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The Atlas provides a complete overview of all major structures of the mouse brain that can be identified in Golgi preparations. The most important feature is its three-dimensional integrity since all structures and nerve tracts can be followed from one section to the next one with uninterrupted continuity. The Golgi Atlas presents a series of camera lucida drawings of the entire telencephalon and upper brain stem of the young postnatal mouse in 24 transverse, 11 sagittal and 15 horizontal planes. The drawings were prepared from selected brains stained in toto with the Golgi method, that have been serially sectioned in the three orthogonal planes. The text includes an introduction of the material and methods used for the construction of this Atlas and a survey with a complete bibliography on the previous studies made with the Golgi method in Rodents. In this account, a number of issues concerning particular anatomical details are considered in relation to the interpretations obtained by other students. Reference is made to some relevant reviews and key articles.
This is the only book available for studies of the mouse brain before birth. It presents a complete mapping of the developing mouse brain that features imaging of whole brain sections. Users will be able to compare structure shown in the Atlas to what they see in the microscope. This new, greatly expanded edition provides an easily accessible tool for researchers in the fields of normal and abnormal brain development.
The works and thoughts of Santiago Ramn y Cajal in a faithful rendition of the original Spanish version, with additional facts contained in the French translation, both of which are currently quoted around 200 times each year in the scientific literature. This is the only authorized English translation and makes use of uniform nomenclature according to contemporary scientific English. Most of the illustrations are reproductions of Cajal's original art work, with cross references to the figure numbers of the Spanish and French versions, while the taxonomic glossary uses current scientific names, and their colloquial English counterparts.
The investigation of the cortical structure of stimulus-response pathways is the central subject of this book. The investigation comprises measurement of reaction times and recording of event-related potentials, the computer assisted evaluation of these empirical data and the mathematical description of these pathways. The investigation is completed by a hypothetical neural interpretation and a comparison of the pathways of healthy subjects, patients with brain tumors, and patients with schizophrenia. The author has chosen a completely new approach by describing the structure of the stimulus-response pathways by mathematical equations and by presenting a hypothetical neural interpretation of this structure, and by simulating these pathways in computer programs. This volume presents a neural theory of simple mental processes like stimulus-response sequences. Knowing the neural correlate of decision making would have far reaching consequences for the neurosciences. The readers will benefit from new insights into the physical substrate of mental processes.
During the last decades, research on spinal cord has attracted a great deal of attention because of problems such as sensory-motor and autonomic dysfunctions associated with traumatic and other injuries. Recording of spinal cord evoked potentials is one of the most promising approaches to understand the spinal cord function. However, the details of the evoked potentials and their significance in various pathological conditions are not yet fully characterized. This book summarizes new findings in the field of electrophysiology and relates this knowledge to pathology and regeneration research. It is the first one which deals in great detail with various ways to monitor spinal cord function in experimental and clinical situations. It provides an up-to-date knowledge regarding spinal cord bioelectrical activity and its modification with pharmacological agents and covers new aspects of regeneration studies, particularly the role of myelin associated inhibitory molecules. A section is devoted to clinical studies dealing with electrical activity, pathology, and current therapeutic measures. This volume will be useful both to basic and clinical neuroscientists engaged in the field of neurology, neurophysiology, neurochemistry, neurosurgery, neuropathology, and related disciplines in order to understand basic functions of the spinal cord and to stimulate further research in this rapidly advancing field.
Biological sensors are usually remarkably small, sensitive and efficient. It is highly desirable to design corresponding artificial sensors for scientific, industrial and commercial purposes. This book is designed to fill an urgent need for interdisciplinary exchange between biologists studying sensors in the natural world and engineers and physical scientists developing artificial sensors. The main topics cover mechanical sensors, e.g. waves and sounds, visual sensors and vision and chemosensors. Readers will obtain a fuller understanding of the nature and performance of natural sensors as well as enhanced appreciation for the current status and the potential applicability of artificial microsensors.
Neuroinformatics presents cutting-edge techniques for the synergistic study of neuroinformatics. The book facilitates the efforts of discovering neuroscience through the sharing of data and the use of computational models. It demonstrates the use of neuroinformatic components as a mechanism for understanding complex disorders. It contains detailed explanations, advantages, and disadvantages of traditional and non-invasive imaging methods.
Neuroscience Databases: A Practical Guide is the first book providing a comprehensive overview of these increasingly important databases. This volume makes the results of the Human Genome Project and other recent large-scale initiatives in the neurosciences available to a wider community. It extends the scope of bioinformatics from the molecular to the cellular, microcircuitry and systems levels, dealing for the first time with complex neuroscientific issues and leading the way to a new culture of data sharing and data mining necessary to successfully tackle neuroscience questions. Aimed at the novice user who wants to access the data, it provides clear and concise instructions on how to download the available data sets and how to use the software with a minimum of technical detail with most chapters written by the database creators themselves.
This book offers pathologists, toxicologists, other medical professionals, and students an introduction to the discipline and techniques of neuropathology – including chemical and environmental, biological, medical, and regulatory details important for performing an analysis of toxicant-induced neurodiseases. In addition to a section on fundamentals, the book provides detailed coverage of current practices (bioassays, molecular analysis, and nervous system pathology) and practical aspects (data interpretation, regulatory considerations, and tips for preparing reports).