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The fourth edition of this highly successful text has been extensively revised and restructured to take account of the many recent advances in the subject and bring it right up to date. The classic observations of recent years can now be interpreted with the powerful new techniques of molecular biology. Consequently there is much new material throughout the book, including many new illustrations and extensive references to recent work. Its essential philosophy remains the same, though: fundamental concepts are clearly explained, and key experiments are examined in some detail. This textbook will be used by students of physiology, neuroscience, cell biology and biophysics. Specializing undergraduates and graduates as well as lecturers and researchers will find the text thorough and clearly written.
This open access volume presents a novel computational framework for understanding how collections of excitable cells work. The key approach in the text is to model excitable tissue by representing the individual cells constituting the tissue. This is in stark contrast to the common approach where homogenization is used to develop models where the cells are not explicitly present. The approach allows for very detailed analysis of small collections of excitable cells, but computational challenges limit the applicability in the presence of large collections of cells.
Defines the basic concepts from biology, mathematics, physics and chemistry that are needed to understand how excitable cells function. Applies them specifically to the study of membrane transport, artificial membranes, signal capturing and analysis in biological systems.
Advances in Physiological Sciences, Volume 3: Physiology of Non-Excitable Cells is a collection of papers presented at the 28th International Congress of Physiology, held in Budapest on July 13-19, 1980. This book is organized into five parts encompassing 36 chapters that cover the various physiological aspects of non-excitable cells and neuronal membranes. The first two parts describe cellular models of iso-osmotic and epithelial transport. The third part highlights the relationship between cell transport and cellular metabolism. This part also deals with the genetic and hormonal control of cellular transport, as well as the lipoprotein synthesis and secretion by hepatocyte. The fourth part explores cell-to-cell communication through junctional membrane channels and calmodulin. The fifth part examines the temporal structure of biological systems in the sub-second time domains. This book will be of value to physiologists, cell biologists, researchers, and biology students.
Calcium Entry Channels in Non-Excitable Cells focuses on methods of investigating the structure and function of non-voltage gated calcium channels. Each chapter presents important discoveries in calcium entry pathways, specifically dealing with the molecular identification of store-operated calcium channels which were reviewed by earlier volumes in the Methods in Signal Transduction series. Crystallographic and pharmacological approaches to the study of calcium channels of epithelial cells are also discussed. Calcium ion is a messenger in most cell types. Whereas voltage gated calcium channels have been studied extensively, the non-voltage gated calcium entry channel genes have only been identified relatively recently. The book will fill this important niche.
What every neuroscientist should know about the mathematical modeling of excitable cells, presented at an introductory level.
Quantitative Human Physiology: An Introduction, winner of a 2018 Textbook Excellence Award (Texty), is the first text to meet the needs of the undergraduate bioengineering student who is being exposed to physiology for the first time, but requires a more analytical/quantitative approach. This book explores how component behavior produces system behavior in physiological systems. Through text explanation, figures, and equations, it provides the engineering student with a basic understanding of physiological principles with an emphasis on quantitative aspects. Winner of a 2018 Textbook Excellence Award (College) (Texty) from the Textbook and Academic Authors Association Features a quantitative approach that includes physical and chemical principles Provides a more integrated approach from first principles, integrating anatomy, molecular biology, biochemistry and physiology Includes clinical applications relevant to the biomedical engineering student (TENS, cochlear implants, blood substitutes, etc.) Integrates labs and problem sets to provide opportunities for practice and assessment throughout the course NEW FOR THE SECOND EDITION Expansion of many sections to include relevant information Addition of many new figures and re-drawing of other figures to update understanding and clarify difficult areas Substantial updating of the text to reflect newer research results Addition of several new appendices including statistics, nomenclature of transport carriers, and structural biology of important items such as the neuromuscular junction and calcium release unit Addition of new problems within the problem sets Addition of commentary to power point presentations