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This Research Topic is part of the Methods and Applications in Physiology series. Other titles in this series are: • Methods and Applications in Aquatic Physiology • Methods and Applications in Clinical and Translational Physiology • Methods and Applications in Computational Physiology and Medicine • Methods and Applications in Environmental, Aviation and Space Physiology • Methods and Applications in Exercise Physiology • Methods and Applications in Fractal Physiology • Methods and Applications in Invertebrate Physiology • Methods and Applications in Metabolic Physiology • Methods and Applications in Physio-logging • Methods and Applications in Striated Muscle Physiology • Methods and Applications in Respiratory Physiology • Methods and Applications in Vascular Physiology • New Methods for Red Blood Cell Research and Diagnosis, Volume II • Combining Computational and Experimental Approaches to Characterize Ion Channels and Transporters
Edited by physiology instructors who are also active clinicians, Integrated Physiology and Pathophysiology is a one-stop guide to key information you need for early clinical and medical training and practice. This unique, integrated textbook unites these two essential disciplines and focuses on the most relevant aspects for clinical application. A concise, review-like format, tables and diagrams, spaced repetition for effective learning, and self-assessment features help you gain and retain a firm understanding of basic physiology and pathophysiology. Integrated Physiology and Pathophysiology works equally well as a great starting point in your studies and as a review for boards. - Shares the knowledge and expertise of an outstanding editorial team consisting of two practicing clinicians who also teach physiology and pathophysiology at Harvard Medical School, plus a top Harvard medical student. - Provides an integrated approach to physiology and pathophysiology in a concise, bulleted format. Chapters are short and focus on clinically relevant, foundational concepts in clear, simple language. - Employs focused repetition of key points, helping you quickly recall core concepts such as pressure-flow-resistance relationships, ion gradients and action potentials, and mass balance. You'll revisit these concepts in a variety of meaningful clinical contexts in different chapters; this "spaced learning" method of reinforcement promotes deeper and more flexible understanding and application. - Includes Fast Facts boxes that emphasize take-home messages or definitions. - Contains Integration boxes that link physiology and pathophysiology to pharmacology, genetics, and other related sciences. - Presents clinical cases and with signs and symptoms, history, and laboratory data that bring pathophysiology to life. - Features end-of-chapter board-type questions, complete with clear explanations of the answers, to help prepare you for standardized exams. - Evolve Instructor site with an image and test bank as well as PowerPoint slides is available to instructors through their Elsevier sales rep or via request at https://evolve.elsevier.com.
"Human anatomy and physiology is a fascinating subject. However, students can be overwhelmed by the complexity, the interrelatedness of concepts from different chapters, and the massive amount of material in the course. Our goal was to create a textbook to guide students on a clearly written and expertly illustrated beginner's path through the human body. An Integrative Approach One of the most daunting challenges that students face in mastering concepts in an anatomy and physiology course is integrating related content from numerous chapters. Understanding a topic like blood pressure, for example, requires knowledge from the chapters on the heart, blood vessels, kidneys, and how these structures are regulated by the nervous and endocrine systems. The usefulness of a human anatomy and physiology text is dependent in part on how successfully it helps students integrate these related concepts. Without this, students are only acquiring what seems like unrelated facts without seeing how they fit into the whole. To adequately explain such complex concepts to beginning students in our own classrooms, we as teachers present multiple topics over the course of many class periods, all the while balancing these detailed explanations with refreshers of content previously covered and intermittent glimpses of the big picture. Doing so ensures that students learn not only the individual pieces, but also how the pieces ultimately fit together. This book represents our best effort to replicate this teaching process. In fact, it is the effective integration of concepts throughout the text that makes this book truly unique from other undergraduate anatomy and physiology texts"--
Modelling Methodology for Physiology and Medicine offers a unique approach and an unprecedented range of coverage of the state-of-the-art, advanced modelling methodology that is widely applicable to physiology and medicine. The book opens with a clear and integrated treatment of advanced methodology for developing mathematical models of physiology and medical systems. Readers are then shown how to apply this methodology beneficially to real-world problems in physiology and medicine, such as circulation and respiration. - Builds upon and enhances the readers existing knowledge of modelling methodology and practice - Editors are internationally renowned leaders in their respective fields
Designed to serve as a primary reference source for researchers and students interested in expanding their research to consider a biopsychosocial approach, this book provides a thorough, state-of-the-art, and user-friendly coverage of basic techniques for measurement of physiological variables in health psychology research.
Integrative Omics: Concepts, Methodology and Applications provides a holistic and integrated view of defining and applying network approaches, integrative tools, and methods to solve problems for the rationalization of genotype to phenotype relationships. The reference includes a range of chapters in a systemic 'step by step' manner, which begins with the basic concepts from Omic to Multi Integrative Omics approaches, followed by their full range of approaches, applications, emerging trends, and future trends. All key areas of Omics are covered including biological databases, sequence alignment, pharmacogenomics, nutrigenomics and microbial omics, integrated omics for Food Science and Identification of genes associated with disease, clinical data integration and data warehousing, translational omics as well as omics technology policy and society research. Integrative Omics: Concepts, Methodology and Applications highlights the recent concepts, methodologies, advancements in technologies and is also well-suited for researchers from both academic and industry background, undergraduate and graduate students who are mainly working in the area of computational systems biology, integrative omics and translational science. The book bridges the gap between biological sciences, physical sciences, computer science, statistics, data science, information technology and mathematics by presenting content specifically dedicated to mathematical models of biological systems. - Provides a holistic, integrated view of a defining and applying network approach, integrative tools, and methods to solve problems for rationalization of genotype to phenotype relationships - Offers an interdisciplinary approach to Databases, data analytics techniques, biological tools, network construction, analysis, modeling, prediction and simulation of biological systems leading to 'translational research', i.e., drug discovery, drug target prediction, and precision medicine - Covers worldwide methods, concepts, databases, and tools used in the construction of integrated pathways
This volume synthesizes theoretical and practical aspects of both the mathematical and life science viewpoints needed for modeling of the cardiovascular-respiratory system specifically and physiological systems generally. Theoretical points include model design, model complexity and validation in the light of available data, as well as control theory approaches to feedback delay and Kalman filter applications to parameter identification. State of the art approaches using parameter sensitivity are discussed for enhancing model identifiability through joint analysis of model structure and data. Practical examples illustrate model development at various levels of complexity based on given physiological information. The sensitivity-based approaches for examining model identifiability are illustrated by means of specific modeling examples. The themes presented address the current problem of patient-specific model adaptation in the clinical setting, where data is typically limited.
The past decade has seen the field of proteomics expand from a highly technical endeavor to a widely utilized technique. The objective of this book is to highlight the ways in which proteomics is currently being employed to address issues in the biological sciences. Although there have been significant advances in techniques involving the utilization of proteomics in biology, fundamental approaches involving basic sample visualization and protein identification still represent the principle techniques used by the vast majority of researchers to solve problems in biology. The work presented in this book extends from overviews of proteomics in specific biological subject areas to novel studies that have employed a proteomics-based approach. Collectively they demonstrate the power of established and developing proteomic techniques to characterize complex biological systems.