الصفحة 1
الصفحة 1
Occlusal splints for painful craniomandibular dysfunction
Bridges that gap, presenting a practical guide for the treatment of craniomandibular dysfunction (CMD)—a functional disorder that affects the muscles of mastication, temporomandibular joints, and/or occlusion—in patients with related pain. The first half of the book provides detailed but simple clinical instructions and examples of occlusal splint therapy, including splint fabrication and coordinative training for painful CMD, based entirely on a high level of evidence. The second half delves deeper into the etiology, advanced diagnostic techniques, neurobiology, and pathophysiology of painful CMD and splint therapy.
NPY Family of Peptides in Neurobiology, Cardiovascular and Metabolic Disorders : from Genes to Therapeutics
The NPY-family of peptides encompasses several groups of neurotransmitters and hormones, which exert diverse biological and pathological actions that bear on all major vital systems. This book is a unique compilation of the most recent breakthroughs in NPY/PYY neurobiology, cardiovascular and metabolic disorders. The identification of multiple receptors for the members of the NPY and PYY family of peptides provides new opportunities for discovery of specific NPY antagonists and agonists that have vast clinical potential. The recognition of the role of NPY in stimulation of food intake has already resulted in discovery of potent and selective NPY receptor Y-5 antagonists, which are in clinical development for obesity. NPY Y1 receptor antagonists are targeted for cardiovascular indications. Research into the multiple functions of NPY and its receptors in neurological and affective disorders is also actively pursued. The chapters in this book are written by internationally renowned experts with the objective to synthesize leading concepts and data in support for translational medicine.
Neuroscience in Medicine
This up-to-date edition alternates scientific and clinical chapters that explain the basic science underlying neurological processes and then relates that science to the understanding of neurological disorders and their treatment.
Neurobiology of Human Values
Man has been pondering for centuries over the basis of his own ethical and aesthetic values. Until recent times, such issues were primarily fed by the thinking of philosophers, moralists and theologists, or by the findings of historians or sociologists relating to universality or variations in these values within various populations. Science has avoided this field of investigation within the confines of philosophy. Beyond the temptation to stay away from the field of knowledge science may also have felt itself unconcerned by the study of human values for a simple heuristic reason, namely the lack of tools allowing objective study. For the same reason, researchers tended to avoid the study of feelings or consciousness until, over the past two decades, this became a focus of interest for many neuroscientists
Neurobiology of Exceptionality
Nurture or nature? Biology or environment? Why are some people intelligent, or personable, or creative and others obtuse, or shy, or unimaginative? Although each human being is a unique mixture of positive and negative traits and behaviors, the question remains: What is the neurobiological basis for each individual’s makeup? For example, why does one person suffer from a disorder (e.g., ADHD, autism, mental retardation) and another lives free of maladies?
Neurobiology : Methods and protocols
Serves as a guide for students in the field of neurobiology, and be a bridge between basic science researchers, doctors, and surgeons in clinical practice. 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.
N-Acetylaspartate : A Unique Neuronal Molecule in the Central Nervous System
N-acetylaspartate (NAA), the acetylated form of the amino acid aspartate, is one of the most highly concentrated chemicals in the brains of humans, yet its function remains elusive. This book reviews research from around the world in the study of NAA, and the roles it plays in neuronal development and functioning.
Molecular Pain
This book focus on molecular and synaptic mechanisms for pain transmission, modulation and plasticity. Unlike traditional textbooks about pain, this book covers recent progress in neuroscience and relates these developments to the basic mechanisms of chronic pain. The book also discusses current pain medicine and alternative pain treatments such as acupuncture.
Migraine
Migraine is a chronic paroxysmal neurological disorder characterised by multiphase attacks of head pain and a myriad of neurological symptoms. The underlying genetic and biological underpinnings and neural networks involved are coming sharply into focus. This progress in the fundamental understanding of migraine has led to novel, mechanism-based and disease-specific therapeutics. In this Seminar, the clinical features and neurobiology of migraine are reviewed, evidence to support available treatment options is provided, and emerging drug, device, and biological therapies are discussed.
Memories : Molecules and Circuits
This volume surveys the recent advances and provides an integrative view of molecular, cellular, and systems level mechanisms underlying cognitive processes in both animals and humans. Current state of the art and future avenues are discussed by distinguished scientists who provide not only an overview of the underlying neurobiology of cognitive processes from a basic science standpoint, but who also focus on clinical and therapeutic aspects surrounding impairments associated with disorders that affect cognition.
Intracellular Mechanisms for Neuritogenesis
This book present in novel, distinct, but highly related aspects of the intracellular mechanisms required for the formation of a functional neurite, which include cytoskeletal organization, membrane traffic, and signal transduction.
Immediate Early Genes in Sensory Processing, Cognitive Performance and Neurological Disorders
This book reviews and details experiments and theories that challenge the reader to expand their view on how IEG research is currently being used to advance our understanding of static and active brain circuits, enabling the processing, acquisition and storage of new information in healthy systems. In addition, we explore roles of IEGs in clinical neuropathology, with potential utility in molecular modeling, to highlight, on a go-forward basis, candidate mechanisms for novel targets in clinical intervention.
Hormones and social behaviour
This book concentrates on two major topics: First, the molecular and neural biology of hormone actions relevant to normal social behaviors; and Second, the clinical treatment of human patients in whom these behaviors have gone wrong.
Handbook of neurochemistry and molecular neurobiology : Sensory neurochemistry
This volume of the Handbook of Neurochemistry and Molecular Biology focuses on molecular events involved in synapse formation, synaptic plasticity and ongoing neural activity. The volume explores axonal growth cones, synapse development, and mechanisms of LTP and LTD, and calcium dynamics.
Handbook of neurochemistry and molecular neurobiology : Practical neurochemistry methods
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
Handbook of neurochemistry and molecular neurobiology : Neurotransmitter Systems
The brain is the organ that collects information from the environment, processes and stores the information, and generates behavior as and when needed. In essence, the brain makes us who we are. For this reason, understanding the biology of brain function is a great challenge and a major goal of modern science. The brain is one of the last great frontiers in science, and the unraveling of its mysteries is comparable in complexity to efforts in space exploration. A fundamental goal of neuroscience is to understand how neurons generate behavior and the pathophysiology of different mental and neurological diseases. This requires, among other things, information about where these neurons are located, how they are connected, and how they communicate with each other in various physiological and pathophysiological conditions. Our aim is to describe recent discoveries about the basic operations of the brain and to provide an introduction to the adaptations for specific types of information processing.
Handbook of neurochemistry and molecular neurobiology : Neuroimmunology
Neuroimmunology is one of the most rapidly developing branches of Neurobiology, and this volume contains chapters that focus on a huge range of topics including the relationship between neuroimmunology and the pathogenesis of different nervous diseases.
Handbook of neurochemistry and molecular neurobiology : Neural Protein Metabolism and Function
This volume discusses aspects of neural protein metabolism. Although this subject is clearly very important and has numerous functional aspects, it did not always get the attention it clearly deserves. Perhaps there are many explanations for researchers hesitating in the past to focus on protein metabolism.
Handbook of neurochemistry and molecular neurobiology : Neural Membranes and Transport
The first section of this volume deals with neural membranes and barriers. The second section covers ion pumps and ion transporters in neural membranes. The final section covers neural membranes and transport of neurotransmitters or other solutes.
Handbook of neurochemistry and molecular neurobiology : Development and Aging Changes in the Nervous System
In the animal nervous system, a very high metabolic turnover, fragile but steep ionic gradients, and morphological and structural constraints - dictated by the necessity for prompt neuronal transmission of electrical impulses and necessary plasticity - result in a highly fragile organ system. Here, we address a small sampling of major constituents of neural function at the cellular and molecular level that play important roles in development and aging, two endogenous processes that embody features of allostasis or the dynamic shifts in set points for specific homeostatic mechanisms associated with development and aging. These chapters stress the dynamic features of neuronal responses to internal (developmental) cues or the more harmful external events (injury and disease) in a modern perspective.
