About this product: An exceptionally lucid guide to the latest immunology concepts! Through five best-selling editions, readers worldwide have appreciated this book's in-depth yet straightforward, richly illustrated approach to this complex subject. Now, sweeping updates incorporate the latest discoveries about innate immunity, the organization of lymphoid organs, and many other cutting-edge topics. Plus, online access via STUDENT CONSULT makes this an even more powerful learning resource!
Clearly explains the experimental observations that form the basis for the science of immunology at the molecular, cellular, and whole-organism levels-and the conclusions that can be drawn from those observations.
Highlights the implications of immunologic science for the management of human disease, emphasizing the clinical relevance of the material.
Innate immunity chapter has been increased and moved to the beginning of the book to reflect how this area is newly recognized as a critical part of immunology.
New material has been added on: - recognition of microbial products by cytoplasmic and membrane sensors - intricate organization of lymphoid tissues - functional heterogeneity of subsets of dendritic cells and lymphocytes - roles of regulatory cells and inhibitory pathways in immune regulation.
Provides a wealth of excellent full-color photographs and illustrations that enable you to visualize immunologic processes quickly.
Includes highlighted "take-home messages" that make it easy to review key information.
About this product: Cellular Physiology of Nerve and Muscle, Fourth Edition offers a state of the art introduction to the basic physical, electrical and chemical principles central to the function of nerve and muscle cells. The text begins with an overview of the origin of electrical membrane potential, then clearly illustrates the cellular physiology of nerve cells and muscle cells. Throughout, this new edition simplifies difficult concepts with accessible models and straightforward descriptions of experimental results.
An all-new introduction to electrical signaling in the nervous system.
Expanded coverage of synaptic transmission and synaptic plasticity.
A quantitative overview of the electrical properties of cells.
About this product: Cellular Signal Processing presents the essential concepts underlying cell signaling. It is based on a unifying principle that traces cell signaling to biochemical switching reactions that link protein-protein interactions with energy production. Designed for use by undergraduate and graduate students in cell biology, biochemistry, and pharmacology courses, as well as medical students, it examines the cell as a data processing unit in which the proteins form an extremely complex and ever-changing network of interactions. The book emphasizes the evolutionary aspects of cell signaling and illuminates the analogies in communication among cellular, neuronal, and data-processing mechanisms. Features include a unique chapter on prokaryotic signal processing, discussion of the clinical aspects of cell signaling in health and disease, and an illustration program that highlights the major concepts.
About this product: Cellular solids include engineering honeycombs and foams (which can now be made from polymers, metals, ceramics, and composites) as well as natural materials, such as wood, cork, and cancellous bone. This new edition of a classic work details current understanding of the structure and mechanical behavior of cellular materials, and the ways in which they can be exploited in engineering design. Gibson and Ashby have brought the book completely up to date, including new work on processing of metallic and ceramic foams and on the mechanical, electrical and acoustic properties of cellular solids. Data for commercially available foams are presented on material property charts; two new case studies show how the charts are used for selection of foams in engineering design. Over 150 references appearing in the literature since the publication of the first edition are cited. It will be of interest to graduate students and researchers in materials science and engineering.
About this product: Although I have been nebulously aware of the term "Cellular Automata" for about 25 years, it was not until I read the book Cellular Automata that I really understood what it entails. As a result, I have become enamored with the field and its mathematical elegance. It is unfortunate for this fascinating field of study, that it is called Cellular Automata -- a marketing disaster if you ask me.
Though Cellular Automata probably has a strict definition, you can think of it as how simple rules governing a cell (or a neuron or an ant or whatever) through time can give rise to complex ordered systems. People often think that there's some intelligent design behind the complexity we see in nature, but as this book demonstrates, all it takes is a few simple rules about what happens in a local neighborhood to give rise to systems that order themselves into amazing complexity.
The book is a comprehensive survey of the history and current state of Cellular Automata. I wish I had the time to follow through on the amazing panoply of interesting paths, papers, web sites and ideas presented to the reader, but this could easily require a lifetime of study (and computer time).
In spite of having no background in Cellular Automata, I found this book to be extremely accessible and clearly written with many illustrative examples. I read the book cover-to-cover and understood it all, which for a textbook is really saying something. For the layman, it helps to have a strong mathematical background as well as a keen interest in number theory, but none of this is necessary. One of the nice things about this book is that if for some reason you don't understand a topic such as say, the Sierpinski Triangle, the rest of the book is not predicated upon it, even if it is called back on occasion.
The only possible issue I had with the text is that complex theoretical concepts were on rare occasion difficult to follow. Such concepts were introduced in order to give readers a complete primer on the current state of CA research, but the reader has to trust that the results are as stated in the book, and that an army of Grad Students carried out all the dirty work. Step-by-step implementation is (and should be) beyond the scope of the text, although for math weenies like myself, it may have clarified certain concepts.
About this product: Cellular Biophysics is a quantitatively oriented basic physiology text for senior undergraduate and graduate students in bioengineering, biophysics, physiology, and neuroscience programs. It will also serve as a major reference work for biophysicists.
Developed from the author's notes for a course that he has taught at MIT for many years, these books provide a clear and logical explanation of the foundations of cell biophysics, teaching transport and the electrical properties of cells from a combined biological, physical, and engineering viewpoint.
Each volume contains introductory chapters that motivate the material and present it in a broad historical context. Important experimental results and methods are described. Theories are derived almost always from first principles so that students develop an understanding of not only the predictions of the theory but also its limitations. Theoretical results are compared carefully with experimental findings and new results appear throughout. There are many time-tested exercises and problems as well as extensive lists of references.
The volume on the electrical properties of cells covers both electrically inexcitable cells as well as electrically excitable cells such as neurons and muscle cells. Included are chapters on lumped-parameter and distributed-parameter models of cells, linear electric properties of cells, the Hodgkin-Huxley model of the giant axon of the squid, saltatory conduction in myelinated nerve fibers, and voltage-gated ion channels.
About this product: Chronic fatigue syndrome and fibromyalgia have severe and sometimes disabling symptoms, yet the affected patient looks well. In this book a mechanism is presented arguing that these illnesses are defined by decreased cellular energy production. This is not a book that describes the signs and symptoms of the illnesses; it is a book that explores mechanisms that lie beneath the complex symptom patterns. Dr. David Bell is a well recognized expert in chronic fatigue syndrome. He is the author of several books and was chairman of the Department of Health and Human Services Chronic Fatigue Syndrome Advisory Committee.
About this product: As urban planning moves from a centralized, top-down approach to a decentralized, bottom-up perspective, our conception of urban systems is changing. In Cities and Complexity, Michael Batty offers a comprehensive view of urban dynamics in the context of complexity theory, presenting models that demonstrate how complexity theory can embrace a myriad of processes and elements that combine into organic wholes. He argues that bottom-up processes—in which the outcomes are always uncertain—can combine with new forms of geometry associated with fractal patterns and chaotic dynamics to provide theories that are applicable to highly complex systems such as cities.
Batty begins with models based on cellular automata (CA), simulating urban dynamics through the local actions of automata. He then introduces agent-based models (ABM), in which agents are mobile and move between locations. These models relate to many scales, from the scale of the street to patterns and structure at the scale of the urban region. Finally, Batty develops applications of all these models to specific urban situations, discussing concepts of criticality, threshold, surprise, novelty, and phase transition in the context of spatial developments. Every theory and model presented in the book is developed through examples that range from the simplified and hypothetical to the actual. Deploying extensive visual, mathematical, and textual material, Cities and Complexity will be read both by urban researchers and by complexity theorists with an interest in new kinds of computational models.
Sample chapters and examples from the book, and other related material, can be found at http://www.complexcity.info.
About this product: Cellular Cleansing has become a buzzword in our culture, and the reason is simple: there is no more powerful way to improve your health than through a nutritional cleansing program. Nothing comes close?not drugs, surgery, vitamin pills? to its potential for cellular repair.
Cellular cleansing is a method of using certain nutrition and lifestyle guidelines that have been found to be effective for flushing the body of built-up toxins. This is done through a twofold process. First, you intentionally minimize certain foods, habits, and influences for a designated period of time. Second, you intentionally bring in foods, habits and techniques that are well known to help cleanse, nourish and regenerate the body.
Why this book?
-- It's written in an easy, fun, funny and convincing style that makes you want to go out and experience the results yourself.
-- The cleansing program is easy and flexible. You are never hungry, and it fits into your lifestyle.
-- A new cleanse starts fresh each month, on the morning of the 1st, and then ends on the evening of the 28th, each and every month. Read the book: when you are ready, so is the next cleansing program.
-- You don't do the program alone. There are hundreds of others participating in the cleanse during the same month. Online support and the Cleansing Forum allow you to interact with cleansing participants during and after your cleanse.
About this product: This comprehensive work discusses novel biomolecular surfaces that have been engineered to either control or measure cell function at the atomic, molecular, and cellular levels. Each chapter presents real results, concepts, and expert perspectives of how cells interact with biomolecular surfaces, with particular emphasis on interactions within complex mechanical environments such as in the cardiovascular system. In addition, the book provides detailed coverage of inflammation and cellular immune response as a useful model for how engineering concepts and tools may be effectively applied to complex systems in biomedicine.
-Accessible to biologists looking for new ways to model their results and engineers interested in biomedical applications -Useful to researchers in biomaterials, inflammation, and vascular biology -Excellent resource for graduate students as a textbook in cell & tissue engineering or cell mechanics courses
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