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The moving second novel from the author of international hit Still Alice, which explores the life of a woman struck by a brain disorder, Left Neglect 'I think some small part of me knew I was living an unsustainable life. Every now and then, it would whisper, slow down. You don't need all this.' Sarah Nickerson has it all: a high-flying career, a loving husband and children, a second home. But does she have time to enjoy it? Too busy to pay full attention, can she see what's left neglected? One fateful day while driving to work, Sarah looks away from the road for one second too long. In the blink of an eye, her overfull life comes to a screeching halt. In the wake of a devastating accident that affects her body and mind in surprising ways, it's time for her to choose: who does she really want to be?
"The brain contains ten thousand cells," wrote the poet Matthew Prior in 1718, "in each some active fancy dwells." In the seventeenth and eighteenth centuries, just as scientists began to better understand the workings of the nerves, the nervous system became the site for a series of elaborate fantasies. The pineal gland is transformed into a throne for the sovereign soul. Animal spirits march the nerves like parading soldiers. An internal archivist searches through cerebral impressions to locate certain memories. An anatomist discovers that the brain of a fashionable man is stuffed full of beautiful clothes and billet-doux. A hypochondriac worries that his own brain will be disassembled like a watch. A sentimentalist sees the entire world as a giant nervous system comprising sympathetic spectators. Nervous Fictions is the first account of the Enlightenment origins of neuroscience and the "active fancies" it generated. By surveying the work of scientists (Willis, Newton, Cheyne), philosophers (Descartes, Cavendish, Locke), satirists (Swift, Pope), and novelists (Haywood, Fielding, Sterne), Keiser shows how attempts to understand the brain’s relationship to the mind produced in turn new literary forms. Early brain anatomists turned to tropes to explicate psyche and cerebrum, just as poets and novelists found themselves exploring new kinds of mental and physical interiority. In this respect, literary language became a tool to aid scientific investigation, while science spurred literary invention.
This revised, updated Second Edition continues to give students a strong foundation in neuroanatomy as it applies to speech-language pathology and audiology. New features include: additional and revised color illustrations and tables to reinforce technical details; an expanded clinical discussion section with more case studies; and a technical glossary in the appendix. This concise, yet comprehensive, user-friendly book is the only neuroscience text that meets the educational needs of students who study communication disorders. For more information, visit http://connection.LWW.com/go/bhatnager.
Philosophers and neuroscientists address central issues in both fields, including morality, action, mental illness, consciousness, perception, and memory. Philosophers and neuroscientists grapple with the same profound questions involving consciousness, perception, behavior, and moral judgment, but only recently have the two disciplines begun to work together. This volume offers fourteen original chapters that address these issues, each written by a team that includes at least one philosopher and one neuroscientist who integrate disciplinary perspectives and reflect the latest research in both fields. Topics include morality, empathy, agency, the self, mental illness, neuroprediction, optogenetics, pain, vision, consciousness, memory, concepts, mind wandering, and the neural basis of psychological categories. The chapters first address basic issues about our social and moral lives: how we decide to act and ought to act toward each other, how we understand each other’s mental states and selves, and how we deal with pressing social problems regarding crime and mental or brain health. The following chapters consider basic issues about our mental lives: how we classify and recall what we experience, how we see and feel objects in the world, how we ponder plans and alternatives, and how our brains make us conscious and create specific mental states.
The phenomenon of confabulation--the tendency to construct plausible-sounding but false answers and believe that they are true--and what it can tell us about the human mind and human nature.
Taking up the age-old question of what our ability to tell stories reveals about language and the mind, this truly interdisciplinary project should be of interest to humanists and cognitive scientists alike.
Publisher's Note: Products purchased from 3rd Party sellers are not guaranteed by the Publisher for quality, authenticity, or access to any online entitlements included with the product. Essential Neuroscience integrates must-have neuroscience information with clinical and physiological considerations to help readers master the fundamentals of neuroscience and prepare for board and course exams. Acclaimed for its concise, clinically relevant coverage, this student-friendly book uses a stepwise approach that starts with the basic building blocks of neural anatomy and expands to cover structures and functions, the interaction of systems, and the science of clinical disorders. A well-balanced mix of anatomy, physiology, biology, and biochemistry helps students increase their conceptual understanding of the subject matter and prepare for practice. Vividly illustrated and rich with clinical case studies, summary tables, a glossary of key terms, and comprehensive USMLE-style review questions, this accessible resource fosters the understanding essential to students' success on their exams and in clinical practice. Updated coverage familiarizes you with the latest clinical practices and approaches. Full-color illustrations clarify anatomic structures and complex processes. CT images and MRIs demonstrate radiologic anatomy and present conditions in a clinically relevant context. Clinical Cases enhance your clinical application capabilities and help you confidently manage commonly encountered conditions. Chapter Outlines and Summary Tables emphasize essential content and maximize your study time. Glossary defines bolded key terms at a glance. USMLE-style Review Questions with detailed explanations challenge your understanding and prepare you to excel on course and board exams.
What if science fiction stopped being fiction? Developments in neuroscience are turning sci-fi scenarios into reality, and causing us to revisit some of the philosophical questions we have been asking ourselves for centuries. Science fiction often takes its inspiration from the latest science . . . and our oldest questions. After all, the two are inextricably linked. At a time when advances in artificial intelligence are genuinely leading us closer to a computer that thinks like a human, we can't help but wonder: What makes a person a person? Countless writers and filmmakers have created futuristic scenarios to explore this issue and others like it. But these scenarios may not be so futuristic after all. In the movie Inception, a group of conspirators implants false memories; in Until the End of the World, a mad scientist is able to read dreams; in 2001: A Space Odyssey, a supercomputer feels and thinks like a person. And in recent years, the achievements described in leading scientific journals have included some that might sound familiar: implanting memories using optogenetics, reading the mind during sleep thanks to advanced decoding algorithms, and creating a computer that uses deep neural networks to surpass the abilities of human thought. In NeuroScience Fiction, neuroscientist and author Rodrigo Quiroga reveals the futuristic present we are living in, showing how the far-out premises of 10 seminal science fiction movies are being made possible by discoveries happening right now, on the cutting edge of neuroscience. He also explores the thorny philosophical problems raised as a result, diving into Minority Report and free will, The Matrix and the illusion of reality, Blade Runner and android emotion, and more. A heady mix of science fiction, neuroscience, and philosophy, NeuroScience Fiction takes us from Vanilla Sky to neural research labs, and from Planet of the Apes to what makes us human. This is a book you'll be thinking about long after the last page—and once you've read it, you'll never watch a sci-fi blockbuster the same way again.
As the gap between science fiction and science fact has narrowed, films that were intended as pure fantasy at the time of their premier have taken on deeper meaning. This volume explores neuroscience in science fiction films, focusing on neuroscience and psychiatry as running themes in SF and finding correlations between turning points in "neuroscience fiction" and advances in the scientific field. The films covered include The Strange Case of Dr. Jekyll and Mr. Hyde, The Island of Dr. Moreau, Robocop, The Stepford Wives, The Mind Snatchers and iconic franchises like Terminator, Ironman and Planet of the Apes. Examining the parallel histories of psychiatry, neuroscience and cinema, this book shows how science fiction films offer insightful commentary on the scientific and philosophical developments of their times.
This well-established international series examines major areas of basic and clinical research within neuroscience, as well as emerging and promising subfields. This volume on the neurosciences, neurology, and literature vividly shows how science and the humanities can come together --- and have come together in the past. Its sections provide a new, broad look at these interactions, which have received surprisingly little attention in the past. Experts in the field cover literature as a window to neurological and scientific zeitgeists, theories of brain and mind in literature, famous authors and their suspected neurological disorders, and how neurological disorders and treatments have been described in literature. In addition, a myriad of other topics are covered, including some on famous authors whose important connections to the neurosciences have been overlooked (e.g., Roget, of Thesaurus fame), famous neuroscientists who should also be associated with literature, and some overlooked scientific and medical men who helped others produce great literary works (e,g., Bram Stoker's Dracula). There has not been a volume with this coverage in the past, and the connections it provides should prove fascinating to individuals in science, medicine, history, literature, and various other disciplines. This book looks at literature, medicine, and the brain sciences both historically and in the light of the newest scholarly discoveries and insights