Pharmaceutical Biotechnology

About Conference

Conference Series is a renowned organization that organizes highly notable conferences throughout the globe. Currently we are bringing forth “27th Annual Meeting  on Pharmaceutical Biotechnology” (Pharma Biotech 2023) scheduled to be held during February 23-24, 2023 Amsterdam, Netherlands. The conference invites all the participants across the globe to attend and share their insights and convey recent developments in the field of Pharmaceutical sciences and Biotechnology.

Why to attend?

Pharma Biotech 2023 is platform to discuss various disciplines involved in the Pharmaceutical Biotechnology, conduct of Novel Approaches in  bio pharmaceutics  which will educate Biotechnology in Health Care researchers about design, Formulation of Biotech Products, Advances in Biotech Manufacturing, Regulatory issues and drug approval which promotes better understanding by Pharmacokinetics and Pharmacodynamics of Biotech Drugs for general public about the importance of Current researches in Nano Technology by using  Biopharmaceutical Engineering Methods. Pharma Biotech 2023 Conference conduct presentations, distribute information, throughout the world where we can meet with current and potential professors, researches, scientists, make a splash with new developments of biotech pharmaceuticals.

Targeted audience:

• Pharmaceutical & Biotechnology Companies
• Researchers & Innovators, Scientists
• Pharmaceutical & Biotechnology Companies
• Professors and Students
• R & D Labs
• Doctors and scholars
• Pharmacists and Medical representatives
• Professors and Students
• Universities and Research Institution
• Related Associations, Societies, & Professional Bodies
• Experts Looking for Collaborative Work
• Solution Providers
• Bio instruments Professionals
• Bio-informatics Professionals

Tracks and Sessions

Track 1: Biopharmaceuticals

A biopharmaceutical also called as a biological medical by-product, biologic is other pharmaceutical drug by-product produce in, draw out from, or semisynthesized from biological origin. Distinct from completely synthesized pharmaceuticals, they also contain vaccines, complete blood, blood products, allergenic, somatic cells, gene therapies, tissues, recombinant therapeutic protein, and living drugs used in cell remedy. Biologics can be composed of sugars, proteins, nucleic acids, or compound combinations of these material, or can be living cells or tissues. They (or their precursors or material) are introvert from living origin—human, animal, plant, fungal, or microbial. They may be used in the two human beings and animal treatment.

• Recombinant Protein Therapy
• Thrombolytic Agents
• Haematopoietic Growth Factors
• Gene Theraphy

Track 2: Pharmaceutical Nanotechnology

Pharmaceutical nanotechnology is the exhilarating, rapidly growing emerging branch of medical science that deals with harnessing nanoscale materials as drug delivery and/or diagnostic tools. As drug delivery tools, nano-delivery systems can be used to enhance the site-specific, targeted delivery of accurate medicines. Nanotechnology, also known to nanotech, is the use of matter on an atomic, molecular, and supramolecular scale for industrial purposes. Another potential product of nanotechnology in medicine also contain: nanoadjuvants with immunemodulatory properties used to deliver vaccine antigens; the nano-knife, an almost non-invasive  of destroying cancer cells with high voltage electricity; and carbon nanotubes, which are already a popular way of repairing.

• Nano Hydroxyapatite
• Increase oral bioavailability
• More rapid onset of theraph
• Enhanced Solubility 

Track 3: Covid-19 Drug Development

COVID-19 drugs are the development is the research process to develop preventative therapeutic prescription medicines that would alleviate the severity of corona virus disease 2019 (COVID-19). Many hundred pharmaceutical companies, biotechnology units, university research associations, and healthcare organizations are developing therapeutic students for COVID-19 disease in multiple stages of preclinical or clinical research, with 419 potential COVID-19 drugs in clinical trials. Drug development is a multistep process, typically requiring more than five years to assure safety and efficacy of the new compound. Several national regulatory agencies, such as the EMA and the FDA, approved procedures to expedite clinical testing. Drug development is the process of bringing a new infectious disease vaccine or therapeutic drug to the market once a lead compound has been identified through the process of drug discovery.

• Conducting clinical trials in a pandemic
• Leverage innovative trial designs
• Prophylactic design
• New drug development paradigm

Trac Track 4: Pharmaceutical Formulations and New Innovations

Pharmaceutical formulation, in pharmaceutics, is the proseduer in which various chemical substances, including the active drug, are used to produce a final medicinal drug. The word formulation is often use in a way that includes dosage form. Pre-formulation involves the characterization of a drug's physical, chemical, and mechanical charteristics in order to choose what other products should be used in the procedure. Pharmaceutical innovation may not apply the same definition of "initiative" as other industries because while a product might use a new molecule or formula, that by itself holds very little value. For people that need the product the health benefits that were not previously achievable may be a deciding factor as to whether or not it is initiative. While a pharmaceutical company may view a product that fills a niche as innovative if it can produce a profit.

• Additive Manufacturing
• Artificial Intelligence
• Curative Therapies
• Discover All Pharma Technologies

Trac Track 5: Nanoparticles in Biopharmaceuticals

Nanobiotechnology deals with technology which incorporates nanomolecules into biological systems, or which miniaturizes biotechnology solutions to nanometer size to achieve greater reach and efficacy. This may result in more effective and inexpensive assays and therapies. These disciplines help to indicate the merger of biological research with various fields of nanotechnology.  It involves expertise in a variety of fields, from biological, biochemical, molecular biological, molecular engineering, and genetic engineering to agricultural knowledge. Concepts that are enhanced through nanobiology include: nanodevices (such as biological machines), nanoparticles, and nanoscale phenomena that occurs within the discipline of nanotechnology.

• Lipid Nanoparticles
• Nano-biotechnology in molecular diagnostic
• Safety issues of nanoparticles
• Potential therapeutic evalution

Track 6: Agriculture Biotechnology

Agricultural biotechnology, also called as agritech, is an area of agricultural science includes the uses of scientific tools and technologies            , including genetic engineering, molecular markers, molecular diagnostics, vaccines, and tissue culture, to modify living organisms: plants, animals, and microorganisms. Crop biotechnology is one aspect of agricultural biotechnology which has been greatly developed upon in recent times. Desired trait are exported from a particular species of Crop to an entirely different species. These transgene crops possess desirable characteristics in terms of flavor, color of flowers, growth rate, size of harvested products and resistance to diseases and pests.

• Genetically Modified Crops.
• Developing of Biofuels.
• Improving Plant Growth
• Improve Animal Health and Breeding.

Track 7: Cancer Biotechnology

Cancer biotechnology research includes scientists from medicine, biology, physics and engineering disciplines. Research focused on understanding the molecular mechanisms of cancer, and developing diagnostics and drugs for its cure. Cancer research and drug development have recently entered a new era, along with the concomitant emergence of new technologies, such as whole-genome, proteome profiling or exome sequencing; all these new approaches have led to innovative information. There are several reasons for the discrepancies between the large number of possible future drugs and those approved.

• Cancer Stem Cells.
• Tumor Immunology and Immunotherapy.
• Tumor Invasion and Metastasis.
• Molecular Mechanisms of Cancer

Track 8: Pharmacoinformatics

Pharmacoinformatics also be defined as the scientific field that focuses on medication-related data and knowledge within the continuum of healthcare systems. Drug discovery and development requires the integration of multiple scientific and technological disciplines. These include chemistry, biology, pharmacology, pharmaceutical technology and extensive use of information technology. The latter is increasingly recognised as Pharmacoinformatics. It relates to the broader field of bioinformatics. It can be thought of as a sub-domain of the larger professional discipline of health informatics. Health informatics is the study of interactions between people, their work processes and engineered systems within health care with a focus on pharmaceutical care and improved patient safety.

• Bioinformatics
• Genome informatics
• Development And Validation Of Stability Indicating Methods
• Pulsatile Drug Delivery Release Technologies

Track9: Evolution of Drugs and Drug Labs

Drug evolution is a unique idea that is put out to create chemical libraries with a high likelihood of discovering medications or drug candidates. Chemical evolution replaces biological evolution as a result. German scientist Friedrich Returner created the first pharmacological medicine in 1804. In his laboratory, he isolated the primary component from opium and gave it the name "morphine," after the Greek deity of sleep. Secret manufacturing facilities for illegal drugs, including methamphetamine (meth, ice), are known as clandestine drug laboratories (clan labs). Drug evaluation is the expression of a drug's quality, safety, and effectiveness as determined by its pharmacology, pharmaceutics, and clinical study.

• Discovery and Development
• Preclinical Research
• Clinical Research
• FDA Drug Review
• FDA Post-Market Drug Safety Monitoring

Track10: Drug Regulations Quality Assurance

The term quality assurance (QA), which is used in both the manufacturing and service sectors of the economy, refers to the methodical measures taken to ensure that the products delivered to customers meet their contractual and other agreed-upon expectations for performance, design, reliability, and maintainability. The main goal of quality assurance is to avoid errors and flaws in the design, development, and production of both manufactured goods like shoes and cars as well as supplied services like auto repair and athletic shoe manufacturing. Different jurisdictions have different laws governing therapeutic products, which are pharmaceuticals and therapeutic devices. They are governed at the national level by a single agency in some nations, such the United States. In certain states, they are governed at the state level.

• Quality management
• Measure
• Analyze
• Improve
• Control

Track11: Artificial Intelligence

In contrast to the natural intelligence exhibited by animals, including humans, artificial intelligence (AI) is intelligence demonstrated by robots. The study of intelligent agents, or any system that understands its environment and acts in a way that maximizes its chances of succeeding, has been defined as the focus of AI research. Advanced web search engines, recommendation engines, speech recognition software, self-driving cars, automated decision-making, and winning at the highest levels in strategic gaming systems are just a few examples of AI uses. The idea that human intellect "can be so thoroughly characterized that a machine may be constructed to imitate it" served as the foundation for the study. This sparked discussions in philosophy concerning the nature of the mind and the moral ramifications of constructing intelligent artificial entities.

• Web Search Engines
• Self-Driving Cars
• Automated Decision-Making

Track12: Clinical Trials and Clinical Research

Clinical trials are prospective biomedical or behavioral research studies involving human subjects that aim to provide answers to particular questions about biomedical or behavioral interventions. These include both established and novel treatments (such as novel vaccines, drugs, dietary choices, dietary supplements, and medical devices) as well as interventions that have already been tried and tested but still require more research and comparison. The field of healthcare science known as clinical research evaluates the efficacy and safety of treatments, equipment, diagnostic tools, and drugs designed for human use. These may be employed in illness diagnosis, treatment, prevention, or symptom relief. Clinical practice is distinct from clinical research. While evidence is gathered to establish a treatment in clinical research, established treatments are employed in clinical practice.

• Pilot studies and feasibility studies
• Prevention trials
• Screening trials
• Treatment trials
• Multi-arm multi-stage (MAMS) trials
• Cohort studies

Track13: Cosmetic Biotechnology

Cosmetics have been impacted by biotechnology in a number of ways. Biotechnology is used by the cosmetics industry to find, create, and produce ingredients for cosmetic formulations as well as to assess how these ingredients behave on the skin, in particular how they may influence aging-related changes. Graduates of biotechnology programmes can now find employment in the fields of agriculture, medical, pharmaceutical research, industrial research, animal husbandry, sciences, textile, food, cosmetics, and nutrition, as well as in the environmental solutions and soil ecology industries.

• Oral care
• Skin care and Sun care
• Hair care
• Decorative cosmetics
• Body care and perfumes

Track14: Down Stream Process of Biopharmaceuticals

Recovery and purification of biosynthetic products, notably pharmaceuticals, from natural sources like animal or plant tissue or fermentation broth is referred to as downstream processing. This process also involves recovering salvageable parts and properly handling and disposing of waste. A pure and homogenous protein product is produced from biological materials, such as cells, tissue culture fluid, or plant tissues, through a sequence of steps known as downstream processing (DSP). Isolating, purifying, and concentrating the previously produced medicinal ingredient or other product from the intricate bulk matrix is the goal of downstream processing. Formulation processes may also be included in downstream processing, denoting the change from drug substance to drug product.

• Solid-Liquid Separation
• Release of Intracellular Products
• Concentration
• Purification by Chromatography and Formulation

Track15: Tissue Engineering& DNA Technology Drug Theraptics

According to current thinking, tissue engineering is an interdisciplinary topic that uses engineering and life science ideas to the creation of biological substitutes that restore, maintain, or enhance tissue function or the function of an entire organ. A branch of biomedical engineering known as tissue engineering makes use of cells, engineering, materials science, and appropriate biochemical and physicochemical elements to replace, improve, or repair various biological tissue types. Drug treatment problems or drug-related problems are terms used in the field of pharmaceutical care to define and classify clinical issues associated with the use of pharmaceuticals or medications. Pharmacists, who are knowledgeable with the safety and efficacy of drugs, frequently identify, prevent, and/or resolve DTPs in clinical practice. However, other healthcare professionals may also handle DTPs. Drugs are categorized into many classes based on their chemical make-up, physical makeup, and intended mode of action.

• Cells
• Tissue-inducing substances
• Cells + matrix approach
• Antimetabolites
• Antimitotics

Track16: Advances in Biotech Manufacturing

Industrial enzymes, chemicals, biomass conversion into energy and chemicals, and pollution cleanup are all possible because to biotechnology. The bio-cementation technique, used in the construction sector, involves the employment of bacteria to precipitate calcium carbonate within concrete, strengthening and toughening it. In order to create eco-efficient processes and products that are not only more profitable but also more environmentally friendly, biotechnology offers methods for modifying and adapting the biological organisms, goods, services, and systems present in nature.

• Synthetic DNA
• Development of Vaccines
• Testing and Tracing for COVID-19
• 4D printing and Tissue Engineering

Market Analysis

Scope and Importance

In the field of pharmaceutical research and development, biotechnology is extremely important. 15% of the bounce in the present comes from the pharmaceuticals sector. It has been demonstrated that biotechnology, which combines science and technology utilised in the pharmaceutical sector, is helpful, particularly in the production of genetic testing and vaccines.

Pharmaceutical corporations are putting a lot of effort into producing medications and vaccinations that can save lives for the entire world. Additionally, better and quicker drug distribution is achieved when the pharmaceutical sector makes advantage of the advanced methodologies and biotechnology's advancements. The pharmaceutical sector has benefited from the use of biotechnology in the correct manufacture of vaccines and medications. The pharmaceutical sector has benefited from the use of biotechnology in the creation of new products, improved procedures, and innovative technologies. Therefore, when biotechnology and the pharmaceutical business are integrated, a significant number of jobs can be created on a global scale.

The Changing Geography of Pharma Markets

North America and Western Europe still make up 56% of the worldwide market because to growth over the past few decades, but Asia Pacific has surpassed Western Europe as the second-largest region. The introduction of low-cost generic medications has enhanced drug affordability in Asia Pacific, which has supported the region's growth. A rise in the region's GDP per person, government healthcare programmes, and fast urbanisation, which places pharmacies and physicians' offices within easy reach of expanding populations, are further factors that favour expansion in the Asia-Pacific region. To 2023, pharmaceutical sales in Asia-Pacific will increase by 8.4% annually.

The story is a similar one at the level of country. The USA, by itself worth 25% of the global total, is restraining global growth by rising at below 5% a year, while the much smaller pharma markets of India and China are both achieving double that pace.

                    

Key Segments in the Pharmaceutical Market

The largest pharma market globally is for musculoskeletal drugs. These are treatments for diseases such as rheumatoid- and osteo- arthritis, osteoporosis, carpal tunnel syndrome, tendonitis, rotator cuff tear, muscular dystrophy, myasthenia gravis, lupus erythematosus and others. Major drugs in this segment include Piroxicam Glaxo, Dolonex, Felden, and Piroxicam Pfizer. The segment accounted for 14% of the global total in 2017. Cardiovascular, oncology and ant-infective drugs are the second third and fourth largest markets.

Drugs for treating metabolic disorders such as diabetes and diseases of the thyroid and pituitary glands will be the fastest-growing segment of the global pharma market to 2023. This segment will grow at 9% a year going forward, following recent growth of 11.6%, but it will remain in fifth place for market size.

Anti-diabetic drugs are the largest subsegment of the global pharmaceutical industry, worth over $85 billion in 2017; second are the anti-virals and third come anti-hypertensives. Drugs for some of the less prevalent cancers — thyroid, skin and ovarian cancer — are the fastest-growing subsegments. This is in part because the US Federal Drug Administration has allowed a less rigorous regulatory procedure and lower endpoint benchmark for cancer drugs, so increasing the rate of innovation.

 

RELATED SOCIETIES:

Societies in USA:

American Society of Pharmacognosy (ASP), Phytochemical Society of North America (PSNA), The Herb Society of America, American Herbal Products Association (AHPA), American College of Clinical Pharmacology, American Society for Clinical Pharmacology and Therapeutics, American Neurological Association (ANA), American Society of Neuroimaging, American Board of Psychiatry and Neurology (ABPN), The Federation of European Pharmacological Societies, The European Association for Clinical Pharmacology and Therapeutics (EACPT), The European Behavioural Pharmacology Society (EBPS), British Pharmacological Society.

Societies in Europe:

Phytochemical Society of Europe (PSE), Society for Medicinal Plant and Natural Product Research, European Herbal and Traditional Medicines Association (EHTPA), European Medicines Agency, Federal Agency for Medicines and Health Products (FAGG), Danish Health and Medicines Authority (SST), Bulgarian Drug Agency (BDA), Federal Institute for Drugs and Medical Devices (BfArM), National Organization for Medicines (EOF), Pharmaceutical Society of New Zealand Incorporated (PSNZI), Royal Pharmaceutical Society (RPS), Association of British Pharmaceutical Industry (ABPI).

Societies in Asia and Pacific:

The Asian Society of Pharmacognosy (ASP), Society of Pharmacognosy, Malaysian Natural Product Society (MNPS), The Japanese Society of Pharmacognosy, Australian Society of Plant Scientists, Korean Society of Pharmacology, Malaysian Society of Pharmacology and Physiology (MSPP), Pharmacological Society of Taiwan, Japanese Pharmacological Society, Bangladesh Pharmaceutical Society (BPS), Society for Pharmaceutical Dissolution Science (SPDC), Pharmaceutical and Bioscience Society (PBS), Chinese Biopharmaceutical Association, Pharmaceutical Society of Australia, Pharmacy Guild of Australia, Chinese American Biopharmaceutical Society

 

Past Conference Report

26^th World Congress on Pharmaceutical Biotechnology

Conference series hosted 26th World Congress on Pharmaceutical Biotechnology 2022 June 29-29, 2022 Webinar.

Active participation and generous response were received from the Organizing Committee Members, scientists, researchers, as well as experts from Non-government organizations, and students from diverse groups who made this conference as one of the most successful and productive events in 2022 from Conference series.

The conference was marked with several workshops, multiple sessions, Keynote presentations, panel discussions and Poster sessions. We received active participation from scientists, young and brilliant researchers, business delegates and talented student communities representing more than 35 countries, who have driven this event into the path of success.

The conference was initiated with a warm welcome note by Honourable guests and the Keynote forum. The conference proceedings were carried out through various Scientific-sessions and plenary lectures.