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This comprehensive reference provides a detailed overview of current concepts regarding the cause of Parkinson's disease-emphasizing the issues involved in the design, implementation, and analysis of epidemiological studies of parkinsonism.
The Neuroscience of Parkinson’s Disease (two volume set) provides a single source of material covering different scientific domains of neuropathology underlying this condition. The book covers a wide range of subjects and unravels the complex relationships between genetics, molecular biology, pharmaceutical chemistry, neurobiology, imaging, assessments, and treatment regimens. The book also fills a much-needed gap as a "one-stop" synopsis of everything to do with the neurology and neuroscience related to Parkinson’s disease—from chemicals and cells to individuals. It is an invaluable resource for neuroscientists, neurologists, and anyone in the field. Offers the most comprehensive coverage of a broad range of topics related to Parkinson's disease Serves as a foundational collection for neuroscientists and neurologists on the biology of disease and brain dysfunction Contains in each chapter an abstract, key facts, mini dictionary of terms, and summary points to aid in understanding Features preclinical and clinical studies to help researchers map out key areas for research and further clinical recommendations Serves as a "one-stop" source for everything you need to know about Parkinson’s disease
Here is a marvelous guide for anyone affected by Parkinson's disease--patients, caregivers, family members, and friends. Containing the most up-to-date information on the disease, one of the most common neurological disorders, it discusses the available treatments and provides practical advice on how to manage the disease in the long term. Emphasizing life-style adjustments that will provide a better quality of life and moderate the burden for patients and their loved ones, the book answers many questions and clarifies misunderstandings regarding the disease. Written by two experts on Parkinson's disease and a freelance journalist, the book is approachable and easily understandable. Question and answer sections are provided, while "hot topics" are highlighted for easy visibility. The authors have also included true patient stories that will both inspire and instruct, and they have addressed several topics often not mentioned in physician-directed disease management, such as how to talk to family and friends about one's life with Parkinson's.
Parkinson's disease is a neurological disorder with cardinal motor signs of resting tremor, bradykinesia and lead-pipe rigidity. In addition, many patients display non-motor symptoms, including a diminished sensation of smell, gastrointestinal problems, various disorders of sleep and some cognitive impairment. These clinical features - particularly the motor signs - manifest after a progressive death of many dopaminergic neurones in the brain. Although currently available, conventional therapies can reduce the signs of the disease, the progression of this neuronal death has proved difficult to slow or stop, and the condition is relentlessly progressive. Hence, there is a real need to develop a treatment that is neuroprotective, one that slows the pathology of the disease effectively. At present, there are several neuroprotective therapies in the experimental pipeline, but these are for the patients of tomorrow. This book focuses on two therapies that are readily available for the patients of today. They involve the use of exercise and light (i.e. photobiomodulation, the use of red to infrared light therapy (λ=600-1070nm) on body tissues). The two therapies are tied together in several ways. First, in animal models of Parkinson's disease, they each have been shown to offer the key feature of neuroprotection, stimulating a series of built-in protective mechanisms within the neurones, that helps their survival, to self-protect and/or self-repair. There are also some promising indications of neuroprotection and many beneficial outcomes in parkinsonian patients. Further, both exercise and light therapies are similar in that they are non-invasive and safe to use, with no known adverse side-effects, making their combination with the conventional therapies, such as dopamine replacement drug therapy and deep brain stimulation, all the more feasible. Given the heterogeneity of Parkinson's disease in humans, tackling the condition from a range of different angles - with a number of different therapies - would only serve to enhance the positive outcomes. This book considers the use of exercise and light therapies, proposing that they have the potential to make a powerful "dynamic duo", offering a most effective neuroprotective treatment option to patients.
Parkinson's Disease, Volume 132 addresses new developments in the F33 study of this disease, highlighting how the lives of people with Parkinson’s have undergone dramatic changes in the last decade. New to this edition are chapters on the Hallmarks of clinical aspects PD throughout centuries, The motor syndrome of Parkinson disease, The non-motor features of Parkinson’s disease, The New Diagnostic Criteria for Parkinson's disease, Advances in the Clinical Differential diagnosis, Clinical assessments in PD : Scales and monitoring, Biomarkers of Parkinson’s disease: an Introduction, and the Genetics of Parkinson’s Disease: Genotype-Phenotype Correlations. The topics discussed in this comprehensive series provide a clearer understanding of the prodromal stage, genetics, strategies, routes of treatment, and development of non-dopaminergic therapies in Parkinson's Disease, both medical and surgical. Contains cutting-edge developments in the field Presents both motor and non-motor coverage
Diagnosis and Management in Parkinson's Disease: The Neuroscience of Parkinson's, Volume 1 provides a single source of material covering different scientific domains of neuropathology underlying this condition. The book covers a wide range of subjects and unravels the complex relationships between genetics, molecular biology, pharmaceutical chemistry, neurobiology, imaging, assessments, and treatment regimens. It fills a much-needed gap as a "one-stop" synopsis of everything concerning the neurology and neuroscience related to Parkinson's disease, from chemicals and cells to individuals. The book is an invaluable resource for neuroscientists, neurologists, and anyone in the field. - Offers the most comprehensive coverage of a broad range of topics related to Parkinson's disease - Serves as a foundational collection for neuroscientists and neurologists on the biology of disease and brain dysfunction - Contains in each chapter an abstract, key facts, mini dictionary of terms, and summary points to aid in understanding - Features preclinical and clinical studies to help researchers map out key areas for research and further clinical recommendations - Serves as a "one-stop" source for everything you need to know about Parkinson's disease
The brain is the most complex organ in our body. Indeed, it is perhaps the most complex structure we have ever encountered in nature. Both structurally and functionally, there are many peculiarities that differentiate the brain from all other organs. The brain is our connection to the world around us and by governing nervous system and higher function, any disturbance induces severe neurological and psychiatric disorders that can have a devastating effect on quality of life. Our understanding of the physiology and biochemistry of the brain has improved dramatically in the last two decades. In particular, the critical role of cations, including magnesium, has become evident, even if incompletely understood at a mechanistic level. The exact role and regulation of magnesium, in particular, remains elusive, largely because intracellular levels are so difficult to routinely quantify. Nonetheless, the importance of magnesium to normal central nervous system activity is self-evident given the complicated homeostatic mechanisms that maintain the concentration of this cation within strict limits essential for normal physiology and metabolism. There is also considerable accumulating evidence to suggest alterations to some brain functions in both normal and pathological conditions may be linked to alterations in local magnesium concentration. This book, containing chapters written by some of the foremost experts in the field of magnesium research, brings together the latest in experimental and clinical magnesium research as it relates to the central nervous system. It offers a complete and updated view of magnesiums involvement in central nervous system function and in so doing, brings together two main pillars of contemporary neuroscience research, namely providing an explanation for the molecular mechanisms involved in brain function, and emphasizing the connections between the molecular changes and behavior. It is the untiring efforts of those magnesium researchers who have dedicated their lives to unraveling the mysteries of magnesiums role in biological systems that has inspired the collation of this volume of work.
In this "must-read" guide (Lonnie Ali), four leading doctors and advocates offer a bold action plan to prevent, care for, and treat Parkinson's disease-one of the great health challenges of our time. Brain diseases are now the world's leading source of disability. The fastest growing of these is Parkinson's: the number of impacted patients has doubled to more than six million over the last twenty-five years and is projected to double again by 2040. Harmful pesticides that increase the risk of Parkinson's continue to proliferate, many people remain undiagnosed and untreated, research funding stagnates, and the most effective treatment is now a half century old. In Ending Parkinson's Disease, four top experts provide a plan to help prevent Parkinson's, improve care and treatment, and end the silence associated with this devastating disease.
A Top 10 Science Book of Fall 2015 - Publishers Weekly A star science journalist with Parkinson's reveals the inner workings of this perplexing disease Seven million people worldwide suffer from Parkinson's, and doctors, researchers, and patients continue to hunt for a cure. In Brain Storms, the award-winning journalist Jon Palfreman tells their story, a story that became his own when he was diagnosed with the debilitating illness. Palfreman chronicles how scientists have worked to crack the mystery of what was once called the shaking palsy, from the earliest clinical descriptions of tremors, gait freezing, and micrographia to the cutting edge of neuroscience, and charts the victories and setbacks of a massive international effort to best the disease. He takes us back to the late 1950s and the discovery of L-dopa. He delves into a number of other therapeutic approaches to this perplexing condition, from partial lobotomies and deep brain stimulation to neural grafting. And he shares inspiring stories of brave individuals living with Parkinson's, from a former professional ballet dancer who tricks her body to move freely again to a patient who cannot walk but astounds doctors when he is able to ride a bicycle with no trouble at all. With the baby boom generation beginning to retire and the population steadily aging, the race is on to discover a means to stop or reverse neurodegenerative conditions like Parkinson's and Alzheimer's. Brain Storms is the long-overdue, riveting, and deeply personal story of that race, and a passionate, insightful, and urgent look into the lives of those affected.
Homeostatic Control of Brain Function offers a broad view of brain health and diverse perspectives for potential treatments, targeting key areas such as mitochondria, the immune system, epigenetic changes, and regulatory molecules such as ions, neuropeptides, and neuromodulators. Loss of homeostasis becomes expressed as a diverse array of neurological disorders. Each disorder has multiple comorbidities - with some crossing over several conditions - and often disease-specific treatments remain elusive. When current pharmacological therapies result in ineffective and inadequate outcomes, therapies to restore and maintain homeostatic functions can help improve brain health, no matter the diagnosis. Employing homeostatic therapies may lead to future cures or treatments that address multiple comorbidities. In an age where brain diseases such as Alzheimer's or Parkinson's are ever present, the incorporation of homeostatic techniques could successfully promote better overall brain health. Key Features include · A focus on the homeostatic controls that significantly depend on the way one lives, eats, and drinks. · Highlights from emerging research in non-pharmaceutical therapies including botanical medications, meditation, diet, and exercise. · Incorporation of homeostatic therapies into existing basic and clinical research paradigms. · Extensive scientific basic and clinical research ranging from molecules to disorders. · Emerging practical information for improving homeostasis. · Examples of homeostatic therapies in preventing and delaying dysfunction. Both editors, Detlev Boison and Susan Masino, bring their unique expertise in homeostatic research to the overall scope of this work. This book is accessible to all with an interest in brain health; scientist, clinician, student, and lay reader alike.