Frontiers in Alzheimer's Disease ResearchNova Publishers, 2006 - 353 Seiten Dementia is a brain disorder that seriously affects a person's ability to carry out daily activities. The most common form of dementia among older people is Alzheimer's Disease (AD), which involves the parts of the brain that control memory, thought and language. Age is the most important known risk factor for AD. The number of people with the disease doubles every 5 years beyond age 65. AD is a slow disease, starting with mild memory loss and ending with severe brain damage. The course the disease takes and how fast changes occur vary from person to person. On average, AD patients live from 8 to 10 years after they are diagnosed, though the disease can last for as many as 20 years. Current research is aimed at understanding why AD occurs and who is at greatest risk for developing it, improving the accuracy of diagnosis and ability to identify who is at risk, developing, discovering and testing new treatments for behavioural problems in patients with AD. This book gathers state-of-the-art research from leading scientists throughout the world which offers important information on understanding the underlying causes and discovering the most effective treatments for Alzheimer's Disease. |
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Seite vii
... formation the central mechanisms of AD causation . The role of amyloid and tau proteins in metal chelation , inflammation , oxidative stress and structural changes to the neuronal cytoskeleton have been extensively investigated ...
... formation the central mechanisms of AD causation . The role of amyloid and tau proteins in metal chelation , inflammation , oxidative stress and structural changes to the neuronal cytoskeleton have been extensively investigated ...
Seite viii
... formation of neurofibrillary tangles , neuronal and synaptic dysfunction , and loss of neurons and synapses . One of the most challenging aspects of the elucidation of AD pathogenesis is unraveling putative associations and causative ...
... formation of neurofibrillary tangles , neuronal and synaptic dysfunction , and loss of neurons and synapses . One of the most challenging aspects of the elucidation of AD pathogenesis is unraveling putative associations and causative ...
Seite ix
... formation of concepts , learning ability , semantic memory , and executive functions all were possible predicting factors for AD . Neuropathology and neuroimaging studies both revealed the correlation between cognitive performance and ...
... formation of concepts , learning ability , semantic memory , and executive functions all were possible predicting factors for AD . Neuropathology and neuroimaging studies both revealed the correlation between cognitive performance and ...
Seite 1
... formation the central mechanisms of AD causation . The role of amyloid and tau proteins in metal chelation , inflammation , oxidative stress and structural changes to the neuronal cytoskeleton have been extensively investigated ...
... formation the central mechanisms of AD causation . The role of amyloid and tau proteins in metal chelation , inflammation , oxidative stress and structural changes to the neuronal cytoskeleton have been extensively investigated ...
Seite 2
... formation • Inflammation ( gliosis , cytokines , complement activation ) ⚫ Oxidative stress • Dysregulated metal ion homeostasis ( particularly Cu2 + , Zn2 + , Fe2 * ) • Cerebral amyloid angiopathy • Brain region specific pathology ...
... formation • Inflammation ( gliosis , cytokines , complement activation ) ⚫ Oxidative stress • Dysregulated metal ion homeostasis ( particularly Cu2 + , Zn2 + , Fe2 * ) • Cerebral amyloid angiopathy • Brain region specific pathology ...
Inhalt
1 | |
55 | |
Synapse and Neuron Loss in Transgenic Mouse Models of Alzheimers Disease | 97 |
Neuropsychological Manifestations in Preclinical Alzheimers Disease | 127 |
Altered Brain Activation During Cognitive Process in Alzheimers Disease | 145 |
Premature Centromere Division PCD of the X Chromosome as a BioMarker of the Brain Cells reEntry Into the Cell Division Cycle in Alzheimers Dise... | 163 |
The Aging Brain The Risk Factor for Sporadic Alzheimers Disease SAD Cellular and Molecular Aspects | 179 |
Remembering Emotional Information Effects of Aging and Alzheimers Disease | 213 |
ApoE Anxiety and Alzheimers Disease | 227 |
Insulin Resistance Depressive Disorders and Alzheimers Disease | 251 |
Searching for Genetic Risk Factors in AD A NeverEnding Story | 279 |
APOE and Cognitive Function in Nondemented Old Age A Genetic Basis for Brain or Cognitive Reserve? | 309 |
Index | 333 |
Häufige Begriffe und Wortgruppen
acid activity age-related allele Alzheimer disease amygdala amyloid precursor protein Apoe mice apoE4 apolipoprotein apoptosis associated beta-amyloid Biol Brain Res caspase centromere cerebral Chem cholesterol chromosome clinical cognitive decline cognitive function cognitive reserve correlation cortex cortical cytotoxic dementia depressive disorders diabetes dysfunction effects emotional memory enzyme evidence expression extracellular Aẞ aggregates frontal gene genetic genotype glucose metabolism Hashimoto hippocampal human Humanin hypothesis increased induced inhibition insulin receptor Kensinger kinase late-onset levels measures of anxiety mechanisms mediated mild cognitive impairment MMSE molecular mouse model mutant Natl Acad Sci Neurobiol Aging Neurochem neurodegeneration neurofibrillary tangles Neurology neuron loss neuronal neuronal cell death neuronal death neuroprotective neuropsychological Neurosci Neurosci Lett neurotoxicity Niikura Nishimoto onset oxidative stress pathogenesis pathology pathway peptide polymorphism preclinical presenilin Psychiatry regulation risk factor role Selkoe signal SIPB sporadic ẞ-amyloid studies synapse transgenic transgenic mice vascular wild-type X chromosome
Beliebte Passagen
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