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Methods in Neurosciences
Because of the significance of morphology and cellular communication unique to the functioning and interdependence of neural systems, many of the advances in the neurosciences rely on classic as well as new microscopy techniques.A convenient bench-top format**Methods presented for easy adaptation to new systems**Comprehensive protocols included for**Autoradiography: measurement of hormone receptors, high-resolution techniques, double labeling and combined techniques**Statistical and computational methods: video imaging, three-dimensional reconstructions, means of structural quantitation, unbiased sampling methods, measurement of analysis of neuronal connections, staining, and individual axon arbors**Tracing neuronal connections: tracer, toxin, and dye methods**Staining techniques: fluoro-gold, SITS, and silver impregnation**Freezing techniques: freeze fracture and cryoprotection**Combined and high-resolution techniques: double-label tracer techniques, incident light polarization, light and electron microscopic techniques
Macromolecular Interplay in Brain Associative Mechanisms
This volume looks at the associative mechanisms of the brain, particularly of the cortico-limbic and diencephalic systems, and also at the macromolecular effects on them, by integrating the contributions of various disciplines converging on one subject and from different points of view. It addresses the question of how so many different activity levels — the biochemical, physiological, and psychological ones — interact in integrative processes. The topics treated include brain reverberating systems and associative phenomena; long-term potentiation, learning, and memory; gene activity and brain activity; and gene expression and information processing during sleep.
Neurochemistry in Clinical Practice
This book offers a comprehensive overview of the most important neurochemicals and approaches everything from the neurochemical’s perspective. It attempts to integrate the biochemical pathways of synthesis and metabolism of these neurochemicals with the disease states and point out the avenues of diagnostic testing and therapeutic intervention. Each chapter focuses on a specific neurochemical and provides a brief history, the biochemical profile, metabolism, physiological functions, and the clinical aspects. The clinical part of each chapter includes a discussion on disease states with either increased or reduced activity of the neurochemical and either activation or inhibition of the relevant receptors. This book is targeted toward practitioners and students of neuroscience and is written to emphasize the importance of these neurochemicals in the brain. With this emphasis on background neurochemical processes, the readers will be pointed towards logical diagnostic studies, laboratory investigations, and therapies based on the neurochemical dysfunction that underlies various disease states.
The Barrel Cortex of Rodents
Volume 11 examines the many methodologies that researchers use to investigate the barrel cortex.
Neuroscience in Africa
This Research Topic covers some of the latest research on brain and behavior in health and disease in Africa. With its untapped resources and unique situations, “Neuroscience in Africa” has the potential to contribute to a better understanding of human brain function both in health and disease. The diverse African fauna display a range of specializations in brain structure/function relationships as a result of adaptations to the environment. Exploration of these may lead to insights into coping strategies which could be extrapolated to humans. Africa’s unique flora is being investigated for anti-inflammatory, antinociceptive, antioxidant, antiepileptogenic and neuroprotective properties to determine its potential for use in the treatment of human brain disorders. There is also research on neurodegenerative and infectious diseases, not only common to the global world, but also neglected tropical diseases and conditions which provide unique avenues of investigations in basic and translational neuroscience on highly debilitating disorders - and on the effects of pathogens and environmental toxins.
History of Neurology
Handbook of Clinical Neurology: Volume 95 is the first of over 90 volumes of the handbook to be entirely devoted to the history of neurology. The book is a collection of historical materials from different neurology professionals. The book is divided into 6 sections and composed of 55 chapters organized around different aspects of the history of neurology. The first section presents the beginnings of neurology: ancient trepanation, its birth in Mesopotamia, ancient Egypt; the emergence of neurology in the biblical text and the Talmud; neurology in the Greco-Roman world and the period following Galen; neurological conditions in the European Middle Ages; and the development of neurology in the...
Generalized Epilepsy
In recent years there has been intense interest in the basic mechanisms of epilepsy. Many symposia and monographs have been devoted to this topic. These reviews, however, have focused almost exclusively on studies performed in models of partial (or focal) epilepsy. It was natural that scientists interested in the fundamental mechanism of epileptogenesis at the cellular level were attracted to work on models in which the epileptogenic dysfunction could be confined to ever-smaller populations of neurons. Many of the most illuminating studies done in this field in the recent past have been carried out in vitro on brain slices or on dissociated neuronal cultures. Much valuable insight into the m...
Gating in Cerebral Networks
The correct functioning of the mammalian brain depends on the integrated activity of myriad neuronal and non-neuronal cells. Discrete areas serve discrete functions, and dispersed or distributed communities of cells serve others. Throughout, these networks of activity are under the control of neuromodulatory systems. One goal of current neuroscientific research is to elucidate the precise methods by which these systems operate, especially during normal conscious behaviours and processes. Mircea Steriade and Denis Paré describe the neuronal properties and networks that exist within and between the cortex and two important sub-cortical structures: the thalamus and amygdala. The authors explore the changes in these properties, covering topics including morphology, electrophysiology, architecture and gating; and comparing regions and systems in both normal and diseased states. Aimed at graduates and postdoctoral researchers in neuroscience.
