This book is dedicated to the memory of two colleagues and friends, Amico Big- nami and Hendrick Vander Los. They were both pioneers in their fields: Bignami on on- togenesis and function of neuroglia, and Van der Los on brain plasticity and neuronal circuitry. Their ideas are further pursued by the authors in this book. Some of the chapters are products of a conference dedicated to these two scientists entitled "Recent Advances in Neurobiology: Plasticity and Regeneration." The conference was organized by the Insti- tute of Developmental Neuroscience and Aging and sponsored by the Region della Valle d' Aosta. Also, several chapters are written by colleagues who knew well either Amico or Hendrick and were invited to contribute to this dedication. The book is divided in four sections. The first part covers neurons, neuroglia includ- ing microglia, their plasticity and phenotypic expression, and specific functions and inter- actions. It is now established that neuroglia are an intimate component of the neuronal environment and thought to regulate several neuronal functions. More recently microglia have become prominent as the immune cells in the CNS. This part contributes new infor- mation for these cellular interactions. The second part deals with neuronal and glial cell plasticity as it relates to regeneration and neurodegeneration, more or less an extension of Part I. In recent years the role of transplantation in regeneration has become promising.

* Provides a new integrated theory of the study of philosophy that highlights the importance of understanding biological, psychological and neuroscientific principles * Highlights interdisciplinary research and theory in evolution, consciousness and DNA research and neurolinguistics * Written by an expert in neuroscience and neurolinguistics

Damage has been shortlisted for the 2021 William Hill Sports Book of The Year award! "This is the book that boxing has always needed...It is shattering yet moving, informative yet tender...An essential read for anyone who cares about boxing and its courageous, damaged fighters."-Donald McRae, The Guardian "Anyone who loves boxing-even the sport's most die-hard supporters-must take a longer and more serious look at the issues that Tris Dixon writes about with such nuance and humanity in Damage..."-Greg Bishop, Senior Writer, Sports Illustrated It's an old story-a fighter gains fame, drives fast cars, makes piles of cash, and dates beautiful women. Then comes the fall-booze, drugs, depression, poverty, illness. This dark narrative has been playing out for a hundred years. Doctors first identified "Punch Drunk Syndrome" in 1928. It later became known as "Dementia Pugilistica." Today, we call it CTE (chronic traumatic encephalopathy). The secret history of this disease in boxing has never been fully told- until now. In Damage, Tris Dixon uncovers the difficult truths of boxing and CTE and chronicles the lives of fighters affected by it. He interviews some of the sport's biggest names, some lesser-known journeymen, and highly respected trainers and other figures to try to understand why no one wants to discuss CTE or take responsibility for it. Ultimately, Dixon takes aim at what boxing can do to help the warriors who sacrifice their health seeking glory in the ring. Will this book finally drive the sport to address the issue and help fighters get the help they deserve?

This book explores the basic concept of agency and develops it further in psychology using it to better understand and explain psychological processes and behavior. More importantly, this book seeks to put an emphasis on the role of agency in four distinct settings: history of psychology, neuroscience, psychology of religion, and sociocultural theories of co-agency. In Volume 12 of the Annals of Theoretical Psychology the contributors explore a number of new ways to look at agency in psychology. This volume seeks to develop a systematic theory of axioms for agency. It describes implications for research and practice that are founded on an understanding of the person as an actor in the world. This book also has implications for research and practice across psychology's sub-fields uniting the discipline through an agentic view of the person

Nervous system development evolves from the well-orchestrated processes of neural induction, cell proliferation, differentiation, cell migration, survival, and synapse formation. Among these environmental cues, neurotrophic factors are secreted proteins that promote neurite outgrowth, neuronal cell differentiation and survival both in vivo and in vitro. Nerve growth factor (NGF) is the founding and best characterized member of the neurotrophin family of neurotrophic polypeptides. Neurotrophic Factors: Methods and Protocols presents a selection of protocols and procedures which make use of cellular, tissue, and whole animal models which can be applied to the investigation of neurotrophic factors and other agents impacting on these systems. Chapters cover a wide-range of topics such as dealing with the culture of neurons and glia from the central and peripheral nervous systems, neuron-glia co-culture models, and cell-based assays for the evaluation of neuroprotective molecules, as well as assays which can be applied to the study of agents with neuroregenerative potential. Protocols describing viral- and nanoparticle-based delivery methods to neural cells are also presented, following by chapters dealing with organotypic slice culture protocols. Lastly, several chapters are dedicated to in vivo lesion models of relevance to nervous system pathology, which can be applied to the investigation of neurotrophic factors and peptides. Written in the successful Methods in Molecular Biology (TM) series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible protocols, and notes on troubleshooting and avoiding known pitfalls. Authoritative and easily accessible, Neurotrophic Factors: Methods and Protocols seeks to serve both professionals and novices alike with its well-honed methodologies in an effort to further our knowledge of what has been described as the last frontier of science.

Internationally eminent scientists illuminate the most important scientific aspects of essential fatty acids (EFAs)-from their biochemistry to their physiological consequences in both health and illness. The distinguished contributors integrate a wide range of topics, including the basic biochemistry of EFAs and lipid metabolism, the role of EFAs in the neuronal membrane, the effects of EFAs and lipids in various diseases, and the effects of normal levels and EFA deficiencies on cognition and behavior. The book's consolidation of our knowledge of the biology and metabolism of the EFAs lays the groundwork for dramatic advances in our understanding of these ubiquitous biochemicals and their role in health and illness.

Synaesthesia is a fascinating cognitive phenomenon where one type of stimulation evokes the sensation of another. For example, synaesthetes might perceive colours when listening to music, or tastes in the mouth when reading words. This book provides an insight into the idiosyncratic nature of synaesthesia by exploring its relationships with other dimensions of individual differences. Many characteristics of linguistic-colour synaesthetes are covered including personality, temperament, intelligence, creativity, emotionality, attention, memory, imagination, colour perception, body lateralization and gender. Aleksandra Maria Rogowska proposes that linguistic-colour synaesthesia can be considered as an abstract form of a continuous variable in the broader context of cross- and intra-modal associations. There has been a resurgence of interest in synaesthesia and this book will appeal to students and scientists of psychology, cognitive science and social science, and to those who are fascinated by unusual states of mind.

How does our knowledge of the language on the one hand, and of the context on the other, permit us to understand what we are told, to resolve ambiguities, to grasp both explicit and implicit content, to appreciate metaphor and irony? These issues have been studied in two disciplines: linguistic pragmatics and psycholinguistics, with only limited interactions between the two. This volume lays down the foundation for a new field: "Experimental Pragmatics." Contributions review pioneering work and present novel ways of articulating theories and experimental methods in the area.

The advances in neuroimaging technologies have led to substantial progress in understanding the neural mechanisms of cognitive functions. Thinking and reasoning have only recently been addressed by using neuroimaging techniques. The present book comprehensively explores current approaches and contributions to understanding the neural mechanisms of thinking in a concise and readable manner. It provides an insight into the state of the art and the potentials, but also the limitations of current neuroimaging methods for studying cognitive functions. The book will be a valuable companion for everyone interested in one of the most fascinating topics of cognitive neuroscience.

This book, covering many key aspects of autonomic nervous system maturation, was suggested by the success of a symposium on the developing autonomic nervous system held at the Spring 1982 meeting of the Federation of American Scientists for Experi mental Biology (Federation Proceedings 1983, 42, 1609). It was obvi ous from the F ASEB symposium that there is increasing interest in the developing autonomic nervous system, particularly with respect to its role in regulating visceral function. Some additional topics that were not covered in the F ASEB symposium are also included in this book. The editor feels that the readers of this volume are, in all probability, already cognizant of the state of knowledge of the adult autonomic nervous system. Therefore, a review of classical autonomic physiology, pharmacology, and neuroanatomy is not provided. For a recent detailed discussion of the ontogeny and phylog eny of the developing nervous system, I would recommend the book published not long ago by D. Purves and J. W. Lichtman, Principles of Neural Development (Sinauer, Sunderland, MA, 1985). Another recent book, Autonomic Nerve Funtion in the Vertebrates by F. Nilsson (Springer-Verlag, New York, 1984), presents a compar ative examination of autonomic nervous system function in verte brates. For a summary of recent advances in the many aspects of catecholamines as they bear on autonomic nervous system re search, I would recommend the series of three books edited by E."

Evolving technologies starting with tracer studies, and more recently with genomics and proteomics, have provided novel information about the molecular properties of cerebral endothelium and astrocytes; however, further studies must be done in animal models of neurological diseases and in humans to get a clearer understanding of the pathogenesis of blood-brain barrier (BBB) breakdown in nervous system diseases. In The Blood-Brain and Other Neural Barriers: Reviews and Protocols, experts in the field present a series of cutting-edge protocols which can be used to study the barriers. Opening with detailed information on components of the neurovascular unit as well as the blood-cerebrospinal, blood-retinal, and blood-nerve barriers, the book continues with meticulous techniques to image the barriers in humans and experimental animals, followed by cutting-edge molecular techniques to study the BBB and novel models to study the barriers, and it concludes with techniques for the delivery of therapeutic agents across the BBB. Written in the highly successful Methods in Molecular Biology(TM) series format, protocol chapters include introductions to their respective topics, lists of the necessary materials, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and up-to-date, The Blood-Brain and Other Neural Barriers: Reviews and Protocols will aid the research efforts of not only graduate students but also more experienced investigators and support future studies of these vital systems.

Neurological Complications of Systematic Cancer and Antineoplastic Therapy, Second Edition provides an expanded, updated and in-depth review of common manifestations related to neurology that occur in patients with systemic cancer. These include brain metastases, spinal cord compression, cerebrovascular events, and leptomeningeal disease. The book also discusses neurological complications related to treatments such as radiation and chemotherapy and is an essential reference for the practicing neurologist and oncologist. Sections in this new release cover the pathophysiology and molecular biology of cancer and the metastatic phenotype, Metastatic spread to cranial and peripheral nerves and brachial and lumbosacral plexuses, Metabolic and nutritional disorders, CNS infections, Neurological complications of immunotherapy and bone marrow transplants, Neurological complications of new molecular agents and immuno-modulatory drugs, and more.

Advances in the field of signal processing, nonlinear dynamics, statistics, and optimization theory, combined with marked improvement in instrumenta tion and development of computers systems, have made it possible to apply the power of mathematics to the task of understanding the human brain. This verita ble revolution already has resulted in widespread availability of high resolution neuroimaging devices in clinical as well as research settings. Breakthroughs in functional imaging are not far behind. Mathematical tech niques developed for the study of complex nonlinear systems and chaos already are being used to explore the complex nonlinear dynamics of human brain phys iology. Global optimization is being applied to data mining expeditions in an effort to find knowledge in the vast amount of information being generated by neuroimaging and neurophysiological investigations. These breakthroughs in the ability to obtain, store and analyze large datasets offer, for the first time, exciting opportunities to explore the mechanisms underlying normal brain func tion as well as the affects of diseases such as epilepsy, sleep disorders, movement disorders, and cognitive disorders that affect millions of people every year. Ap plication of these powerful tools to the study of the human brain requires, by necessity, collaboration among scientists, engineers, neurobiologists and clini cians. Each discipline brings to the table unique knowledge, unique approaches to problem solving, and a unique language."

Neuropsychological research on the neural basis of behavior generally asserts that brain mechanisms ultimately suffice to explain all psychologically described phenomena. This assumption stems from the idea that the brain consists entirely of material particles and fields, and that all causal mechanisms relevant to neuroscience can be formulated solely in terms of properties of these elements. Contemporary basic physical theory differs from classic physics on the important matter of how consciousness of human agents enters into the structure of empirical phenomena. The new principles contradict the older idea that local mechanical processes alone account for the structure of all empirical data. Contemporary physical theory brings directly into the overall causal structure certain psychologically described choices made by human agents about how they will act. This key development in basic physical theory is applicable to neuroscience. This book explores this new framework.

The International Basal Ganglia Society (IBAGS) furthers understanding of normal basal ganglia function and the pathophysiology of disorders of the basal ganglia. These disorders include Parkinson's disease, Huntington's disease, and schizophrenia. IBAGS triennial meetings bring together research scientists from all disciplines, as well as clinicians who are actively involved in the treatment of basal ganglia disorders, to discuss the most recent advances in the field and to generate new approaches and ideas for the future. The Basal Ganglia IX features proceedings from the society's ninth meeting held in September of 2007. Topics discussed include neural systems of reinforcement for drug addiction, the impact of brain research on clinical practice, deep brain stimulation, and genetic aspects of movement disorders. The Basal Ganglia IX is part of Springer's Advances in Behavioral Biology series, and will be of interest to researchers of neuroscience, neuropharmacology, neurobiology, neuroanatomy, and neurophysiology.

These past few years have witnessed a revolution in our understanding of microglia, especially since their roles in the healthy central nervous system (CNS) have started to unravel. These cells were shown to actively maintain health, in concert with neurons and other types of CNS cells, providing further insight into their involvement with diseases. Edited by two pioneers in the field, Marie-Eve Tremblay and Amanda Sierra, Microglia in health and disease aims to share with the broader scientific community some of the recent discoveries in microglia research, from a broad perspective, with a collection of 19 chapters from 52 specialists working in 11 countries across 5 continents.

To set microglia on the stage, the book begins by explaining briefly who they are, what they do in the healthy and diseased CNS, and how they can be studied. The first section describes in more details their physiological roles in the maturation, function, and plasticity of the CNS, across development, adolescence, adulthood, neuropathic pain, addiction, and aging. The second section focuses on their implication in pathological conditions impairing the quality of life: neurodevelopmental and neuropsychiatric disorders, AIDS, and multiple sclerosis; and in leading causes of death: ischemia and stroke, neurodegenerative diseases, as well as trauma and injury."

This book seeks to build bridges between neuroscience and social science empirical researchers and theorists working around the world, integrating perspectives from both fields, separating real from spurious divides between them and delineating new challenges for future investigation. Since its inception in the early 2000s, multilevel social neuroscience has dramatically reshaped our understanding of the affective and cultural dimensions of neurocognition. Thanks to its explanatory pluralism, this field has moved beyond long standing dichotomies and reductionisms, offering a neurobiological perspective on topics classically monopolized by non-scientific traditions, such as consciousness, subjectivity, and intersubjectivity. Moreover, it has forged new paths for dialogue with disciplines which directly address societal dynamics, such as economics, law, education, public policy making and sociology. At the same time, beyond internal changes in the field of neuroscience, new problems emerge in the dialogue with other disciplines. Neuroscience and Social Science - The Missing Link puts together contributions by experts interested in the convergences, divergences, and controversies across these fields. The volume presents empirical studies on the interplay between relevant levels of inquiry (neural, psychological, social), chapters rooted in specific scholarly traditions (neuroscience, sociology, philosophy of science, public policy making), as well as proposals of new theoretical foundations to enhance the rapprochement in question. By putting neuroscientists and social scientists face to face, the book promotes new reflections on this much needed marriage while opening opportunities for social neuroscience to plunge from the laboratory into the core of social life. This transdisciplinary approach makes Neuroscience and Social Science - The Missing Link an important resource for students, teachers, and researchers interested in the social dimension of human mind working in different fields, such as social neuroscience, social sciences, cognitive science, psychology, behavioral science, linguistics, and philosophy.

Dynamic Structure of NREM Sleep is a concise guide to Cyclic Alternating Pattern (CAP) phenomenology and slow wave homeostasis. It presents an original approach to a specialized aspect of sleep neuroscience in a concise and easy-to-read format. The authors are specialists in the field of sleep neuroscience and lend a new perspective to the benefits of slow wave activity during sleep. The main feature of this discussion is that slow wave activity increases as a function of previous wakefulness and it gradually decreases in the course of sleep. Alongside developing this idea, this book covers the entire range of sleep issues from basic structure to function in comprehensive detail. Dynamic Structure of NREM Sleep is valuable reading for neurologists, sleep neuroscientists and those with an interest in the field.

This volume explores the latest techniques used by researchers to help them better understand the NMDAR structure-function relations, principles, and rules that govern how NMDARs operate in brain processing. The volume includes a detailed introductory chapter describing the field and is divided into three parts. Topics covered in the volume include: quantification of NMDAR subunit genes expression by qRT-PCR; detection of NMDARs antibodies in encephalitis; recombinant channels in host cells using a fast agonist application system; GluNs detection and functions in microglial cells; and NMDARs as voltage sensors. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting-edge and practical, NMDA Receptors: Methods and Protocols is a valuable resource that discusses the diversity of the currently-used methods, the importance of NMDARs and their complexity, and the progress that has already been made. This book will be of interest to scientists, clinicians, and industry professionals working in this field.

Techniques in the neurosciences are evolving rapidly. There are currently very few volumes dedicated to the methodology - ployed by neuroscrentists, and those that are available often seem either out of date or limited in scope. This series is about the methods most widely used by modern-day neuroscientrsts and is written by their colleagues who are practicing experts. Volume 1 will be useful to all neuroscientists since it concerns those procedures used routinely across the wrdest range of s- disciplines. Collecting these general techniques together in a single volume strikes us not only as a service, but will no doubt prove of exceptional utilitarian value as well. Volumes 2 and 3 describe all current procedures for the analyses of amines and their metabolites and of amino acids, respectively. These collections will clearly be of value to all neuroscientists working in or contemplating research in these fields. Similar reasons exist for Volume 4 on receptor binding techniques since experimental details are provided for all types of ligand-receptor binding, including chapters on general principles, drug discovery and development, and a most useful-appendix on computer programs for Scatchard, nonlinear, and competitive d- placement analyses. Volume 5 provides procedures for the asse- ment of enzymes involved in biogenic amme synthesis and catabolrsm. Volumes in the NEUROMETHODS series will be useful to neurochemists, -pharmacologists, -physiologists, -anatomists, psychopharmacologists, psychiatrists, neurologists, and chemists (organic, analyncal, pharmaceutical, medicinal); in fact, everyone involved in the neurosciences, both basic and clinical.

A few disorders have some of the same symptoms as schizophrenia including schizoaffective disorders, schizophreniform disorder, schizotypal and schizoid personality disorders, delusional disorder, and autism (schizophrenia spectrum disorders). Since the 2000 there has been significant progress in our understanding of the early presentations, assessment, suspected neuropathology, and treatment of these disorders. Recent technological breakthroughs in basic sciences hold promise for advancing our understanding of the pathophysiology of schizophrenia spectrum disorders. This collective monograph reviewers recent researches regarding the origins, onset, course, and outcome of schizophrenia spectrum disorders. In particular, this book will be illustrate new developments in terms of conceptual models, and research methodology, genetics and genomics, brain imaging and neurochemical studies, neurophysiology and information processing in schizophrenia spectrum disorders patients. Also will be highlighted new developments in our understanding of the childhood psychosis, prodromal and first-episode states, in treatment and rehabilitation. Thus, the purpose of this book is to provide up- to-date overview of the rapid advances made in the clinical and basic science studies supporting our understanding of the relationship between cerebral processes and clinical, cognitive and other presentations of the schizophrenia spectrum disorders. In addition, this book aims to monitor important research developments, which may be relevant to treatment, and rehabilitation of patients.

Offers a state-of-the-art review by international experts on all aspects of tachykinin receptors, including neuropeptide/peptide and G-protein-linked receptors in general. It covers the physiology, pharmacology, biochemistry, and molecular biology of these receptors from both clinical and basic research points of view.
Topics treated by the distinguished contributors include the characterization of tachykinin receptors, the mechanisms of tachykinin receptor action, a reflection on future prospects, and a historical consideration of tachykinin research.

Foundations of Embodied Learning advances learning, instruction, and the design of educational technologies by rethinking the learner as an integrated system of mind, body, and environment. Body-based processes-direct physical, social, and environmental interactions-are constantly mediating intellectual performance, sensory stimulation, communication abilities, and other conditions of learning. This book's coherent, evidence-based framework articulates principles of grounded and embodied learning for design and its implications for curriculum, classroom instruction, and student formative and summative assessment for scholars and graduate students of educational psychology, instructional design and technology, cognitive science, the learning sciences, and beyond.

This book is devoted to a novel conceptual theoretical framework of neuro science and is an attempt to show that we can postulate a very small number of assumptions and utilize their heuristics to explain a very large spectrum of brain phenomena. The major assumption made in this book is that inborn and acquired neural automatisms are generated according to the same func tional principles. Accordingly, the principles that have been revealed experi mentally to govern inborn motor automatisms, such as locomotion and scratching, are used to elucidate the nature of acquired or learned automat isms. This approach allowed me to apply the language of control theory to describe functions of biological neural networks. You, the reader, can judge the logic of the conclusions regarding brain phenomena that the book derives from these assumptions. If you find the argument flawless, one can call it common sense and consider that to be the best praise for a chain of logical conclusions. For the sake of clarity, I have attempted to make this monograph as readable as possible. Special attention has been given to describing some of the concepts of optimal control theory in such a way that it will be under standable to a biologist or physician. I have also included plenty of illustra tive examples and references designed to demonstrate the appropriateness and applicability of these conceptual theoretical notions for the neurosciences."