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Techniques for Downstream process for Biologic Drugs and Vaccines provides comprehensive technologies involved in processing postharvest broth to separate the target biological therapeutic products of extracellular or intercellular aspects in nature - to its highest purification form, and to thus make it acceptable to end users. The technologies involved in the post-harvesting of fermented broth are explained in this comprehensive resource in a simplified manner with different case studies to help non-engineering students and scientists easily capture the basic principle of biomass processing technologies and their applications in new projects related to the development and manufacturing of therapeutic bio-products. As conceptual development of biotechnology has taken new shape and style with the integration of medical sciences, physical science, and engineering, and has thus begun the need for the development of microbial or cell line process technology and application for large-scale isolation and purification of metabolites or vaccines through the fermentation process, this book covers the most important aspects. - Provides insights into the conceptual strategic drive for manufacturing innovative biologically derived therapeutic compounds for commercial purposes - Focuses on how to execute biopharmaceutical portfolio trends to bring sustainable manufacturing process as per guidelines of international regulatory acts - Highlights emerging trends in medical sciences on tissue engineering, regenerative medicine, personalized medicines, and various innovative techniques on immunotherapy to fight against life-threatening diseases
On July 30-31, 2018, the National Academies of Sciences, Engineering, and Medicine held a workshop titled Continuous Manufacturing for the Modernization of Pharmaceutical Production. This workshop discussed the business and regulatory concerns associated with adopting continuous manufacturing techniques to produce biologics such as enzymes, monoclonal antibodies, and vaccines. The participants also discussed specific challenges for integration across the manufacturing system, including upstream and downstream processes, analytical techniques, and drug product development. The workshop addressed these challenges broadly across the biologics domain but focused particularly on drug categories of greatest FDA and industrial interest such as monoclonal antibodies and vaccines. This publication summarizes the presentations and discussions from the workshop.
The vaccine used to protect humans against the anthrax disease, called Anthrax Vaccine Adsorbed (AVA), was licensed in 1970. It was initially used to protect people who might be exposed to anthrax where they worked, such as veterinarians and textile plant workers who process animal hair. When the U. S. military began to administer the vaccine, then extended a plan for the mandatory vaccination of all U. S. service members, some raised concerns about the safety and efficacy of AVA and the manufacture of the vaccine. In response to these and other concerns, Congress directed the Department of Defense to support an independent examination of AVA. The Anthrax Vaccine: Is It Safe? Does It Work? reports the study's conclusion that the vaccine is acceptably safe and effective in protecting humans against anthrax. The book also includes a description of advances needed in main areas: improving the way the vaccine is now used, expanding surveillance efforts to detect side effects from its use, and developing a better vaccine.
Biochemical Engineering and Biotechnology, 2nd Edition, outlines the principles of biochemical processes and explains their use in the manufacturing of every day products. The author uses a diirect approach that should be very useful for students in following the concepts and practical applications. This book is unique in having many solved problems, case studies, examples and demonstrations of detailed experiments, with simple design equations and required calculations. - Covers major concepts of biochemical engineering and biotechnology, including applications in bioprocesses, fermentation technologies, enzymatic processes, and membrane separations, amongst others - Accessible to chemical engineering students who need to both learn, and apply, biological knowledge in engineering principals - Includes solved problems, examples, and demonstrations of detailed experiments with simple design equations and all required calculations - Offers many graphs that present actual experimental data, figures, and tables, along with explanations
Conceptual Development of Industrial Biotechnology for Commercial Production of Biopharmaceuticals and Vaccines provides insights on how to bring sustainability into biologic drug production. The cumulative facts and figures within in the book are helpful to promoters in monitoring value chain transfer process of super quality biologics for better return in profits. In addition, this is a useful reference for students, researchers and scientists in biotechnology, pharmaceutical science, medical sciences, and the R&D division of biotechnology-based industries. Conceptual development of biotechnology has taken new avenues with the integration of medical sciences, physical science, and engineering, hence this is a timely source. The current global market for vaccines, especially COVID-19, is tremendous. Bivalent oral polio vaccine, diphtheria, tetanus-containing, and measles-containing vaccines have a high demand internationally and recombinant DNA technology and protein engineering are helpful in the production of quality bio-products. - Informs how biotechnology and pharmaceutical industries act as central pillars for the stable production of value-added biological drugs and vaccines from genetically engineered suitable vectors like microbe or cell lines from animals, mammals or plants - Highlights various traditional and modern techniques used for improvising the quality of suitable vectors to produce biologic drugs and vaccines under GMP manufacturing facilities - Provides updated information on the latest microchip-based bioreactors, disposable bag bioreactors, and animal systems as bioreactors to produce biologic drugs like Smart Biomolecules (next generation therapeutics), Bio-similar drugs, Bio-betters, and antibody-drug conjugates - Explains how the closed bioreactors with proper mechanical amendments are used for vaccine production
This edited book is an in-depth compilation of recent tools and techniques, concepts and strategies used globally in plant molecular farming (PMF) for the cost-effective bulk production of recombinant proteins, secondary metabolites, and other biomolecules. The book presents an overview of success stories of PMF applications from developing countries to address poverty, achieve zero hunger, good health and well-being, thus achieving the UN SDGs 1, 2, and 3. The book deep dives into recent extraction and downstream processing methodologies, its co-existence with conventional agriculture, global governance and finally opportunities, challenges, and future perspectives in plant molecular farming. It focuses on plastid/chloroplast transformation (transplastomics) and its application in plant molecular farming. The books highlight recent advances in genome editing, synthetic biology, glycosylation and glyco-engineering for improved plant molecular farming by marker-free and tissue-specific systems via cisgenic and transgenic crops. In depth discussions on biosafety issues and bio-containment strategies have also been included. The book has 15 chapters authored by globally leading experts on the subject, presenting opportunities & challenges for bio-industrial researchers and entrepreneurs. It is useful to researchers, industrialists, entrepreneurs, policy planners, academician, and students across the disciplines.
Advanced Biologic Drugs and Manufacturing Process explains biologic drugs, their pharmaceutical charters, and their significance in curing life-threatening chronic diseases. It also provides the latest information on the use of biological drugs for the treatment of numerous diseases and conditions and their most advanced therapies available, including how biologics have impacted cancer therapy, delayed or reversed the course of immune-related conditions, and changed the lives of those with rare chronic diseases. In addition, the book explains how immunotherapy is used for the treatment of diseases by activating or suppressing the immune system.Scientists working on the front lines in the biotechnology industry are provided with an overview on stable production processes and how to monitor the value chain transfer process of biologic drug for better return, in terms of profit. The book also helps researchers and academics on how to develop and update protocols related to testing, quality control, and quality assurance to obtain highly purified biopharmaceuticals or vaccines. - Gives insights into the conceptual strategic drive for manufacturing innovative, biologically derived therapeutic compounds to launch for commercial purposes - Focuses on how to execute biopharmaceutical portfolio trends to bring sustainable manufacturing processes per the guidelines of international regulatory acts - Highlights the emerging trends in medical sciences on tissue engineering, regenerative medicine, personalized medicines, and various innovative technique on immunotherapy to fight against life-threatening diseases
This User’s Guide is intended to support the design, implementation, analysis, interpretation, and quality evaluation of registries created to increase understanding of patient outcomes. For the purposes of this guide, a patient registry is an organized system that uses observational study methods to collect uniform data (clinical and other) to evaluate specified outcomes for a population defined by a particular disease, condition, or exposure, and that serves one or more predetermined scientific, clinical, or policy purposes. A registry database is a file (or files) derived from the registry. Although registries can serve many purposes, this guide focuses on registries created for one or more of the following purposes: to describe the natural history of disease, to determine clinical effectiveness or cost-effectiveness of health care products and services, to measure or monitor safety and harm, and/or to measure quality of care. Registries are classified according to how their populations are defined. For example, product registries include patients who have been exposed to biopharmaceutical products or medical devices. Health services registries consist of patients who have had a common procedure, clinical encounter, or hospitalization. Disease or condition registries are defined by patients having the same diagnosis, such as cystic fibrosis or heart failure. The User’s Guide was created by researchers affiliated with AHRQ’s Effective Health Care Program, particularly those who participated in AHRQ’s DEcIDE (Developing Evidence to Inform Decisions About Effectiveness) program. Chapters were subject to multiple internal and external independent reviews.
To explore the role of the National Institutes of Health (NIH) in innovative drug development and its impact on patient access, the Board on Health Care Services and the Board on Health Sciences Policy of the National Academies jointly hosted a public workshop on July 24â€"25, 2019, in Washington, DC. Workshop speakers and participants discussed the ways in which federal investments in biomedical research are translated into innovative therapies and considered approaches to ensure that the public has affordable access to the resulting new drugs. This publication summarizes the presentations and discussions from the workshop.