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Cardiac Pharmacology aims to interface basic and clinical knowledge of those interventions used or being studied for use in the treatment of heart disease. The book is divided into four major sections which address intrinsic and neural control of cardiac function, pharmacologic modification of cardiac contractility and cardiac output, the genesis and control of cardiac arrhythmias, and pharmacologic manipulation of myocardial oxygen supply and demand. The last three sections contain a chapter describing the techniques employed in the study of that particular aspect of cardiac function and its alterations by pharmacologic interventions. Cardiologists, pharmacologists, physiologists, and those interested in the area of cardiovascular medicine will find the book insightful.
Current Topics in Membranes and Transport
Volume 33 reviews the current understanding of ion channel regulation by signal transduction pathways. Ion channels are no longer viewed simply as the voltage-gated resistors of biophysicists or the ligand-gated receptors of biochemists. They have been transformed during the past 20 years into signaling proteins that regulate every aspect of cell physiology. In addition to the voltage-gated channels, which provide the ionic currents to generate and spread neuronal activity, and the calcium ions to trigger synaptic transmission, hormonal secretion, and muscle contraction, new gene families of ion channel proteins regulate cell migration, cell cycle progression, apoptosis, and gene transcripti...
Proceedings of the First International Workshop held in Mar de Plata, Argentina, August 26-30, 1996
Since Paul Cranefield published his monograph, The Conduction of the Cardiac Impulse, in 1975, much has been learned about the role of the slow inward current in cardiac electrophysiology. Because of this expanse in know ledge, both basic and clinical, it appeared reasonable to review in a mono graph once again what was known. When Martinus Nijhoff first approached us to undertake the task of updating this information, we were initially reluctant for several reasons. First, we did not feel that the subject could be adequately and thoroughly reviewed, from the cell to the bedside, by a single person. Second, time constraints on all of us precluded even attempting such a task. However, we were encouraged by several of our friends (' egged on' one might even say, since they wished the job done but did not want to do it themselves!) who promised faithfully to contribute chapters on time if we accepted the task. So we did, and most of them did also.
Armed with cutting-edge techniques, biochemists have unwittingly uncovered startling molecular features inside the cell that compel only one possible conclusion--a supernatural agent must be responsible for life. Destined to be a landmark apologetic work, The Cell's Design explores the full scientific and theological impact of these discoveries. Instead of focusing on the inability of natural processes to generate life's chemical systems (as nearly all apologetics works do), Fazale Rana makes a positive case for life's supernatural basis by highlighting the many biochemical features that reflect the Creator's hallmark signature. This breakthrough work extends the case for design beyond irreducible complexity. These never-before-discussed evidences for design will evoke awe and amazement at God's creative majesty in the remarkable elegance of the cell's chemistry.
The Eleventh World Congress of the International Society for Heart Re search 1983 provided an opportunity to review some of the growing points in our knowledge of the structure and function of the myocardium. Those at the meeting will recall how London suddenly went tropical. Yet aseries of scintillating reviews held over six hundred scientists captive in the lecture halls of Imperial College. There were sessions on nuclear magnetic reso nance, the molecular basis of electrophysiology, calmodulin, protein syn thesis and degradation, oxygen free radicals, the structural components of the myocyte, sarcolemmal sodium exchange, and the influence of lipids on membranes. Here we have gathered together, as quickly as possible, a number of the presentations of the speakers invited to the symposia. They give, we believe, a striking picture ofthe diversity oftechnology and scientific enquiry which underlies this immensely active domain of modern cardiology. If only our clinical colleagues were more aware of it! Peter Harris Philip A. Poole-Wilson London v Contents Evolution, Cardiac Failure, and Water Metabolism: Presidential Address . . . . . . . . . . . . . . . . . . .
Karp’s Cell and Molecular Biology delivers a concise and illustrative narrative that helps students connect key concepts and experimentation, so they better understand how we know what we know in the world of cell biology. This classic text explores core concepts in considerable depth, often adding experimental detail. It is written in an inviting style and at mid-length, to assist students in managing the plethora of details encountered in the Cell Biology course. The 9th Edition includes two new sections and associated assessment in each chapter that show the relevance of key cell biology concepts to plant cell biology and bioengineering.
The amount of new information on the molecular biology of chloride channels has grown tremendously in recent years. This large amount of information gives some unique and, in some instances, surprising insights into the function and structure of chloride channels which are present in every cell. This volume contains a series of in-depth reviews of chloride channel physiology, biophysics, and molecular biology. The reviews cover chloride channels found in the plasma membrane as well as in organelles of both plant and animal cells.Key Features* Discusses CFTR, the cystic fibrosis transmembrane regulator, which is responsible for CF and the CIC-family of chloride channels responsible for myotonia congenita* In-depth reviews of chloride channel physiology, biophysics, and molecular biology* Reviews chloride channels found in the plasma membrane and in organelles of both plant and animal cells