Five cutting-edge scientists compete for $100 million and control of a new institute dedicated to eradicating Alzheimer’s in this edifying, Da Vinci Code-esque thriller. Spurred by his wife’s Alzheimer’s diagnosis and disenchanted with the slow progress in finding a cure, a rich Swiss businessman launches a contest for promising young neuroscientists who can think “outside the box.” Chosen for their scientific excellence and originality, they must travel throughout Europe in search of the answers to five fiendishly difficult riddles, each combining an enigmatic neuroscientific question with a geographical and historical challenge. As their personal stories unfold, the competitors share their moments of elation and disappointment when they solve a riddle or reach a dead end. Soon a conspiracy materializes to threaten and endanger the scientists, which at first seems random, but then becomes increasingly deliberate and targeted. The nature of the riddles and the talents of the competitors open a world of discovery for us too as we learn about some of the most pressing areas in current brain research, such as neurodegenerative diseases, stem cell grafts, artificial intelligence, drug addiction, genetics, and the mechanisms of memory. And as the candidates visit some of the great European cities—Prague, Vienna, Cordoba, Cambridge, Geneva, Venice—we also experience their beauty and intrigue.
Freud hoped that the neurosciences would offer support for his psychoanalysis theories at some point in the future: both disciplines, after all, agree that experience leaves traces in the mind. This book delivers a bridge between the neurosciences and psychoanalysis.
This groundbreaking book delivers a much needed bridge between the neurosciences and psychoanalysis. Freud hoped that the neurosciences would offer support for his psychoanalysis theories at some point in the future: both disciplines, after all, agree that experience leaves traces in the mind. But even today, as we enter the twenty-first century, all too many scientists and analysts maintain that each side has wholly different models of the origin and nature of those traces. What constitutes human experience, how does this experience shape us, and how, if at all, do we change our lives? Psychoanalysis and the neurosciences have failed to communicate about these questions, when they have not been frankly antagonistic. But, in Biology of Freedom, Francois Ansermet and Pierre Magistretti are at last breaking new ground. This fully illustrated account, rigorous yet lucid and entirely accessible, shows how the plasticity of the brain's neural network allows for successive inscriptions, transcriptions, and retranscriptions of experience, leading to the constitution of an inner reality, an unconscious psychic life unique to each individual.
Glial cells play an essential role in initiating and controlling our behaviours, playing a major role in communication between brain cells. They share certain properties with neurons, including the ability to use information from the environment to formulate behaviors. Understanding these cells is key to explaining human movement, emotion, and thoughts. Moreover, glial cells provide a panoply of new therapeutic targets for the treatment of neuropsychiatric disorders. This book is the 'brain' child of two scientist physicians: Pierre Magistretti, a leading expert in cerebral metabolism and glial cell biology, and Yves Agid, an expert in the treatment of nervous system diseases and a researcher in the field of neurodegenerative diseases. This book provides many examples of the decisive role glial cells play in the functioning of the human brain, as well as in neurological and psychiatric pathologies. The result is a revolution in our understanding of the brain and a beacon of hope in the treatment of neuropsychiatric disorders.
Memory traces can become labile when retrieved. This has intrigued not only neuroscientists, psychologists, and cognitive scientists but also clinicians who work with memories to treat psychopathologies, such as psychotherapists and psychoanalysts. Psychotherapists and psychoanalysts question whether the treatments based on re-evoking memories engage reconsolidation and how treatments may work and be effective with reconsolidation processes. However, reconsolidation may not easily occur in older or very strong, consolidated memories, which are, in fact, those deeply rooted in most maladaptive behaviors, and most animal reconsolidation studies have been done on memories that are only days old. Hence, the questions deepen into many more complex layers, asking the following: How are memories formed and retrieved and in part become unconscious? How does retrieval in a therapeutic setting change those traces? Here, we propose some hypotheses based on neuroscientific knowledge to begin explaining the bases of Freudian unconscious and speculate on how memory traces and Freudian unconscious intersect.
Five cutting-edge scientists compete for $100 million and control of a new institute dedicated to eradicating Alzheimer’s in this edifying, Da Vinci Code-esque thriller. Spurred by his wife’s Alzheimer’s diagnosis and disenchanted with the slow progress in finding a cure, a rich Swiss businessman launches a contest for promising young neuroscientists who can think “outside the box.” Chosen for their scientific excellence and originality, they must travel throughout Europe in search of the answers to five fiendishly difficult riddles, each combining an enigmatic neuroscientific question with a geographical and historical challenge. As their personal stories unfold, the competitors share their moments of elation and disappointment when they solve a riddle or reach a dead end. Soon a conspiracy materializes to threaten and endanger the scientists, which at first seems random, but then becomes increasingly deliberate and targeted. The nature of the riddles and the talents of the competitors open a world of discovery for us too as we learn about some of the most pressing areas in current brain research, such as neurodegenerative diseases, stem cell grafts, artificial intelligence, drug addiction, genetics, and the mechanisms of memory. And as the candidates visit some of the great European cities—Prague, Vienna, Cordoba, Cambridge, Geneva, Venice—we also experience their beauty and intrigue.
Glial cells play an essential role in initiating and controlling our behaviours, playing a major role in communication between brain cells. They share certain properties with neurons, including the ability to use information from the environment to formulate behaviors. Understanding these cells is key to explaining human movement, emotion, and thoughts. Moreover, glial cells provide a panoply of new therapeutic targets for the treatment of neuropsychiatric disorders. This book is the 'brain' child of two scientist physicians: Pierre Magistretti, a leading expert in cerebral metabolism and glial cell biology, and Yves Agid, an expert in the treatment of nervous system diseases and a researcher in the field of neurodegenerative diseases. This book provides many examples of the decisive role glial cells play in the functioning of the human brain, as well as in neurological and psychiatric pathologies. The result is a revolution in our understanding of the brain and a beacon of hope in the treatment of neuropsychiatric disorders.
This groundbreaking book delivers a much needed bridge between the neurosciences and psychoanalysis. Freud hoped that the neurosciences would offer support for his psychoanalysis theories at some point in the future: both disciplines, after all, agree that experience leaves traces in the mind. But even today, as we enter the twenty-first century, all too many scientists and analysts maintain that each side has wholly different models of the origin and nature of those traces. What constitutes human experience, how does this experience shape us, and how, if at all, do we change our lives? Psychoanalysis and the neurosciences have failed to communicate about these questions, when they have not been frankly antagonistic. But, in Biology of Freedom, Francois Ansermet and Pierre Magistretti are at last breaking new ground. This fully illustrated account, rigorous yet lucid and entirely accessible, shows how the plasticity of the brain's neural network allows for successive inscriptions, transcriptions, and retranscriptions of experience, leading to the constitution of an inner reality, an unconscious psychic life unique to each individual.
Memory traces can become labile when retrieved. This has intrigued not only neuroscientists, psychologists, and cognitive scientists but also clinicians who work with memories to treat psychopathologies, such as psychotherapists and psychoanalysts. Psychotherapists and psychoanalysts question whether the treatments based on re-evoking memories engage reconsolidation and how treatments may work and be effective with reconsolidation processes. However, reconsolidation may not easily occur in older or very strong, consolidated memories, which are, in fact, those deeply rooted in most maladaptive behaviors, and most animal reconsolidation studies have been done on memories that are only days old. Hence, the questions deepen into many more complex layers, asking the following: How are memories formed and retrieved and in part become unconscious? How does retrieval in a therapeutic setting change those traces? Here, we propose some hypotheses based on neuroscientific knowledge to begin explaining the bases of Freudian unconscious and speculate on how memory traces and Freudian unconscious intersect.
The foundation for understanding the function and dynamics of biological systems is not only knowledge of their structure, but the new methodologies and applications used to determine that structure. This volume in Biological Magnetic Resonance emphasizes the methods that involve Ultra High Field Magnetic Resonance Imaging. It will interest researchers working in the field of imaging.
The shared platform of the articles collected in this volume is used to advocate a dynamical systems approach to cognition. It is argued that recent developments in cognitive science towards an account of embodiment, together with the general approach of complexity theory and dynamics, have a major impact on behavioral and cognitive science. The book points out that there are two domains that follow naturally from the stance of embodiment: first, coordination dynamics is an established empirical paradigm that is best able to aid the approach; second, the obvious goal-directedness of intelligent action (i.e., intentionality) is nicely addressed in the framework of the dynamical synergetic approach.
This book discusses the opportunities offered by disruptive technologies to overcome the economical and physical limits currently faced by the electronics industry. It provides a new methodology for the fast evaluation of an emerging technology from an architectural prospective and discusses the implications from simple circuits to complex architectures. Several technologies are discussed, ranging from 3-D integration of devices (Phase Change Memories, Monolithic 3-D, Vertical NanoWires-based transistors) to dense 2-D arrangements (Double-Gate Carbon Nanotubes, Sublithographic Nanowires, Lithographic Crossbar arrangements). Novel architectural organizations, as well as the associated tools, are presented in order to explore this freshly opened design space.
Gregorian chant, the Catholic Church's very own music, is proper to the Roman liturgy, but during the course of its long history it has experienced periods of ascendancy and decline. A century ago, Pope Pius X called for a restoration of the sacred melodies, and the result was the Vatican Edition. This book presents for the first time in English the fully documented history of the Gregorian chant restoration. The original French edition was published by the Abbey of Solesmes in 1969.This book describes in careful, vivid detail the strenuous efforts of personalities like Dom Joseph Pothier, Dom Andre Mocquereau, Fr. Angelo de Santi, and Peter Wagner to carry out the wishes of the pope. The attentive reader will not fail to note that many of the questions so fervidly debated long ago are still current and topical today. Robert A. Skeris' introduction to this edition illuminates the current discussion with documentation, including the Preface to the Vatican Gradual and the Last Will and Testament written by Dom Eugene Cardine.
Herbert Henri Jasper is a scientist whose research activities have initiated and encompassed many of the major themes of neuroscience. He has pioneered in single unit recording, chronic neuronal studies, neurochemistry, electroencephalography, and many other disciplines. His students now hold important positions in universities and hospitals around the world. From July 21 to 23, 1986, a symposium entitled Neurotransmitters and Cortical Function: From Molecules to Mind was held in Montreal to honor Professor Jasper and to continue his pioneering efforts. The following chapters originated in that meeting. They summarize the current v vi PREFACE status of our knowledge in some of the fields influenced by Professor Jasper. They share a focus on neurotransmitters in cortical function, where we presume higher mental events originate. Professor Jasper has made contributions to the understanding of three different classes of neuro transmitters: GABA, acetylcholine, and catecholamines. It is an interest in trying to link neu rochemical events to some aspects of complex brain function and behavior that has characterized his work, and it is this philosophy that led to the present symposium to honor him. We dedicate this volume to Professor Jasper and the integrative approach that he has fostered. The Editors Montreal Contents 1. H. H. Jasper, Neuroscientist of Our Century .......................... .
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