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Finding the Nerve: The Story of Impedance Neurography discusses research that elucidates the nature of nerve simulation via externally applied electrical fields, and how it has led to an entirely new understanding of neuronal cell membrane biophysics and defined a novel nerve imaging technology. It details how these discoveries came about and the nature of research that derives from unexplained clinical observations. The primary technology, impedance neurography, is a wholly new way of nerve-specific visualization in 2-D or 3-D, with the ability to define both normal and abnormal functioning of nerves, heretofore unavailable from techniques such as MRI neurography. This is of particular importance with respect to the obesity epidemic where physicians performing nerve-related procedures cannot use ultrasound visualization due to the depth limitations of that technology. - Focuses on nerve stimulation mechanics and neuronal cell membrane biophysics - Defines a nerve-specific imaging technology and issues with current nerve stimulation devices - Addresses inaccuracies in the understanding of nerve stimulation and provides a new understanding of neuronal cell membrane biophysics - Provides for nerve-specific visualization in 2-D or 3-D, with the novel ability to define both normal and abnormal functioning of nerves
Nerves and Nerve Injuries is the first comprehensive work devoted to the nerves of the body. An indispensable work for anyone studying the nerves or treating patients with nerve injuries, these books will become the 'go to' resource in the field. The nerves are treated in a systematic manner, discussing details such as their anatomy (both macro- and microscopic), physiology, examination (physical and imaging), pathology, and clinical and surgical interventions. The authors contributing their expertise are international experts on the subject. The books cover topics from detailed nerve anatomy and embryology to cutting-edge knowledge related to treatment, disease and mathematical modeling of the nerves. Nerves and Nerve Injuries Volume 1 focuses on the history of nerves, embryology, anatomy, imaging, and diagnostics. This volume provides a greatly detailed overview of the anatomy of the peripheral and cranial nerves as well as comprehensive details of imaging modalities and diagnostic tests. - Detailed anatomy of the peripheral and cranial nerves including their history and ultrastructure - Comprehensive details of the imaging modalities and diagnostic tests used for viewing and investigating the nerves - Authored by leaders in the field around the globe – the broadest, most expert coverage available
Nerves and Nerve Injuries is a must-have for clinicians and researchers dealing with the Peripheral Nervous System and neuropathy. An indispensable work for anyone studying the nerves or treating patients with nerve injuries, these books will become the 'go to' resource in the field. The nerves are treated in a systematic manner, discussing details such as their anatomy (both macro- and microscopic), physiology, examination (physical and imaging), pathology, and clinical and surgical interventions. The authors contributing their expertise are international experts on the subject. The books cover topics from detailed nerve anatomy and embryology to cutting-edge knowledge related to treatment, disease and mathematical modeling of the nerves. Nerves and Nerve Injuries Volume 2 focuses on pain, treatment, injury, disease and future directions in the field. This volume also addresses new information regarding neural interfaces, stem cells, medical and surgical treatments, and medical legal issues following nerve injury. - Most up-to-date comprehensive overview available on nerves and nerve injuries - Comprehensive coverage of nerve injuries on bones, joints, muscles, and motor function; and offers an approach to the treatment of nerve injuries - Edited work with chapters authored by leaders in the field around the globe – the broadest, most expert coverage available - Covers surgical exposure of the nerves including technical aspects of nerve repair and medicinal treatment of nerve injuries - Discusses the future of our understanding of the nerves including axonal modeling, synthetic interfaces and brain changes following nerve injury
Nerves make us bomb job interviews, first dates, and SATs. With a presentation looming at work, fear robs us of sleep for days. It paralyzes seasoned concert musicians and freezes rookie cops in tight situations. And yet not everyone cracks. Soldiers keep their heads in combat; firemen rush into burning buildings; unflappable trauma doctors juggle patient after patient. It's not that these people feel no fear; often, in fact, they're riddled with it. In Nerve, Taylor Clark draws upon cutting-edge science and painstaking reporting to explore the very heart of panic and poise. Using a wide range of case studies, Clark overturns the popular myths about anxiety and fear to explain why some people thrive under pressure, while others falter-and how we can go forward with steadier nerves and increased confidence.
Clinical Anatomy of the Cranial Nerves combines anatomical knowledge, pathology, clinical examination, and explanation of clinical findings, drawing together material typically scattered throughout anatomical textbooks. All of the pertinent anatomical topics are conveniently organized to instruct on anatomy, but also on how to examine the functioning of this anatomy in the patient. Providing a clear and succinct presentation of the underlying anatomy, with directly related applications of the anatomy to clinical examination, the book also provides unique images of anatomical structures of plastinated cadaveric dissections. These images are the only ones that exist in this form, and have been professionally produced in the Laboratory of Human Anatomy, University of Glasgow under the auspices of the author. These specimens offer a novel way of visualizing the cranial nerves and related important anatomical structures. Anatomy of cranial nerves described in text format with accompanying high-resolution images of professional, high-quality prosected cadaveric material, demonstrating exactly what the structures (and related ones) look like Succinct yet comprehensive format with quick and easy access to facts in clearly laid out key regions, common throughout the different cranial nerves Includes clinical examination and related pathologies, featuring diagnostic summaries of potential clinical presentations and clinically relevant questions on the anatomy of these nerves
The New York Times bestseller is now a major motion picture starring Emma Roberts and Dave Franco, in theaters this July! A high-stakes online game of dares turns deadly When Vee is picked to be a player in NERVE, an anonymous game of dares broadcast live online, she discovers that the game knows her. They tempt her with prizes taken from her ThisIsMe page and team her up with the perfect boy, sizzling-hot Ian. At first it's exhilarating--Vee and Ian's fans cheer them on to riskier dares with higher stakes. But the game takes a twisted turn when they're directed to a secret location with five other players for the Grand Prize round. Suddenly they're playing all or nothing, with their lives on the line. Just how far will Vee go before she loses NERVE? Debut author Jeanne Ryan delivers an un-putdownable suspense thriller.
It is now about 10 years since the first edition of Nerve Cells and Nervous Systems was published. There have been many important advances across the whole field of neuro science since 1990 and it was obvious that the first edition had become much less useful than when it was published. Hence this new edition. I have attempted to keep to the aims of the first edition by presenting the general principles of neuroscience in the context of experimental evidence. As with the first edition, the selection of material to include, or exclude, has been difficult and invariably reflects my personal biases. I hope that not too many readers will be disappointed with the selections. I have unashamedly retained material, and, in particular, illustrations where I think they remain of importance to an understanding of the field and to its historical development. As before, I have attempted as reasonable a coverage as possible within the confines of a book that should be easy to carry around, to handle and, I hope, to read. The book should be useful for anyone studying the nervous system at both undergraduate and immediate postgraduate levels. In particular, under graduates reading neuroscience or any course containing a neuroscience component, such as physiology, pharmacology, biomedical sciences or psychology, as well as medicine and veterinary medicine should find the book helpful.
Depending on your point of view the brain is an organ, a machine, a biological computer, or simply the most important component of the nervous system. How does it work as a whole? What are its major parts and how are they interconnected to generate thinking, feelings, and behavior? This book surveys 2,500 years of scientific thinking about these profoundly important questions from the perspective of fundamental architectural principles, and then proposes a new model for the basic plan of neural systems organization based on an explosion of structural data emerging from the neuroanatomy revolution of the 1970's. The importance of a balance between theoretical and experimental morphology is stressed throughout the book. Great advances in understanding the brain's basic plan have come especially from two traditional lines of biological thought-- evolution and embryology, because each begins with the simple and progresses to the more complex. Understanding the organization of brain circuits, which contain thousands of links or pathways, is much more difficult. It is argued here that a four-system network model can explain the structure-function organization of the brain. Possible relationships between neural networks and gene networks revealed by the human genome project are explored in the final chapter. The book is written in clear and sparkling prose, and it is profusely illustrated. It is designed to be read by anyone with an interest in the basic organization of the brain, from neuroscience to philosophy to computer science to molecular biology. It is suitable for use in neuroscience core courses because it presents basic principles of the structure of the nervous system in a systematic way.