human genome, use of stem cells for regenerative medicine, biomolecules in tissue engineering, development of antibiotics, and the generation of monoclonal antibodies for therapy.

Stem Cell Biotechnology

Stem cell biotechnology is a field of biotechnology that develops tools and therapeutics through modification and engineering of stem cells. Stem cell biotechnology is important in regenerative medicine which helps in cancer treatment and various life threatening diseases. The basis for vegetative cell transplantation is that blood cells (red cells, white cells and platelets) and immune cells (lymphocytes) arise from the stem cells that are in bone marrow, peripheral blood and twine blood. Intense therapy kills the patient's stem cells. This stops the stem cells from creating enough blood and immune cells. Now a day’s stem cell therapy is creating wonders in medical history  

Cancer Biotechnology

Cancer biotechnology is focused on understanding the molecular mechanisms of cancer, developing diagnostics and drugs for its cure. The most cross-disciplinary of contemporary research areas, cancer biotechnology research includes scientists from regenerative medicine, cell biology, cell immunology and cancer epidemics. Cancer stem cells are cancer cells that possess characteristics associated with normal stem cells, specifically the ability to give rise to all cell types found in a particular cancer sample

Biopharmaceutical Formulations

Biopharmaceuticals products are molecules that are components of biological systems that are used in the treatment of human and animal health and disease by clinical trials. The applications of biopharmaceuticals include: agonist and antagonist of important receptors and enzymes, replacement products to treat genetic defects, the induction of protective immune responses (vaccines), and the inhibition of inappropriate immune responses (treatment of allergy and autoimmunity). They can also be combinations of biological molecules like antibodies with cytoxic compounds and agents, such as antibody-drug conjugates that are being used today in cancer therapies.

Pharmacokinetics and Pharmacodynamics

Pharmacokinetics is the study of how an organism affects a drug, whereas pharmacodynamics  is the study of how the drug affects the organism. It places particular emphasis on dose–response relationships, that is, the relationships between drug concentration and effect. Receptor binding and effect is the binding of ligands to receptors is controlled by the law of mass action which relates the large-scale status to the rate of numerous molecular processes. Multicellular pharmacodynamics is the study of the static and dynamic properties and relationships between a set of drugs and a dynamic and diverse multicellular four-dimensional organization. Both together influence dosing, therapeutic effect, and adverse effects. Liberation is the process of release of a drug from the pharmaceutical formulation. Absorption is the process of a substance entering the blood circulation. Distribution is the dispersion or dissemination of substances throughout the fluids and tissues of the body. Metabolism –the chemical process of complex molecules changing into simple molecules in the body. Excretion is the removal of the substances from the body. Pharmacokinetic models are - Non-compartmental analysis, Compartmental analysis, Single-compartment model, Multi-compartmental models, Variable volume in time models.

Nano biotechnology

Nano biotechnology refers to the intersection of nanotechnology and biology. Given that the subject is one that has only emerged very recently, Bio nanotechnology and Nano biotechnology serve as covering terms for various related technologies. The most important objectives that are frequently found in Nano biology involve applying Nano tools to relevant medical/biological problems and refining these applications. Developing new tools, such as Peptoid Nano-sheets, for medical and biological purposes is another primary objective in nanotechnology. New Nano-tools are often made by refining the applications of the Nano-tools that are already being used. The imaging of native biomolecules, biological membranes, and tissues is also a major topic for the Nano-biology researchers. Other topics concerning Nano biology include the use of cantilever array sensors and the application of Nano-photonics for manipulating molecular processes in living cells.

Agricultural Biotechnology

Biotechnology has been practiced for a long time, as people have sought to improve agriculturally important organisms by selection and breeding. An example of traditional agricultural biotechnology is the development of disease-resistant wheat varieties by cross-breeding different wheat types until the desired disease resistance was present in a resulting new variety. Genetic engineering technologies can help to improve health conditions in less developed countries. Genetic engineering can result in improved keeping properties to make transport of fresh produce easier, giving consumers access to nutritionally valuable whole foods and preventing decay, damage, and loss of nutrients. Benefits of Agriculture Biotechnology include increased crop productivity, Enhanced crop protection, Improvements in food processing, improved nutritional value, Environmental benefits, Better flavour, and Fresher produce. Agricultural biotechnology is the term used in crop and livestock improvement through biotechnology tools. This monograph will focus only on agricultural crop biotechnology. Biotechnology encompasses a number of tools and elements of conventional breeding techniques, plant physiology etc.

Bio Informatics

Bioinformatics is an interdisciplinary field that develops methods and software tools for understanding biological data. As an interdisciplinary field of science, bioinformatics combines biology, computer science, information engineering, mathematics and statistics to analyse and interpret biological data. It includes several steps for analysing they are sequence analysis, gene and protein expression, analysis of cellular organization. Protein structure prediction is another important application of bioinformatics. The amino acid sequence of a protein, the so-called primary structure, can be easily determined from the sequence on the gene that codes for it. In the vast majority of cases, this primary structure uniquely determines a structure in its native environment. Other techniques for predicting protein structure include protein threading and physics-based modelling.

Recombinant DNA technology

Recombinant DNA technology, joining together of DNA molecules from two different species that are inserted into a host organism to produce new genetic combinations that are of value to science, medicine, agriculture, and industry. Since the focus of all genetics is the gene, the fundamental goal of laboratory geneticists is to extracting the gene, integrating the gene, encoding of gene for better yields, Most importantly protein based drugs are highly effective drugs such as erythropoietin and fast-acting insulin this can be possible by protein engineering. Today recombinant DNA technology is used extensively in research laboratories worldwide to explore myriad questions about gene structure, function, expression pattern, regulation, and much more

White Biotechnology

White Biotechnology is also known by the name Industry Biotechnology. This kind of biotechnology is used and applied in industries and its processes. The various uses of this Biotechnology includes; biopolymers (Plastics) Substitutes, new invention of vehicle parts and Biofuels for the vehicles, invention of fibres for the clothing industry, it is also involved in developing new chemicals and the production process. Industry biotechnology will helps in pollution prevention, resource conservation, and reduction of cost for the processes with a better results

Marine Biotechnology

Marine biotechnology, sometimes referred to as “blue biotechnology”, exploits the diversity found in marine environments in terms of the form, structure, physiology and chemistry of marine organisms, many of which have no equivalent on land, in ways which enable new materials to be realised. Marine biotechnology is a knowledge generation and conversion process: it unlocks access to biological compounds and provides novel uses for them using bio sensors.  By exploring and harnessing marine materials, entirely new uses in areas far from the marine are likely to be found. Marine biotechnology is an opportunity recognised by policy makers and the enterprise sector as offering significant potential to fill market gaps for new chemical compounds.

Environmental Biotechnology

Biotechnology is applied and used to study the natural environment. Environmental biotechnology could also imply that one try to harness biological process for commercial uses and exploitation. Environmental biotechnology is the development, use and regulation of biological systems for remediation of contaminated environments and for environment-friendly processes such as green manufacturing technologies (bio fuels, bio markers, bio energy etc.,) and sustainable development. Environmental biotechnology can simply be described as "the optimal use of nature, in the form of plants, animals, bacteria, fungi and algae, to produce renewable energy, food and nutrients in a synergistic integrated cycle of profit making processes where the waste of each process becomes the feedstock for another process”

Biotechnology on Food processing

Food biotechnology is the application of technology to modify genes of animals, plants, and microorganisms to create new species which have desired production, marketing, or nutrition related properties. Genetically engineered (GE) or genetically modified (GM) foods, they are a source of an unresolved controversy over the uncertainty of their long-term effects on humans and food chains. Food biotechnology employs the tools of modern genetics to enhance beneficial traits, of plants, animals and microorganisms for food production. It involves adding or extracting select genes to achieve desired traits. The work currently being done with “golden rice” and the potential it has to help combat hunger and malnutrition related diseases. Purchase fruits and vegetables with increased antioxidant content that may reduce risk for cancer. Plant-made pharmaceuticals are the latest evolution within the realm of biotechnology.  As the name suggests, this process uses genetics to enable plants to produce protein-based medicines to treat diseases and save lives. Biotechnology of food by fermentation, using enzymes like α-amylase is being used to improve nutrition, enhance food safety and quality.

Clinical Research/Clinical Trails

Clinical trials are experiments or observations done in clinical research. Such prospective biomedical or behavioural research studies, including new treatments. Clinical trials generate data on safety and efficacy. Clinical trials involving new drugs are commonly classified into four phases.  Each phase of the drug approval process is treated as a separate clinical trial which includes Pharmacodynamics and pharmacokinetics in humans, Screening for safety, Establishing the efficacy of the drug, Final confirmation of safety and efficacy, Safe guarding the quality. A clinical trial protocol is a document used to define and manage the trial. It is prepared by a panel of experts. All study investigators are expected to strictly observe the protocol

Scope and Importance:

From agriculture to environmental science, biotechnology plays an important role in improving industry standards, services, and developing new products. Biotechnology involves the spectrum of life science-based research companies working on transformative technologies for a wide range of industries. While agriculture, material science and environmental science are major areas of research, the largest impact is made in the field medicine. As a large player in the research and development of pharmaceuticals, the role of biotechnology in the healthcare field is undeniable. From genetically analysis and manipulation to the formation of new drugs, many biotech firms are transforming into pharmaceutical and biopharmaceutical leaders   

Pharmaceutical Biotechnology has emerged as one of the major disciplines for drug discovery and development. Today the shape and vision of pharmaceutical aspects and challenges have completely changed, and the prefix "pharma" can also be accepted as a synonym for integrated life science approaches, ranging from genetics to molecular biology to diagnostics, with the common goal of delivering the best drug to the patient by biotechnological techniques.

Worldwide market for biotechnology in the life sciences is evaluated at over $29.6 billion for 2014. Pharmaceutical Biotechnology will demonstrate unfaltering managed development at 20.7%. This market is conjecture to develop to more than $79.8 billion by 2019 to enlist a solid compound yearly development rate (CAGR) of 22%

•         Bio-based products: materials
•         Bio economy
•         Biomaterials engineering and Nano medicine
•         Bio-nanoparticles
•         Biopharmaceuticals production
•        Membrane technology
•         Bioprocess engineering, modelling, measurement & control
•         Thermodynamics of chemical and pharmaceutical systems

Pharma Biotech 2017

We gratefully thank all our wonderful Speakers, Conference Attendees, Students, Media Partners, Associations and Exhibitors for making Pharma Biotech 2017 Conference the best ever!

The 20th International Conference on Pharmaceutical Biotechnology, hosted by the Conference Series llc Ltd was held during December 07-09, 2017 at Madrid, Spain based on the theme “Widespread Applications and Advancements in Pharmaceutical Biotechnology ". Benevolent response and active participation was received from the Organizing Committee Members along with Scientists, Researchers, Students and leaders from various fields of Pharma Biotech, who made this event a grand success.

Know more at Pharma Biotech 2017 Proceedings

Conference Series llc Ltd expresses its gratitude to the conference Moderators, namely Dr. Ana Cristina Calvo, for taking up the responsibility to coordinate during the sessions. We are indebted to your support.

The conference was initiated with the Honourable presence of the Keynote forum. The list includes:

Elena Gómez-Sanz, ETHZ, Switzerland
Isabel Desgagné-Penix,Université du Québec à Trois-Rivières, Canada
We are grateful to our Speakers of Special session. The list comprises:

Wolfgang B Fischer, National Yang-Ming University, Taiwan
Vladimir A Baulin, Universitat Rovira I Virgili, Spain
The meeting reflected various sessions, in which discussions were held on the following major scientific tracks:

• Biopharmaceuticals
• Novel Approaches in Biopharmaceutics
• Nanoparticles in Biopharmaceuticals
• Biotechnology in Health Care
• Formulation of Biotech Products
• Agriculture Biotechnology
• Advances in Biotech Manufacturing
• Biotechnology and its Applications
• Biopharmaceutical Engineering
• Chemical Biotechnology
• Biomass and Bioenergy
• Industrial and Microbial Biotechnology
• Biopharmaceutical Production in Transgenic Animals
• Development on Recombinant Protein
• Nanobiotechnology
• Biotech Companies and Market Analysis

Conference Series llc Ltd offers its heartfelt appreciation to organizations such as Bentham Science and our esteemed supporters SelectScience, Trade Show Alerts Medgenera, CrowdReviews, PBR Clinical Biometrics, Bio-Equip, Nanobay, Pharma Focus Asia, Times International eindiabusiness and other eminent personalities who supported the conference by promoting in various modes online and offline which helped the conference reach every nook and corner of the globe. Conference Series llc Ltd also took privilege to felicitate the Keynote Speakers, Organizing Committee Members, Chairs and Exhibitors who supported this event. 

With the grand success of  Pharma Biotech 2017, conference series LLC LTD is proud to announce the 24th International Meet on Pharmaceutical Biotechnology 2019 to be held during May 13-14, at Paris, France.

For more details  visit :- https://biotechnology.pharmaceuticalconferences.com/