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Pharmacogenetics, Kinetics, and Dynamics for Personalized Medicine provides a primer to understand pharmacogenetics (the study of genetic factors that influence how a drug works) in the applied context of pharmacokinetics (how the body handles a drug) and pharmacodynamics (the effects of a drug on the body). This valuable foundation illuminates how these principles and scientific advances can create optimal individual patient care, that is, "personalized medicine." Through specific drug examples, this resource explores how the genetic constitution of an individual may lead to the need for an altered dose or in some cases alternative drug therapy. Real-world cases highlight the specific relationships between genetics, drug action, and the body's response as well as adverse drug reactions, altered metabolism, and drug efficacy. Ethical issues concerning pharmacogenomics and study design are also discussed in this concise overview.
Pharmacogenetics, Kinetics, And Dynamics For Personalized Medicine Provides A Primer To Understand Pharmacogenetics (The Study Of Genetic Factors That Influence How A Drug Works) In The Applied Context Of Pharmacokinetics (How The Body Handles A Drug) And Pharmacodynamics (The Effects Of A Drug On The Body). This Valuable Foundation Illuminates How These Principles And Scientific Advances Can Create Optimal Individual Patient Care, That Is, "Personalized Medicine." Through Specific Drug Examples, This Resource Explores How The Genetic Constitution Of An Individual May Lead To The Need For An Altered Dose Or In Some Cases Alternative Drug Therapy. Real-World Cases Highlight The Specific Relationships Between Genetics, Drug Action, And The Body'S Response As Well As Adverse Drug Reactions, Altered Metabolism, And Drug Efficacy. Ethical Issues Concerning Pharmacogenomics And Study Design Are Also Discussed In This Concise Overview.
“Omics for Personalized Medicine” will give to its prospective readers the insight of both the current developments and the future potential of personalized medicine. The book brings into light how the pharmacogenomics and omics technologies are bringing a revolution in transforming the medicine and the health care sector for the better. Students of biomedical research and medicine along with medical professionals will benefit tremendously from the book by gaining from the diverse fields of knowledge of new age personalized medicine presented in the highly detailed chapters of the book. The book chapters are divided into two sections for convenient reading with the first section covering the general aspects of pharmaocogenomic technology that includes latest research and development in omics technologies. The first section also highlights the role of omics in modern clinical trials and even discusses the ethical consideration in pharmocogenomics. The second section is focusing on the development of personalized medicine in several areas of human health. The topics covered range from metabolic and neurological disorders to non-communicable as well as infectious diseases, and even explores the role of pharmacogenomics in cell therapy and transplantation technology. Thirty-four chapters of the book cover several aspects of pharmacogenomics and personalized medicine and have taken into consideration the varied interest of the readers from different fields of biomedical research and medicine. Advent of pharmacogenomics is the future of modern medicine, which has resulted from culmination of decades of research and now is showing the way forward. The book is an honest endeavour of researchers from all over the world to disseminate the latest knowledge and knowhow in personalized medicine to the community health researchers in particular and the educated public in general.
This book compiles multidisciplinary efforts to conceptualize the environment in research and clinical setting that creates the fertile ground for the practical utility of personalized medicine decisions and also enables clinical pharmacogenomics for establishing pharmacotyping in drug prescription. Its covers innovative drug formulations and nanotheranostics, molecular imaging and signatures, translational nanomedicine and informatics, stem cell therapy approaches, modeling and predictability of drug response, pharmacogenetics-guided drug prescription, pediatric drug dosing, pharmacovigilance and regulatory aspects, ethical and cost-effectiveness issues, pharmacogenomics knowledge bases, personal genome sequencing, molecular diagnostics, as well as information-based medicine.
Get an invaluable view of the impact of economics and politics on pharmaceuticals in the United States Pharmacy and pharmaceutical drug use are highly regulated and the various regulatory forces interact with diverse goals. Pharmaceutical Public Policy is a comprehensive review of the legislation, trends, business developments, and policy interpretations that have shaped drug use during the last 50 years. This unique single source explains drug regulatory activity, the major insurance and payment systems, and the impact of economics and politics on drug use in the United States. Leading experts provide a thorough and objective look at public policy issues, making this text perfect for upper level undergraduate and graduate level pharmacy, medical, and public health educators and students. Pharmacists and pharmacy students must learn more than just the physical sciences and clinical aspects of the pharmaceutical industry. The rationale for policies, rules, and regulations is integral to understanding how to best serve patients and make the entire pharmaceutical sector more equitable and cost-effective. Pharmaceutical Public Policy examines the most pressing issues facing the industry, including control of the rising costs for drugs and ensuring correct drug usage by patients. This insightful text offers an in depth perspective of the policies and the debates that surround them. Chapters are well-referenced and many include helpful figures and tables to illustrate facts and ideas. Topics in Pharmaceutical Public Policy include: pharmacy law and regulation Medicare and prescription drug coverage FDA drug approval process Medicaid and prescription drugs public health pharmacy Department of Veterans Affairs pharmacy programs Department of Defense pharmacy programs innovative state drug program practices state and federal regulation of pharmacy the future of the pharmaceutical industry managed care pharmacy PBM’s (pharmacy benefit managers) risk minimization importation and reimportation biotechnology and pharmacogenetics policy and issues product promotion competition between drugs drug insurance design patient compliance abuse of prescription drugs health care systems and insurance in Europe much more Pharmaceutical Public Policy is a one-of-a-kind resource that explains just who the players are and the complexity of the issues that are examined in most pharmaceutical policy debates, and is perfect for pharmacy students, educators, other health professionals, trade association leaders, and policymakers.
The essential guide to more than 450 of the most commonly performed diagnostic tests – updated with the latest molecular, genetic, and microbiological tests A Doody's Core Title for 2019! Guide to Diagnostic Tests, Seventh Edition is a concise guide to the selection and interpretation of more than 450 of the laboratory and microbiology tests most relevant to the general practice of medicine. This on-the-spot clinical companion also includes coverage of diagnostic imaging, electrocardiology, echocardiography, and the use of tests in differential diagnosis. Features: • Covers areas of internal medicine, pediatrics, surgery, neurology, and obstetrics and gynecology • Over 25 new or substantially revised laboratory tests • New and updated coverage of emerging and re-emerging pathogens and infectious agents,including the Zika and Ebola viruses • Updated material on molecular and genetic tests, including pharmacogenetics tests • An entire section of diagnostic algorithms • Full literature citations with PubMed identification (PMID) numbers included for each reference • Details costs and risks of various procedures and tests • Full section on electrocardiography and echocardiography If you’ve been looking for an authoritative, up-to-date, and easy-to-carry guide to the latest diagnostic testing procedures, your search ends here.
Updated with new chapters and topics, this book provides a comprehensive description of all essential topics in contemporary pharmacokinetics and pharmacodynamics. It also features interactive computer simulations for students to experiment and observe PK/PD models in action. • Presents the essentials of pharmacokinetics and pharmacodynamics in a clear and progressive manner • Helps students better appreciate important concepts and gain a greater understanding of the mechanism of action of drugs by reinforcing practical applications in both the book and the computer modules • Features interactive computer simulations, available online through a companion website at: https://web.uri.edu/pharmacy/research/rosenbaum/sims/ • Adds new chapters on physiologically based pharmacokinetic models, predicting drug-drug interactions, and pharmacogenetics while also strengthening original chapters to better prepare students for more advanced applications • Reviews of the 1st edition: “This is an ideal textbook for those starting out ... and also for use as a reference book ...." (International Society for the Study of Xenobiotics) and “I could recommend Rosenbaum’s book for pharmacology students because it is written from a perspective of drug action . . . Overall, this is a well-written introduction to PK/PD .... “ (British Toxicology Society Newsletter)
Everything a student needs to know about medical genetics is here in the 15th edition of this award-winning textbook. Thoroughly updated and revised throughout to map a fast-moving area, the 15th edition continues Emery's enviable reputation for successfully balancing up-to-dateness in a rapidly developing field with a strong basis in practical clinical genetics for medical students. With MCQs and Case-Based Review Questions, end of chapter summaries, it is the essential tool for this complex but foundational topic for all medical undergraduates, as well as postgraduates seeking to improve their understanding and knowledge. Divided into three restructured sections to make the book easier to use for a variety of readers: Scientific Basis of Human Genetics; Genetics in Medicine and Genomic Medicine; Clinical Genetics, Counselling and Ethics •Interactive self-assessment questions •Case-based questions •Online hyperlinks to important genetics websites and clinical databases. •Update of clinical figures to include more full-colour images •An extensive glossary of terms •Full colour art to visualise the appearance of genetic disorders and assist with the understanding of complex genetic structures •Explore the social, ethical and counselling issues surrounding the study and treatment of genetic disorders. •Elements boxes at the end of each chapter summarizing the basics at a glance.
Absorption, Distribution, Metabolism and Excretion (ADME) processes and their relationship with the design of dosage forms and the success of pharmacotherapy form the basis of this upper level undergraduate/graduate textbook. As an introduction oriented to pharmacy students, it is also written for scientist from different fields outside of pharmaceutics. (e.g. material scientist, material engineers, medicinal chemists) who might be working in a positions in pharmaceutical companies or whose work might benefit from basic training in the ADME concepts and some biological background. Pedagogical features such as objectives, keywords, discussion questions, summaries and case studies add valuable teaching tools. This book will provide not only general knowledge on ADME processes but also an updated insight on some hot topics such as drug transporters, multi-drug resistance related to pharmacokinetic phenomena, last generation pharmaceutical carriers (nanopharmaceuticals), in vitro and in vivo bioequivalence studies, biopharmaceuticals, pharmacogenomics, drug-drug and food-drug interactions, and in silico and in vitro prediction of ADME properties. In comparison with other similar textbooks, around half of the volume would be focused on the relationship between expanding scientific fields and ADME processes. Each of these burgeoning fields has a separate chapter in the second part of the volume, and was written with leading experts on the correspondent topic, including scientists and academics from USA and UK (Duquesne University School of Pharmacy, Indiana University School of Medicine, University of Utah College of Pharmacy, University of Maryland, University of Bath). Additionally, each of the initial chapters dealing with the generalities of drug absorption, distribution, metabolism and excretion would include relevant, classic examples related to each topic with appropriate illustrations (e.g. importance of active absorption of levodopa, implications in levodopa administration, drug drug interactions and food drug interactions emerging from the active uptake; intoxication with paracetamol as a result of glutathione depletion, CYP induction and its relationship with acute liver failure caused by paracetamol, etc). ADME Processes and Pharmaceutical Sciences is written as a core textbook for ADME processes, pharmacy, pharmacokinetics, drug delivery, biopharmaceutics, drug disposition, drug design and medicinal chemistry courses.
Right before the COVID-19 pandemic declared by the World Health Organization (WHO), life sciences have incited novel areas of studies that revolutionize the health sector. They are the studies of structural bioinformatics, pharmacogenomics, and metabolomics. The structural bioinformatics field is the very foundation of drug design research, as it provides insight into the molecular simulations and interactions between the biomolecules and the drug candidates. Secondly, pharmacogenomics is the starting point of any efforts in developing personalized medicine. Lastly, metabolomics provides instrumentation to elicit biomarkers for various diseases and health conditions. These studies have enabled current accelerated effort in COVID-19 research, as well as other communicable and non-communicable diseases.