Synopses & Reviews
In recent years, research on Alzheimer's disease has become one of the most intensely pursued areas in the field of neuroscience. Despite the wealth of information gathered, however, relatively little of what has been learned has resulted in the development of effective treatments.
Pharmacological Treatment of Alzheimer's Disease: Molecular and Neurobiological Foundations gathers the top investigators in the area of Alzheimer's research and presents their pioneering work on potential treatments for this devastating disease. Combining current knowledge of the neurobiology of memory with molecular studies related to disease etiology, this book provides a comprehensive review of the latest research on Alzheimer's as well as a thorough examination of current experiments with drugs that could correct the biochemical defects that cause Alzheimer's or ameliorate the associated cognitive deficits. Each of the book's three sections, "Neurobiology of Cognition," "Molecular Aspects of Alzheimer's Disease," and "Alzheimer's Drug Discovery and Development," is a collection of the most recent studies by prominent specialists in their respective fields.
Among the numerous topics covered:
* Structure and dynamics of multiple memory systems in Alzheimer's disease
* Interaction of neuromodulatory systems regulating memory storage
* Neuropsychological features of Alzheimer's disease
* Normal brain aging and Alzheimer's disease pathology
* Recent developments in the genetics of Alzheimer's disease
* Animal models relevant to Alzheimer's disease
* Considerations for clinical trials in Alzheimer's disease
* A fundamental role for estrogens in cognition and neuroprotection
* Alzheimer's disease: prospects for treatment in the next decade.
A comprehensive and balanced overview of the most critically important information available, Pharmacological Treatment of Alzheimer's Disease: Molecular and Neurobiological Foundations heralds a new phase in the process of studying this uniquely human disease: the search for treatments. It is must reading for neuroscientists, pharmacologists, medicinal chemists, and academic physicians involved in basic research and clinical trials, as well as for clinicians who treat Alzheimer's patients.
Synopsis
Prominent Alzheimer's investigators provide a comprehensive and balanced overview of the neuropharmacological basis for therapeutics in this devastating disease. Divided into three parts, the book begins with basic research on the neurobiology of cognitive function, offering relevant information on the way the brain encodes and stores data. The second segment explores the molecular aspects of Alzheimer's Disease (AD), emphasizing investigations of possible etiological factors. In the final section, a variety of issues important in developing treatments are discussed including cholinergic-based treatments, the role of neuroinflammin in AD and the therapeutic potential of anti-inflammatory agents.
Synopsis
Geboten wird ein vollst ndiger, ausgewogener berblick ber die neuropharmakologischen Grundlagen von Therapeutika f r die Alzheimer-Krankheit. Neueste Untersuchungen molekularer Strukturen und aktuelle klinische Daten werden mit der Verhaltens- und Erkenntnisforschung verkn pft und interpretiert.
Synopsis
A comprehensive and balanced overview of the neuropharmacological basis for therapeutics in Alzheimer's Disease. By tying together current knowledge on the neurobiology of memory, and molecular studies related to the disease's etiology, the book provides a rational basis for discussion of current strategies for developing drugs.
Uses a unique approach uniting basic research in behavior and cognition with new molecular studies and the latest clinical data.
-- In this area of rapid research, this book presents the very latest breakthroughs in neuropharmacological treatment for Alzheimer's.
Table of Contents
Partial table of contents:
NEUROBIOLOGY OF COGNITION.
Structure and Dynamics of Multiple Memory Systems in Alzheimer's Disease (R. Kesner & M. Ragozzino).
Monoamine and Acetylcholine Influences on Higher Cognitive Functions in Nonhuman Primates: Relevance to the Treatment of Alzheimer's Disease (A. Arnsten & C. van Dyck).
Neuropsychological Features of Alzheimer's Disease (D. Salmon).
MOLECULAR ASPECTS OF ALZHEIMER'S DISEASE.
Normal Brain Aging and Alzheimer's Disease Pathology (R. Grewal & C. Finch).
Neurofibrillary Tangles in Alzheimer's Disease: Clinical and Pathological Implications (C. Clark, et al.).
ALZHEIMER'S DRUG DISCOVERY AND DEVELOPMENT.
Use of CSF-Based Markers in the Diagnosis of Alzheimer's Disease (P. Seubert, et al.).
Development of Muscarinic Agonists for the Symptomatic Treatment of Alzheimer's Disease (J. Jaen & R. Schwarz).
Conceptual Issues in Research on Inflammation and Alzheimer's Disease (J. Rogers).
Index.