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Despite advances over the past several decades, the clinical trials enterprise has struggled to meet the needs of an increasingly diverse U.S. population. To help address this issue, a 2023 National Academies workshop sought to identify the expertise and disciplines needed to achieve the aspirations for a transformed clinical trials enterprise by 2030 and enable a workforce that can better support the evolving needs of drug R&D - one that is resilient, culturally aware, anti-racist, and interdisciplinary. The workshop, hosted by the Forum on Drug Discovery, Development, and Translation and Roundtable on Black Men and Black Women in Science, Engineering, and Medicine explored strategies to bolster workforce capacity and challenges and opportunities associated with supporting the next-generation drug R&D workforce.
In 2004, the Institute of Medicine released Health Literacy: A Prescription to End Confusion, a report on the then-underappreciated challenge of enabling patients to comprehend their condition and treatment, to make the best decisions for their care, and to take the right medications at the right time in the intended dose. That report documented the problems, origins, and consequences of the fact that tens of millions of U.S. adults are unable to read complex texts, including many health-related materials, and it proposed possible solutions to those problems. To commemorate the anniversary of the release of the 2004 health literacy report, the Institute of Medicine's Roundtable on Health Literacy convened a 1-day public workshop to assess the progress made in the field of health literacy over the past decade, the current state of the field, and the future of health literacy at the local, national, and international levels. Health Literacy: Past, Present, and Future summarizes the presentation and discussion of the workshop.
The Process of New Drug Discovery and Development presents a practical methodology for maximizing the ability of a multidisciplinary research team to discover and bring new drugs to the marketplace. It includes detailed discussions regarding the research process and presents critiques of the governmental regulatory aspects of pharmaceutical research. The author also addresses the controversy surrounding the use of animals in biomedical research and provides current information regarding the field of biotechnology, international drug research, and registration activities. The Process of New Drug Discovery and Development is an excellent "how to" text for pharmaceutical researchers, oncologists, biochemists, experimental biologists, and others involved in new drug research and development.
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.
The Future of Pharmaceutical Product Development and Research examines the latest developments in the pharmaceutical sciences, also highlighting key developments, research and future opportunities. Written by experts in the field, this volume in the Advances in Pharmaceutical Product Development and Research series deepens our understanding of the product development phase of drug discovery and drug development. Each chapter covers fundamental principles, advanced methodologies and technologies employed by pharmaceutical scientists, researchers and the pharmaceutical industry. The book focuses on excipients, radiopharmaceuticals, and how manufacturing should be conducted in an environment that follows Good Manufacturing Practice (GMP) guidelines. Researchers and students will find this book to be a comprehensive resource for those working in, and studying, pharmaceuticals, cosmetics, biotechnology, foods and related industries. Provides an overview of practical information for clinical trials Outlines how to ensure an environment that follows Good Manufacturing Practice (GMP) Examines recent developments and suggests future directions for drug production methods and techniques
Fundamentals of DRUG DEVELOPMENT Enables readers to understand the process of pharmaceutical research, its regulatory basis, and how it fits into the global healthcare environment This book discusses how to conduct pharmaceutical research and the context for how the industry fits into global healthcare. Holistically, the well-qualified author helps readers and students of drug development appreciate the time and expense of the process. Specifically, the work identifies the emerging trends shaping the future of drug development, along with important related topics like generic drugs, data sharing, and collaboration. To aid in seamless reader comprehension, the book includes a glossary of terms and a self-assessment quiz for each chapter at the end. PowerPoint slides are also available as an online ancillary for adopting professors. Sample topics covered in the book include: Drug development and its phases Decision-making processes, drug development milestones, and compound progression metrics The various disciplines involved along with an assessment of the complexity and risks associated across the stages of development Differences in the nature and scope of development programs due to the therapeutic area of interest Associated costs and resources required Graduate students and professors teaching courses in drug development, drug discovery, pharmaceuticals, medicinal chemistry, and drug synthesis will be able to use this book as a complete resource for understanding all the complexities and nuances involved in the drug development process.
Introduction to Biological and Small Molecule Drug Research and Development provides, for the first time, an introduction to the science behind successful pharmaceutical research and development programs. The book explains basic principles, then compares and contrasts approaches to both biopharmaceuticals (proteins) and small molecule drugs, presenting an overview of the business and management issues of these approaches. The latter part of the book provides carefully selected real-life case studies illustrating how the theory presented in the first part of the book is actually put into practice. Studies include Herceptin/T-DM1, erythropoietin (Epogen/Eprex/NeoRecormon), anti-HIV protease inhibitor Darunavir, and more. Introduction to Biological and Small Molecule Drug Research and Development is intended for late-stage undergraduates or postgraduates studying chemistry (at the biology interface), biochemistry, medicine, pharmacy, medicine, or allied subjects. The book is also useful in a wide variety of science degree courses, in post-graduate taught material (Masters and PhD), and as basic background reading for scientists in the pharmaceutical industry. - For the first time, the fundamental scientific principles of biopharmaceuticals and small molecule chemotherapeutics are discussed side-by-side at a basic level - Edited by three senior scientists with over 100 years of experience in drug research who have compiled the best scientific comparison of small molecule and biopharmaceuticals approaches to new drugs - Illustrated with key examples of important drugs that exemplify the basic principles of pharmaceutical drug research and development
New Drug Development: Second Edition provides an overview of the design concepts and statistical practices involved in therapeutic drug development. This wide spectrum of activities begins with identifying a potentially useful drug candidate that can perhaps be used in the treatment or prevention of a condition of clinical concern, and ends with marketing approval being granted by one or more regulatory agencies. In between, it includes drug molecule optimization, nonclinical and clinical evaluations of the drug’s safety and efficacy profiles, and manufacturing considerations. The more inclusive term lifecycle drug development can be used to encompass the postmarketing surveillance that is conducted all the time that a drug is on the market and being prescribed to patients with the relevant clinical condition. Information gathered during this time can be used to modify the drug (for example, dose prescribed, formulation, and mode of administration) in terms of its safety and its effectiveness. The central focus of the first edition of this book is captured by its subtitle, 'Design, Methodology, and Analysis'. Optimum quality study design and experimental research methodology must be employed if the data collected—numerical representations of biological information—are to be of optimum quality. Optimum quality data facilitate optimum quality statistical analysis and interpretation of the results obtained, which in turn permit optimum quality decisions to be made: Rational decision making is predicated on appropriate research questions and optimum quality numerical information. The book took a non-computational approach to statistics, presenting instead a conceptual framework and providing readers with a sound working knowledge of the importance of design, methodology, and analysis. Not everyone needs to be an expert in statistical analysis, but it is very helpful for work (or aspire to work) in the pharmaceutical and biologics industries to be aware of the fundamental importance of a sound scientific and clinical approach to the planning, conduct, and analysis of clinical trials.
Strategic planning is a critical subject, central to the success of any scientific and economical enterprise. Not only is the scientific knowledge of many persons needed, but also an assessment of what may occur in the future - which approach may be competitive, which option can be achieved, and how can this be accomplished. With a focus on the various ethical obligations to patients, animals and the environment, this book offers hands-on help on how to develop successful R&D strategies, taking special account of the needs of scientists and managers in the pharmaceutical industry. Key topics include: - evaluation and selection of projects - measures to reduce risks - project management - corporate and technology strategy - managing for innovation The reader will learn the methods needed to elaborate strategies so that he or she will become aware of the numerous managerial, organizational, social and political parameters and forces, the consideration of which is essential for the successful realization of a formulated strategy.
Based on a 2003 workshop, this study describes current public and private programs and recommends ways to recruit and retain more women and underrepresented minorities into clinical research, especially physician-scientists and nurses. Federal sponsors should improve data collection, evaluate existing training programs, and increase the diversity of study section review panels. Public and private sponsors should create funding mechanisms with flexible career paths, and universities and professional societies should both play enhanced roles in fostering diversity. A significant push is needed to recruit minorities into nursing and provide more clinical research training for nurse-scientists, nursing students, and nursing faculty.