This book is a collection of articles by leading researchers working at the cutting edge of neuro-computational modelling of neurological and psychiatric disorders. Each article contains model validation techniques used in the context of the specific problem being studied. Validation is essential for neuro-inspired computational models to become useful tools in the understanding and treatment of disease conditions. Currently, the immense diversity in neuro-computational modelling approaches for investigating brain diseases has created the need for a structured and coordinated approach to benchmark and standardise validation methods and techniques in this field of research. This book serves as a step towards a systematic approach to validation of neuro-computational models used for studying brain diseases and should be useful for all neuro-computational modellers.

Brain-computer interfaces (BCIs) are devices that enable people to communicate via thought alone. Brain signals can be directly translated into messages or commands. Until recently, these devices were used primarily to help people who could not move. However, BCIs are now becoming practical tools for a wide variety of people, in many different situations. What will BCIs in the future be like? Who will use them, and why? This book, written by many of the top BCI researchers and developers, reviews the latest progress in the different components of BCIs. Chapters also discuss practical issues in an emerging BCI enabled community. The book is intended both for professionals and for interested laypeople who are not experts in BCI research.

This volume covers the latest developments in optical imaging of the brain which is becoming an increasingly important functional neuroimaging method. Optical intrinsic signals offer unrivaled temporal and spatial resolution of functional measurements of the exposed brain cortex in animals and humans. Near-infrared spectroscopy and imaging ap proaches permit the noninvasive functional assessment of the human brain at bedside. Main advantages of these optical techniques are the biochemical specificity of the meas urements and the potential of measuring correlates of intracellular and intravascular oxy genation simultaneously. Recent data indicate that one may also measure a more direct correlate of neuronal activity associated with changes in light scattering. In this volume, recent technical progress of the optical method is covered as well as the physiological basis of the measurements. In simultaneous studies, near-infrared spec troscopy measurements are directly compared to other functional methods, especially PET and fMRI and examples are given for new applications of the NIRS-method. Based on re sults obtained with optical methods and other functional techniques the latest in our under standing of the coupling of neuronal activity and cerebral blood flow response is reviewed. This is an important basis for a better understanding of all functional neuroi maging methods which rely on neurovascular coupling such as PET, SPET and fMRI. Fi nally the optical method is put into the perspective of presently available functional neuroimaging methods including fMRI, PET, MEG and EEG."

Patients, spouses, families, and caregivers dealing with dementia face a host of complex issues, particularly when they must confront Dementia with Lewy Bodies or Parkinson's Disease. Until now there has been no guidebook for the general public to help navigate these challenging disorders.
In Dementia with Lewy Bodies and Parkinson's Disease Dementia, Dr. J. Eric Ahlskog draws on 30 years of clinical and research work at Mayo Clinic to arm patients and families with crucial information that will enable them to work in tandem with their doctors. A diagnosis of dementia can be devastating, leaving families and caregivers struggling with a loved one's radically-impaired thinking and memory. When dementia is coupled with Parkinson's, which will develop in Parkinson's patients that live long enough, or with Lewy Bodies, which is the second leading cause of dementia behind Alzheimer's, the difficulties become even more daunting. And while these disorders are all too common, most people have little solid information about them. Too often doctors cannot spend the necessary time answering questions or discussing the specific challenges and treatments for these kinds of dementia during office visits. Arriving for a doctor appointment knowing the issues and treatment options beforehand gives patients and families an important head start. Dr. Ahlskog clearly explains all aspects of these disorders, their causes, symptoms, most effective drug treatments, proper doses, and which medications to avoid. He also discusses the complications that can arise in treating these conditions, given the variety of available medications and their possible side effects and interactions.
While a cure does not yet exist, in this accessible, highly informative guidebook, Dr. Ahlskog shows that optimal medical treatment can markedly improve the quality of life for both patients and family.

This forward-looking reference defines and illustrates the process and themes of formulation in neuropsychology and places it in the vanguard of current practice. The book explains the types of information that go into formulations, how they are gathered, and how they are synthesized into a clinically useful presentation describing psychological conditions resulting from neurological illness or injury. Cases highlight the relevance and flexibility of narrative- and diagram-based formulation methods in approaching a diverse range of issues and conditions, from decisional capacity to cultural considerations, Huntington's disease to deep dyslexia. Throughout this volume, formulation is shown as integral to treatment and rehabilitation planning alongside clinical assessment, cognitive testing, and diagnosis. Included among the topics: The interface of neuroimaging with neuropsychological findings in traumatic brain injury. Neuropsychological aspects of temporal-lobe epilepsy: seeking evidence-based practice. An integrative approach to differential diagnosis of subarachnoid hemorrhage and Korsakoff's dementia. Educational disengagement following mild TBI in childhood. Themes in the formulation of repeat assessments. Cognitive neuropsychological formulation. Formulation is essential in good neuropsychological assessment as it provides the foundation for appropriate intervention by bringi ng together the results of different evaluations into a coherent whole. . . . Macniven's compelling and constructive book has assembled internationally known experts from diverse backgrounds to provide illumination of their own views and approaches to formulation, which makes the book a pleasure to read and should establish it as essential reading on clinical psychology and neuropsychology training courses. - Professor Barbara A. Wilson OBE, Ph.D., D.Sc. Neuropsychologists, clinical psychologists, and rehabilitation specialists will find Neuropsychological Formulation of critical importance not only to the literature of the field, but also to the developing role of clinical neuropsychology within healthcare systems.

An Overview of Developments in Research on Recovery from Brain Injury.- Recovery of Function: Nutritional Factor.- Neural Transplantation and Recovery of Function: Animal Studies.- Neural Implants and Recovery of Function: Human Work.- Environmental Approaches to Recovery of Function from Brain Damage: A Review of Animal Studies (1981 to 1991).- Neuropsychological Rehabilitation.- Hemidecortication and Recovery of Function: Animal Studies.- A Review of Cognitive Outcome after Hemidecortication in Humans.- Compensatory Mechanisms - Neural and Behavioral: Evidence from Prenatal Damage to the Forebrain Commissures.- Mechanisms Underlying Recovery from Cortical Injury: Reflections on Progress and Directions for the Future.- Research on Recovery: Ends and Means.- Author Index.

The 1st World Congress on Geriatrics and Neurodegenerative Disease Research (GeNeDis 2014), will focus on recent advances in geriatrics and neurodegeneration, ranging from basic science to clinical and pharmaceutical developments and will provide an international forum for the latest scientific discoveries, medical practices and care initiatives. Advances information technologies will be discussed along with their implications for various research, implementation and policy concerns. In addition, the conference will address European and global issues in the funding of long-term care and medico-social policies regarding elderly people. GeNeDis 2014 takes place in Corfu, Greece, 10-13 April 2014. This volume focuses on the sessions that address geriatrics.

Cerebral hypoxia/ischemia is a common cause of neurologic dysfunction following cardiopulmonary resuscitation. With the advent of aggressive resuscitatiQ,il;m.ethods to treat cardiopulmonary arrest, more patients are surviving to live with posthypoxic/ postischemic neurologic syndromes. Thus, there is an urgent need to understand the basic aspects of the problem. This monograph consists of reviews from :s'c5ientists using advanced techniques for basic research into the molecular neurob~ology of the mechanisms and effects of cerebral hypoXia/ischemia, and from cliniciahs ~ctively involved in managing patients with these syndromes. The first five chapters contain several basic topics of neurobiology to help under- stand brain function, followed by five chapters that deal with the mechanisms of cerebral hypoxia/ischemia and potential protective measures against it. The first chapter describes functional proteins in the presynaptic terminal which regulate transmitter release. This is followed by a chapter demonstrating the molecu- lar structure and physiological function of the glutamate receptor channel, which may determine the rate and quantity of calcium ion influx into the nerve cell. The third chapter surveys the metabolic glutamate responses and the intracellular mechanisms believed to play an important role in pathogenesis of hypoxic/ischemic cell injury. The fourth chapter deals with long-term potentiation and drugs, the basis for under- standing memory disturbance caused by cerebral hypoxia/ischemia. The fifth chapter describes distributions of nitric oxide synthase mRNAs in the brain, currently one of the most advanced fields in neurobiology.

This handbook provides both a conceptual and practical framework for diagnosing, treating, and assessing post-traumatic stress in survivors of violence, abuse, war, ethnocultural problems, political torture, and disaster. The in-depth clinical experience of Williams and Sommer helps define a variety of theories and methods for treating children, adults, families, and other groups with various types of post-tramautic stress disorders. They point to specific new kinds of therapies and types of interventions, and discuss new developments and trends for the treatment of post-traumatic stress. This reference volume, with its lengthy bibliography, is designed for students, teachers, and practitioners in the fields of psychology and psychiatry, social work, medicine, and public health.

Neuroprotection has been placed on a firm scientific basis during the past decade due to an improved understanding of the molecular basis of neurological diseases and the knowledge that treatment of neurological disorders should not be merely symptomatic but preventative against the progression of the underlying disease, as well as regenerative. The Handbook of Neuroprotection serves as a comprehensive review of neuroprotection based on knowledge of the molecular basis of neurological disorders. Neuroprotective effects of older, established drugs, as well as new drugs in development, are well documented in this detailed volume, featuring the most cutting-edge and innovative methods currently in use. In-depth and authoritative, The Handbook of Neuroprotection features a compendium of vital knowledge aimed at providing researchers with an essential reference for this key neurological area of study.

A multidisciplinary survey of our current understanding of the biological and clinical aspects of vascular disease. The authors describe its basic mechanisms, its clinical characteristics, its pharmacological management, and the use of neuroimaging methods to investigate it. The complex relationship between VaD and AD is also fully explored with chapters on how these processes interact and how one disease may lower the threshold for clinical expression of the other.

The Handbook is intended to be a service to the neuroscience community, to help in finding available and useful information, to point out gaps in our knowledge, and to encourage continued studies. It represents the valuable contributions of the many authors of the chapters and the guidance of the editors and most important, it represents support for research in this discipline. Based on the rapid advances in the years since the second edition

" ['etat pathologique ne differe point radicalement de ['etat physiologique, a ['egard duquel if ne suarait constituer, sous un aspect quelconque, qu'un simple prolongement plus ou moins etendu des limites de variation, soit superieures, soit in/erieures, propres a chaque phenomene de ['organisme normal, sans pouvoir jamais produire de phenomenes vraiment nouveaux, qui n'auraient point, a un certain degre, leurs analogues purement physiologiques. Par une suite necessaire de ce principe, la notion exacte et rationnelle de ['etat physiologique doit donc /ournir, sans doute, l'indespensable point de depart de toute saine theorie pathologique,* mais if en resulte, d'une maniere non moins evidente, que, reciproquement, ['exam en scienti/ique des phenomenes pathologiques est eminemment propre a per/ectionner les etudes uniquement relatives a ['etat normal. Un tel mode d'experimentation, quoique indirect. est, en general, mieux adapte qu'aucun autre a la vraie nature des phenomenes biologiques. " (Comte, 1838; pg 696). The principle that an unde. rstanding of physiology can be based on the analysis of pathological states, and that, vice versa, an understanding of pathology cannot proceed without a clear formulation of the structure on normal physiological states formed the basis for the development of experimental medicine in France in the first half of the 19th century, and for the development of neuropsychology in the second half of the 19th century.

Introduction; M. Ginsberg, et al. Metabolic Correlates of Focal Ischemia; W.D. Lust, et al. Role of Pyruvate Dehydrogenase in Ischemic Injury; F.A. Welsh. Disturbances of Protein and Polyamine Metabolism After Reversible Cerebral Ischemia; K.A. Hossman, W. Paschen. Oxygen Dependence of Neuronal Metabolism; D.A. Wilson. Lipid Dysmetabolism in Brain Ischemia; K. Kogure. Involvement of Calcium, Lipolytic Enzymes, and Free Fatty Acids in Ischemic Brain Trauma; A.A. Farooqui, et al. Arachidonic Acid Lipoxygenase Products Participate in the Pathogenesis of Delayed Cerebral Ischemia; T. Watanabe, et al. Biochemical Changes and Secondary Tissue Injury After Brain and Spinal Cord Ischemia; A.I. Faden, et al. Free Fatty Acid Liberation in the Pathogenesis and Therapy of Ischemic Brain Damage; E.M. Nemoto, et al. Cerebral Ischemia and Polyphosphoinositide Metabolism; G.Y. Sun. 6 additional articles. Index.

This book covers the principles of advanced 3D fabrication techniques, stem cells and biomaterials for neural engineering. Renowned contributors cover topics such as neural tissue regeneration, peripheral and central nervous system repair, brain-machine interfaces and in vitro nervous system modeling. Within these areas, focus remains on exciting and emerging technologies such as highly developed neuroprostheses and the communication channels between the brain and prostheses, enabling technologies that are beneficial for development of therapeutic interventions, advanced fabrication techniques such as 3D bioprinting, photolithography, microfluidics, and subtractive fabrication, and the engineering of implantable neural grafts.There is a strong focus on stem cells and 3D bioprinting technologies throughout the book, including working with embryonic, fetal, neonatal, and adult stem cells and a variety of sophisticated 3D bioprinting methods for neural engineering applications. There is also a strong focus on biomaterials, including various conductive biomaterials and biomimetic nanomaterials such as carbon-based nanomaterials and engineered 3D nanofibrous scaffolds for neural tissue regeneration. Finally, two chapters on in vitro nervous system models are also included, which cover this topic in the context of studying physiology and pathology of the human nervous system, and for use in drug discovery research. This is an essential book for biomedical engineers, neuroscientists, neurophysiologists, and industry professionals.

Behavioral neurology is founded on lesions of cortical gray matter, but recently the contributions of cerebral white matter to cognitive and emotional dysfunction have also attracted attention. The Behavioral Neurology of White Matter surveys this broad and fascinating field from a clinical perspective. Stimulated by recent improvements in neuroimaging, white matter has been carefully studied, and its role in the operations of cognition and emotion clarified by correlations with clinical observations. The relevance of normal and abnormal white matter to behavioral neurology is apparent in every context where this question has been examined: in development, aging, and in a host of diseases, intoxications, and injuries. Since the first edition of this book in 2001, steady advances have been made in understanding the neurobiology of white matter and its clinical significance; this edition provides a comprehensive update on this rapidly expanding field. Every chapter has been extensively rewritten, including a comprehensive revision of the account of the neuropsychiatry of white matter, a particularly challenging area. The syndrome of white matter dementia is discussed in detail, and its refinement with new information is considered along with the proposal of mild cognitive dysfunction as a precursor syndrome in many clinical settings. In addition, two new chapters have been added, one on the emerging area of white matter changes associated with neurodegenerative disorders such Alzheimer's Disease, and another on neurologic aspects of white matter including intriguing new information on white matter plasticity. A unifying theme is the concept of connectivity, as it is clear the white matter forms an essential component of the widespread distributed neural networks by which cognition and emotion are organized. In addition to the microconnectivity within gray matter that subserves information processing, the macroconnectivity of white matter enables information transfer - both are critical for the functions of the human mind.

This book provides a new compilation of information that link changes in the basic structure of synapses and brain diseases. The book shows that specific secreted proteins, and short peptide mimicking the function of neural cell adhesion molecules can significantly enhance the formation of synapses in the brain. It describes recent advances in research that lay necessary scientific groundwork to develop pharmacological treatments.

This book encompasses basic and clinical reports on the cerebellum and its primary atrophic disorders, the cerebellar degenerations. Rapid progress has been made in undestanding the organization and function of the cerebellum at the neuronal, synaptic, and molecular level. Of particular importance has been the identification of the chemical transmitters utilized by the cer ebellar cellular systems. More than any other brain region, the cerebellum utilizes amino acids as its main excitatory and inhibitory neurotransmitters. Excitatory amino acid transmitters, in addition to serving neuronal com munication, may also mediate trophic and toxic effects, and as such, they may playa role in neurodegenerative processes. The cerebellar degenerations were among the first human disorders with primary system atrophy to be studied clinically and pathologically. This field of clinical cerebellar sciences, no longer confined to the previously known descriptive level, is now advancing rapidly, propelled by rapid advances in neuroimaging, immunology, and molecular biology. The advent of CT, MRI, and PET has in recent years permitted the study of central nervous system alterations in living patients, thus contributing substantially to the accuracy of the diagnosis and the classification of these disorders. The nosology of cerebellar degenerations, which has been the subject of much debate for over a century, is presently a dynamic field, with new entities being recognized and old "classic ataxias" being redefined in the light of new genetic evidence."

This is an up-to-date, comprehensive review of the neuropsychiatry of patients with movement disorders, i.e. Parkinson's disease, Huntington's disease, dystonia and others, by active authorities in the field, with an emphasis on diagnostic and management issues. This book includes critical appraisal of the methodological aspects and limitations of the current research on the neuropsychiatry of movement disorders and on unanswered questions/controversies. Symptomatology and pharmacological aspects of management are discussed, to provide robust information on drug dosages, side effects and interaction, in order to enable the reader to manage these patients more safely. Illustrative cases provide real life scenarios that are clinically relevant and engaging to read. Neuropsychiatric Symptoms of Movement Disorders is aimed at neurologists, movement disorder specialists and psychiatrists and will also be of interest to intensive care doctors, psychologists and neuropsychologists, research and specialist nurses, clinical researchers and methodologists.

This conference was instigated by a combination of factors: The nature of the problem, the wide spread occupational epidemiology reported on eye symptoms and eye fatigue in the workplace, and the organizers' awareness of the complexity of the scientific and clinical bases of knowledge that might be usefully applied. The introduction of new methods into system neurobiology provides new insights into how we receive and process information from the external world, and act upon it. New, non-invasive methods have opened the way to direct observation of the human brain in action. Due particularly to the interaction between the visual and oculomotor requirements involved, several clinical and scientific fields intersect when these issues are considered. To provide clear vision the accommodative and pupillary mechanisms are used. To maintain binocularity, the ver gence oculomotor system, sensitive to fatigue, must attain congruence with accommodative levels. This accommodation-vergence linkage was a focus of our symposium."

Market: Engineers and researchers in neural networks, image processing, audio/speech, and medical imaging. This book begins by focusing on the theoretical aspect of pattern recognition and introduces an integrated pattern recognition paradigm, which combines preprocessing, low dimensional signal characterization, feature optimization, and mapping classifier architecture to good features in a seamless fashion. Later, the authors reinforce the concepts of pattern recognition and prediction with challenging real- world examples, encompassing financial market prediction, image coding, active and passive sonar processing, chaos modeling, and intelligent product design.

The human brain contains more than a billion neurons which interconnect to form networks that process, store, and recall sensory information. These neuronal activities are supported by a group of accessory brain cells coll- tively known as neuroglia. Surprisingly, glial cells are ten times more - merous than neurons, and occupy more than half the brain volume (Hyden, 1961). Although long considered a passive, albeit necessary, component of the nervous system, many interesting and unusual functional properties of glial cells are only now being brought to light. As a result, the status of these cellular elements is approaching parity with nerve cells as a subject for experimental study. The term glia (or glue) seems today to be a misnomer in view of the diverse functions attributed to glial cells. Experimental studies in the last three decades have clearly established that the behavior of glial cells is far from passive, and that they are at least as complex as neurons with regard to their membrane properties. In addition, glial cells are of importance in signal processing, cellular metabolism, nervous system development, and the pathophysiology of neurological diseases. The Muller cell of the ver- brate retina provides a splendid example of an accessory cell that exhibits features illustrating every aspect of the complex behavior now associated with glial cells.