Neurodegeneration in Multiple Sclerosis
In multiple sclerosis (MS), conventional magnetic resonance imaging (cMRI) has proved to be a valuable tool to increase diagnostic reliability and to monitor the efficacy of experimental treatment. However, cMRI has limited specificity and accuracy as to the most disabling aspects of the MS pathology, known to occur in and outside macroscopic lesions. Modern quantitative MR techniques have the potential to overcome the limitations of cMRI, and their application is dramatically changing our understanding of how MS causes irreversible disability.
Neurodegeneration and Prion Disease
This volume provides an in-depth overview from world experts on prion disease. These fatal diseases include Creutzfeldt-Jakob disease, chronic wasting disease in deer, scrapie of sheep, bovine spongiform encephalopathy (mad cow’s disease) of cattle and related diseases. Understanding what causes neuronal death in these diseases is essential to both preventing and curing them. The most recent advances in understanding neuronal death in prion diseases are presented. Prion diseases serve as an experimental model for all neurodegenerative conditions. This book will provide understanding of neurodegeneration and provide an up-to-date record of the state of the art for other specialists and non-specialists in related fields.
Neuroacanthocytosis Syndromes
Neuroacanthocytosis Syndromes is the first comprehensive review of a field that has not yet received the attention it deserves. Affecting the brain as well as the circulating red cells, these multi-system disorders in the past had often been mistaken for Huntington's disease. Recent breakthroughs have now identified the molecular basis of several of these. This volume grew out of the first international scientific meeting ever devoted to neuroacanthocytosis and provides in-depth information about the state of the art. Its thirty chapters were written by the leading authorities in the field to cover the clinical as well as the basic science perspective, including not only molecular genetics but also experimental pharmacology and cell membrane biology, among others. The book vehemently poses the question of how the membrane deformation of circulating red blood cells relates to degeneration of nerve cells in the brain, the basal ganglia, in particular. It provides a wealth of data that will help to solve an intriguing puzzle and ease the suffering of those affected by one of the neuroacanthocytosis syndromes.
Neural and Neuroendocrine Mechanisms in Host Defense and Autoimmunity
This comprehensive volume, written by experts in the integrative fields of neuroscience, endocrinology and immunology, provides insight into the mechanisms by which neural and neuroendocrine factors influence susceptibility to infection and autoimmunity. The book focuses on multiple sclerosis as the prototypic autoimmune disease and discusses infectious diseases including anthrax, influenza virus, herpes virus and human immunodeficiency virus. The effects of stress on experimental models of multiple sclerosis and also clinical observations of stress in multiple sclerosis patients are discussed. Neural and Neuroendocrine Mechanisms in Host Defense and Autoimmunity is an ideal book for researches and professionals in the fields of immunology, neuroscience, infectious disease, psychology, microbiology, virology, public health and pharmaceutical sciences.
Networks : From Biology to Theory
The concept of a network emerges as a powerful and stimulating research paradigm in mathematics, physics and computer science, and demonstrates a very lively interaction between experimental findings, simulation studies, and theoretical investigations that then in turn lead to new experimental questions. This volume explores this concept in full and features contributions from a truly global set of contributors.
Networked Control Systems: Theory and Applications
Networked Control Systems presents the most recent results in stability and robustness analysis as well as new developments related to networked fuzzy and optimal control. Many of the chapters contain details of case-studies, experimental, simulation and/or other application-related work showing how the theories put forward can be implemented in real systems.
Navigational Surgery of the Facial Skeleton and Skull Base
Computer-assisted techniques in the surgery of the facial skeleton including the skull base are depicted for the very first time in this atlas of navigational surgery. Experienced surgeons as well as trainees will benefit from the detailed and well-illustrated information on the use of computer technology in clinical routine, accompanied by the experimental basis of intraoperative accuracy.The interdisciplinary approach brings together maxillofacial surgeons, plastic surgeons, ENT surgeons, and neurosurgeons. New methods of non-invasive referencing and the use of virtual models in the field of oral and cranio-maxillofacial surgery are demonstrated. Clinical cases illustrate the practical use of this new technique.
Nanostructured Coatings
Controlling the performance of structures and components of all sizes and shapes through the use of engineered coatings has long been a key strategy in materials processing and technological design. The ever-increasing sophistication of en- neered coatings and the rapid trend toward producing increasingly smaller devices with greater demands on their fabrication, properties and performance have led to signicant progress in the science and technology of coatings, particularly in the last decade or two. Nanostructured coatings constitute a major area of sci- ti?c exploration and technological pursuit in this development.Nanostructured coatings demand study in a highly interdisciplinary research arena which encompasses: surface and interface science study of defects modern characterization methodologies cutting-edge experimental developments to deposit.
Nanophytomedicine : An emerging platform for drug delivery
Covers recent advances in experimental and theoretical studies on various properties of nanoparticles derived from plant sources. This book assesses the recent advancements and applications of plant-based nanoparticles and also highlights emerging concepts of biomimetics. Contains 24 chapters encompassing various therapeutic applications of phytochemicals derived from plants, ferns, seaweeds, and so on, mediated through nanotechnology and its allied approaches. A fervent attempt has been made to compile every significant advancement in the field of phytonanomedicine so as to accelerate its momentum in the pharmaceutical sector.
Nanoparticles in Biomedical Imaging : Emerging Technologies and Applications
Fundamental Biomedical Technologies features titles in multidisciplinary, technology-driven areas, providing the foundations for breakthrough advances in medicine and biology. The term technology refers, in a vigorously unrestrictive sense, to a broad array of engineering disciplines, the sciences of computation and informatics, mathematical models exploiting and advancing methods of mathematical physics, and the development of novel, experimental discovery devices. Titles in this series are designed and selected to provide high-level visionary input for specialists, while presenting overviews of emerging fields for those in related areas. Volumes in this series aim to provide technologists with the material to gain competent entry into biomedical research and biomedical researchers to understand and embrace novel technological foundations and tools.
Nanoinformatics
Brings out the state of the art on how informatics-based tools are used and expected to be used in nanomaterials research. There has been great progress in the area in which “big-data” generated by experiments or computations are fully utilized to accelerate discovery of new materials, key factors, and design rules. Data-intensive approaches play indispensable roles in advanced materials characterization. "Materials informatics" is the central paradigm in the new trend. "Nanoinformatics" is its essential subset, which focuses on nanostructures of materials such as surfaces, interfaces, dopants, and point defects, playing a critical role in determining materials properties. There have been significant advances in experimental and computational techniques to characterize individual atoms in nanostructures and to gain quantitative information. The collaboration of researchers in materials science and information science is growing actively and is creating a new trend in materials science and engineering.
Nanoelectronics and Photonics : From Atoms to Materials, Devices, and Architectures
Nanoelectronics and Photonics: From Atoms to Materials, Devices, and Architectures provides a description of the core elements and challenges of advanced and future information technology. By linking the materials physics and chemistry at the atomic scale with device and circuit design and performance requirements, tutorial chapters from leaders in the field present a coherent picture of theoretical and experimental research efforts and technology development in this highly interdisciplinary area.
Multivalency: Concepts, Research and Applications
Multivalency: Concepts, Research & Applications is divided into three parts. Part one provides background knowledge on various aspects of multivalency and cooperativity and presents practical methods for their study. Fundamental aspects such as thermodynamics, kinetics and the principle of effective molarity are described, and characterisation methods, experimental methodologies and data treatment methods are also discussed. Parts two and three provide an overview of current systems in which multivalency plays an important role in chemistry and biology, with a focus on the design rules, underlying chemistry and the fundamental principles of multivalency.
Multiscale Modeling in Epitaxial Growth
Epitaxy is a very active area of theoretical research since several years. It is experimentally well-explored and technologically relevant for thin film growth. Recently powerful numerical techniques in combination with a deep understanding of the physical and chemical phenomena during the growth process offer the possibility to link atomistic effects at the surface to the macroscopic morphology of the film. The goal of this book is to summarize recent developments in this field, with emphasis on multiscale approaches and numerical methods. It covers atomistic, step-flow, and continuum models and provides a compact overview of these approaches. It also serves as an introduction into this highly active interdisciplinary field of research for applied mathematicians, theoretical physicists and computational materials scientists.
Multi-Scale Approaches in Drug Discovery : From Empirical Knowledge to In silico Experiments and Back
Drug discovery is an expensive, time-consuming process and the modern drug discovery community is constantly challenged not only with discovering novel bioactive agents to combat resistance from known diseases and fight against new ones, but to do so in a way that is economically effective. Advances in both experimental and theoretical/computational methods envisage that the greatest challenges in drug discovery can be most successfully addressed by using a multi-scale approach, drawing on the specialties of a whole host of different disciplines. Multi-Scale Approaches to Drug Discovery furnishes chemists with the detail they need to identify drug leads with the highest potential before isolating and synthesizing them to produce effective drugs with greater swiftness than classical methods may allow. This significantly speeds up the search for more efficient therapeutic agents.
Multifunctional Pharmaceutical Nanocarriers
Various pharmaceutical nanocarriers, such as nanospheres,nanocapsules, liposomes, micelles, cell ghosts, lipoproteins and some others are widely used for experimental (and already clinical) delivery of therapeutic and diagnostic agents. The use of nanoparticulate pharmaceutical carriers to enhance the in vivo efficiency of many drugs well established itself over the past decade both in pharmaceutical research and clinical setting.
Mucins : Methods and protocols
Explores the latest advancements in mucin research. The chapters in this book are organized into 8 parts and cover a wide range of topics such as mucin extraction, isolation, physicochemical property analysis, and experimental methods. The chapters also discuss the origins of mucins in jellyfish, feces, saliva and salivary glands, bronchi, stomach, and cervical tract; organic synthesis of peptides glycosylated at specific sites; analysis of mucin gene expression and methylation-specific electrophoresis of genes; imaging of mucin networks by AFM; and experimental methods using supported molecular matrix electrophoresis. 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.
Moral reasoning at work : Rethinking ethics in organizations ; 1st ed.
Moral dilemmas are a pervasive feature of working life. Moral Reasoning at Work offers a fresh perspective on how to live with them using ethics and moral psychology research. It argues that decision-makers must go beyond compliance and traditional approaches to ethics to prepare for moral dilemmas.
Moment Analysis for Subsurface Hydrologic Applications
This book deals with the concept of moments, and how they find application in subsurface hydrologic problems-particularly those dealing with solute transport. This book will be very valuable to researchers who are beginning to learn about moment analysis, and will also be of interest to advanced researchers as well. Both temporal and spatial moments are dealt with in some detail for a wide variety of problems. Several examples using experimental data, both from laboratory columns and field experiments, are provided to give the readers a clear idea about the scope of this method. Apart from conventional uses of moments for solute transport problems, this book contains chapters dealing with use of moments in interval computing, vapour phase transport applications, transfer functions to subsurface tile drains, and construction of breakthrough curves from knowledge of moments.
Molecular Mechanisms of Fanconi Anemia
Molecular Mechanisms of Fanconi Anemia will give research students a platform for further investigation, and act as a source of information regarding experimental design. Clinicians will find this title useful for its comprehensive description of Fanconi Anemia and information on the latest molecular theories underlying its causes.



















