Welcome to our book review site go-pdf.online!
You may have to Search all our reviewed books and magazines, click the sign up button below to create a free account.
Molecular Mechanisms of Dementia
The past decade has witnessed a revolution in the attempts of scientists to under stand the molecular basis of dementia. Although dementia, as defined by global cogni tive decline involving gradual loss of memory, reasoning, judgment, and orientation, presents most commonly in the form of Alzheimer's disease (AD), an assortment of other less common disorders, such as prion and Pick's disease, can also lead to symp toms that are similar to those observed in patients with AD. The primary goal of Molecular Mechanisms of Dementia is to address the various mechanisms and multi faceted approaches currently being employed to more clearly delineate the etiological and pathogenic events responsible f...
Mapping the Progress of Alzheimer’s and Parkinson’s Disease
1h The 5 International Conference on the Progress in Alzheimer's Disease and Parkinson's 51 1 Disease took place from March 31 to April 5 \ 2001 in Kroto, Japan. This international 1 conference was organized as a joint Congress with the 9 International Catecholamine Symposium. A total of 1258 clinicians and researchers participated in this joint congress 1h from 38 countries in the world. This book represents the proceedings of the 5 Conference on Alzheimer's and Parkinson's disease. The International Conference on the Progress in Alzheimer's and Parkinson's disease was first launched by Professor Abraham Fisher of Israel and Professor Israel Hanin of USA. The first conference was held in Ei...
Neuronal Calcium Sensor Proteins
Calcium signalling is an astonishing example how a simple caption can trigger and regulate an enormous variety of cellular and physiological responses. Ca2+-signalling routes very often involve Ca2+-binding proteins that sense changes in intracellular [Ca2+] and trigger cellular responses by regulating specific targets. One fascinating group among these Ca2+-sensors are the neuronal calcium sensor (NCS) proteins, named for their localisation in neuronal tissue (although there are reports of their expression in non-neuronal tissues as well). While recent excellent reviews have covered key aspects of this protein group, the field expanded in recent years making it more and more difficult to represent every facet of this ongoing research endeavour. This book is intended to represent properties of NCS proteins.
Alzheimer: 100 Years and Beyond
Few medical or scientific addresses have so unmistakeably made history as the presentation delivered by Alois Alzheimer on November 4, 1906 in Tübingen. The celebratory event "Alzheimer 100 Years and Beyond" was organized through the Alzheimer community in Germany and worldwide, in collaboration with the Fondation Ipsen. This volume, a collection of articles by the invited speakers and of a few other prominent researchers, is published as a record of those events.
Molecular Biology of Alzheimer's Disease
Highlighting the latest and the most timely aspects of Alzheimer's disease research, this text will enable scientists in related research fields, as well as physicians working with Alzheimer's disease patients, to obtain a quick and complete overview of the current state of the art in one of the most exciting fields in neuroscience research. Leading scientists have contributed articles focusing on key developments in this field. This includes an overview about the pathology, the genetics of familial Alzheimer's disease, proteolytic generation and aggregation of amyloid -peptide, presenilins, risk factors such as ApoE, and transgenic animal models. Some of the latest developments in Alzheimer's disease research, including the effect of presenilin knock outs on amyloid -peptide generation, are also included.
Genetics and Evolution of Aging
Aging is one of those subjects that many biologists feel is largely unknown. Therefore, they often feel comfortable offering extremely facile generalizations that are either unsupported or directly refuted in the experimental literature. Despite this unfortunate precedent, aging is a very broad phenomenon that calls out for integration beyond the mere collecting together of results from disparate laboratory organisms. With this in mind, Part One offers several different synthetic perspectives. The editors, Rose and Finch, provide a verbal synthesis of the field that deliberately attempts to look at aging from both sides, the evolutionary and the molecular. The articles by Charlesworth and Cl...
Neurobiology of Spinal Cord Injury
Distinguished researchers review the latest scientific understanding of spinal cord injury (SCI), focusing on the mechanisms causing paralysis after spinal cord trauma, the molecular determinants of neural regeneration, and methods for improving damaged function. The authors examine the role of intracellular Ca2+ in neuronal death, the possibility of spinal learning, growth-promoting molecules for regenerating neurons, and the biochemistry and cell biology of microtubules. Among the treatment possibilities discussed are cell transplantation strategies beyond the use of fetal spinal cord tissue, remyelination in spinal cord demyelination models, high steroid therapy immediately after SCI, and the mixed use of anti- and proinflammatories. Comprehensive and highly promising, Neurobiology of Spinal Cord Injury summarizes and integrates the great progress that has been made in understanding and combating the paralysis that follows spinal cord injury.
Cracking the Genome
In 1953, James Watson and Francis Crick discovered the double helix structure of DNA. The discovery was a profound, Nobel Prize-winning moment in the history of genetics, but it did not decipher the messages on the twisted, ladderlike strands within our cells. No one knew what the human genome sequence actually was. No one had cracked the code of life. Now, at the beginning of a new millennium, that code has been cracked. Kevin Davies, founding editor of the leading journal in the field, Nature Genetics, has relentlessly followed the story as it unfolded, week by week, for ten years. Here for the first time, in rich human, scientific, and financial detail, is the dramatic story of one of the...
Neural Stem Cells for Brain and Spinal Cord Repair
Active neuroscientists survey NSCs as potential tools for central nervous system and spinal cord repair by explaining their clinically significant fundamental properties, manipulations, and potential therapeutic paradigms. Their discussion of the fundamental biology of NSCs illustrates the signaling pathways that regulate stem cell division and differentiation, and defines the methods of NSC expansion and propagation, neuromorphogenesis, the factors determining cell fate both in vitro and in situ, and the induction of self-reparative processes within the brain. They also present strategies that may lead to fruitful clinical applications in the near future. These range from the replacement of degenerated, dysfunctional, or maldeveloped cells to the provision of factors that may protect, correct, recruit, promote self-repair, or mediate the connectivity of host cells.
Gene Therapy for Neurological Disorders and Brain Tumors
Leading gene therapy researchers and clinicians illuminate the field-from basic vector technology to current and future clinical applications in neurology. The authoritative contributors provide cutting-edge reviews of the vectors available for gene transfer to the central nervous system, the strategies against CNS tumors, the potential strategies against neurologic disorder, and the limitations of today's gene therapy approaches. Also discussed are significant applications of gene therapy to brain tumors, Parkinson's disease, ischemia, and Huntington's chorea. Readers will learn the current delivery methods for transgenes, will learn the characteristics of transgene delivery vectors, and come to understand the therapy for both neuro-oncologic and neurologic disorders.
