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Collectively, neurodegenerative diseases are characterized by chronic and progressive loss of neurons in discrete areas of the brain, producing debilitating symptoms such as dementia, loss of memory, loss of sensory or motor capability, decreased overall quality of life eventually leading to premature death. Two types of cell death are known to occur during neurodegeneration: (a) apoptosis and (b) necrosis. The necrosis is characterized by the passive cell swelling, intense mitochondrial damage with rapid loss of ATP, alterations in neural membrane permeability, high calcium influx, and disruption of ion homeostasis. This type of cell death leads to membrane lysis and release of intracellular components that induce inflammatory reactions. Necrotic cell death normally occurs at the core of injury site. In contrast, apoptosis is an active process in which caspases (a group of endoproteases with specificity for aspartate residues in protein) are stimulated. Apoptotic cell death is accompanied by cell shrinkage, dynamic membrane blebbing, chromatin condensation, DNA laddering, loss of phospholipids asymmetry, low ATP levels, and mild calcium overload. This type of cell death normally occurs in penumbral region at the ischemic injury site and in different regions in various neurodegenerative diseases.
"Neurodegenerative diseases are a complex heterogeneous group of diseases associated with site-specific premature and slow death of certain neuronal populations in brain and spinal cord tissues. For example, in Alzheimer disease, neuronal degeneration occu"
Role of the Mediterranean Diet in the Brain and Neurodegenerative Disease provides a comprehensive overview of the effects of all components of the Mediterranean diet on the brain, along with its beneficial effects in neurodegenerative diseases. It covers topics on neurodegenerative diseases (Alzheimer disease (AD), Parkinson disease, (PD) Huntington disease (HD) and Amyotrophic Lateral Sclerosis (ALS), also providing information on how cardiovascular disease, Type 2 Diabetes, and Metabolic Syndrome become risk factors for neurodegenerative diseases. This book focuses on how the Mediterranean diet suppresses oxidative stress and neuroinflammation in neurodegenerative diseases as well as signal transduction. The Mediterranean diet is characterized by the abundant consumption of olive oil, high consumption of plant foods (fruits, vegetables, pulses, cereals, nuts and seeds); frequent and moderate intake of wine (mainly with meals); moderate consumption of fish, seafood, yogurt, cheese, poultry and eggs; and low consumption of red meat and processed meat products. High consumption of dietary fiber, low glycemic index and glycemic load, anti-inflammatory effects, and antioxidant compounds may act together to produce favorable effects on health status. Collective evidence suggests that Mediterranean diet not only increases longevity by lowering cardiovascular disease, inhibiting cancer growth, but also by protecting the body from age-dependent cognitive decline. - Comprehensively provides an overview of the effects of the Mediterranean diet on the brain and its beneficial effects in neurodegenerative diseases - Discusses the relationship among Type 2 Diabetes, Metabolic Syndrome and Alzheimer's Disease, and the effect of the Mediterranean diet on normal aging, longevity, and other neurodegenerative diseases - Focuses on how the Mediterranean diet suppresses oxidative stress and neuroinflammation in neurodegenerative disease
Phytochemicals Signal Transduction and Neurological Disorders Phytochemicals are heterogeneous group of bioactive compounds produced by plants, which are extensively researched by scientists for their health-promoting potentials in human diseases. Unlike vitamins and minerals, phytochemicals are not required for sustaining cell viability, but they play an important role in protecting tissues and cells from the harmful effects of oxidative stress and inflammation. Examples of phytochemicals include catechins, resveratrol, ginkgo biloba, curcumin, and sulfur compounds found in garlic. Although, the precise molecular mechanisms associated with beneficial effects of phytochemicals still remain the subject of intense investigations, but it is becoming increasingly evident that phytochemicals mediate their effects by counteracting, reducing, and repairing the damage caused by oxidative stress and neuroinflammation. In addition, phytochemicals also stimulate the synthesis of adaptive enzymes and proteins through the stimulation of a transcription factor called Nrf2 and induction of phase II detoxifying enzymes. Consumption of phytochemicals induces neurohormetic response that results in the expression of adaptive stress-resistance genes that are responsible for encoding antioxidant enzymes, protein chaperones, and neurotrophic factor (BDNF). Based on the stimulation of signal transduction network and adaptive stress-resistance genes, it is proposed that the use of phytochemicals from childhood to old age along with regular exercise is an important strategy for maintaining normal aging and delaying onset of age-related neurological disorders (stroke, Alzheimer disease, and Parkinson disease). Phytochemicals Signal Transduction and Neurological Disorders presents readers with cutting edge and comprehensive information not only on bioavailability, and mechanism of action of phytochemicals in the brain, but also provides the molecular mechanism associated with beneficial effects of phytochemicals in neurotraumatic (stroke, spinal cord trauma, and traumatic brain injury) and neurodegenerative (Alzheimers disease, Parkinson disease, Huntington disease, and amyotrophic lateral sclerosis) diseases.
Neuroinflammation, Resolution, and Neuroprotection in the Brain discusses the molecular aspects of neuroinflammation in neurological disorders. The book examines the effect of diet and exercise on neuroinflammatory diseases. Chapters focus on bioactive lipids, cytokines and chemokines, as well as the involvement of neuroinflammation, resolution and neuroprotection in neurotraumatic diseases, neurodegenerative diseases and neuropsychiatric diseases. The comprehensive information in this monograph will help readers understand molecular cross-talk among mediators of phospholipid, sphingolipid and cholesterol metabolism. The book's goal is to jumpstart more studies on molecular mechanisms and the therapeutic aspects of neurological disorders in human subjects. - Discusses the molecular aspects of neuroinflammation, resolution and neuroprotection - Examines the role of diet and exercise on neuroinflammatory diseases - Provides cutting-edge research on signal transduction processes - Explores the treatment of neurological disorders caused by neuroinflammation
This is the first book on the market that explores the importance of curcumin for the treatment of neurological disorders. It has been estimated that 35.6 million people globally had dementia in 2010 and the prevalence of dementia has been predicted to double every 20 years. Thus, 115.4 million people may be living with dementia in 2050. Alzheimer’s disease (AD) is the leading cause of dementia and is present in 60%–70% of people with dementia. Unless new discoveries are made in the prevention or treatment of AD, the number of cases in the US alone is estimated to increase threefold, to 13.2 million by the year 2050. Thus, it is important to focus on delaying and treating the onset of AD by curcumin may be an important step for controlling AD. Regular consumption of healthy diet containing curcumin enriched foods, moderate exercise, and regular sleep may produce beneficial effects not only on motor and cognitive functions, but also on memory deficits that occur to some extent during normal aging and to a large extent in AD. Delaying the onset and progression of AD and improving its symptoms by few years with regular consumption of curcumin may relieve some of the burden on health care systems. In service of this goal, this volume gives readers a comprehensive and cutting edge description of the importance of curcumin for the treatment of AD in cell culture and animal models in a manner that is useful not only to students and teachers but also to researchers, dietitians, nutritionists and physicians. It can be used as supplement text for a range of neuroscience and nutrition courses. Clinicians, neuroscientists, neurologists and pharmacologists will find this book useful for understanding molecular aspects of AD treatment by curcumin.
The purpose of this monograph is to present readers with a comprehensive and cutting edge description of neurochemical effects of diet (beneficial and harmful effects) in normal human brain and to discuss how present day diet promotes pathogenesis of stroke, AD, PD, and depression in a manner that is useful not only to students and teachers but also to researchers, dietitians, nutritionists and physicians. A diet in sufficient amount and appropriate macronutrients is essential for optimal health of human body tissues. In brain, over-nutrition, particularly with high-calorie diet, not only alters cellular homeostasis, but also results in changes in the intensity of signal transduction processes in reward centers of the brain resulting in food addiction. Over-nutrition produces detrimental effects on human health in general and brain health in particular because it chronically increases the systemic and brain inflammation and oxidative stress along with induction of insulin resistance and leptin resistance in the brain as well as visceral organs. Onset of chronic inflammation and oxidative stress not only leads to obesity and heart disease, but also promotes type II diabetes and metabolic syndrome, which are risk factors for both acute neural trauma (stroke) and chronic age-related neurodegenerative and neuropsychological disorders, such as Alzheimer disease (AD), Parkinson disease (PD) and depression.
Neurochemical Aspects of Alzheimer's Disease provides a comprehensive overview of molecular aspects of risk factors, pathogenesis, biomarkers, and therapeutic strategies. The book focuses on molecular mechanisms and signal transduction processes associated with the pathogenesis, biomarkers, and therapeutic strategies of AD. The comprehensive and cutting edge information in this monograph may not only help in early detection of AD, but also promote discovery of new drugs to treat this chronic disease. Chapters discuss involvement of neural membrane phospholipids, sphingolipids, and cholesterol-derived lipid mediators, abnormal APP processing, and nucleic acid damage, risk factors, biomarker, and therapeutic strategies of Alzheimer's disease. This book is written for neurologists, neuroscientists, neurochemists, neuropharmacologists, and clinicianswho are interested in molecular mechanisms associated with the pathogenesis of age-related neurological disorders. - Provides a comprehensive overview of molecular aspects of risk factors, pathogenesis, biomarkers, and therapeutic strategies for Alzheimer's disease - Written for researchers, clinicians, and advanced graduate students in neurology, neuroscience, neurochemistry, and neuropharmacology - Acts as the first book to provide a comprehensive description of the signal transduction processes associated with pathogenesis of Alzheimer's disease
This volume presents a unique comparative treatment of the role oxidative stress plays in vertebrates and invertebrates in multiple organ systems with regards to cell death, development, aging, and human diseases, and anti-oxidant therapy. It offers comprehensive reviews of the current understanding of oxidative stress-mediated physiology and pathology as well as directions for future research. It also provides current information on the role of oxidative stress in neurodegenerative diseases, cardiovascular diseases, and various types of cancer mediated by oxidative stress.
Metabolic syndrome as an important risk factor for stroke, Alzheimer disease, and depression presents readers with cutting edge and comprehensive information on relationship among metabolic syndrome, stroke, Alzheimer disease, and depression. It is hoped that this monograph will be useful to postgraduate students, faculty, research scientists, pharmacologists, nutritionists, and physicians, who are curious about the molecular mechanisms that link metabolic syndrome with stroke, Alzheimer disease, and depression.