Mad Cow U.S.A. shatters the false belief that the government and food industry would never let it happen here. Even as tens of thousands of cows died in Britain, the government denied the risk to human beings. Knowing the similar risk in the U.S., government and industry have managed a successful public relations offensive to keep Americans in the dark. Rampton and Stauber expose, for the first time, the deadly game of "dementia roulette" being played with our food supply.
"How the Cows Turned Mad tells the story of a disease that continues to elude on many levels. Yet science has come far in understanding its origins, incubation, and transmission. This book is a case history that illuminates the remarkable progression of science."--BOOK JACKET.
The aim of this book is to publicise and bring to a wider audience the concept that the cause of two neurological diseases, namely multiple sclerosis (MS) and “mad cow disease” also known as “bovine spongiform encephalopathy” are related through exposure to a common microbe Acinetobacter which is found in human sinuses, on skin and in the soil. An infection is the cause of a neurological disease in man and in animals. Elevated levels of antibodies to Acinetobacter have been found in multiple sclerosis patients as well as in ruminants who have been described as suffering from “mad cow disease” following exposure to contaminated feed supplements. The overall objective and scope of this book is to inform the audience, the reader, that multiple sclerosis may be linked to a microbe Acinetobacter which carries molecular structures resembling myelin, the outer sheath covering of neurons.
In Advancing Prion Science, the Institute of Medicine's Committee on Transmissible Spongiform Encephalopathies Assessment of Relevant Science recommends priorities for research and investment to the Department of Defense's National Prion Research Program (NPRP). Transmissible spongiform encephalopathies (TSEs), also called prion diseases, are invariably fatal neurodegenerative infectious diseases that include bovine spongiform encephalopathy (commonly called mad cow disease), chronic wasting disease, scrapie, and Creutzfeldt-Jakob disease. To develop antemortem diagnostics or therapies for TSEs, the committee concludes that NPRP should invest in basic research specifically to elucidate the structural features of prions, the molecular mechanisms of prion replication, the mechanisms of TSE pathogenesis, and the physiological function of prions' normal cellular isoform. Advancing Prion Science provides the first comprehensive reference on present knowledge about all aspects of TSEs' from basic science to the U.S. research infrastructure, from diagnostics to surveillance, and from prevention to treatment. This report summarizes the progress thus far.
Told by the man who kicked off the infamous lawsuit between Oprah and the cattlemen, Mad Cowboy is an impassioned account of the highly dangerous practices of the cattle and dairy industries. Howard Lyman's testimony on The Oprah Winfrey Show revealed the deadly impact of the livestock industry on our well-being. It not only led to Oprah's declaration that she'd never eat a burger again, it sent shock waves through a concerned and vulnerable public. A fourth-generation Montana rancher, Lyman investigated the use of chemicals in agriculture after developing a spinal tumor that nearly paralyzed him. Now a vegetarian, he blasts through the propaganda of beef and dairy interests—and the government agencies that protect them—to expose an animal-based diet as the primary cause of cancer, heart disease, and obesity in this country. He warns that the livestock industry is repeating the mistakes that led to Mad Cow disease in England while simultaneously causing serious damage to the environment. Persuasive, straightforward, and full of the down-home good humor and optimism of a son of the soil, Mad Cowboy is both an inspirational story of personal transformation and a convincing call to action for a plant-based diet—for the good of the planet and the health of us all.
The very first international working discussion on slow infections of the nervous system was entitled "Slow, Latent, and Temperate Virus Infec tions" and was held at the National Institutes of Health (NIH) in December 1964. The primary impetus was the discovery and investigation of kuru in New Guinea by D. Carleton Gajdusek, M. D. This working discussion brought together investigators in human and veterinary medicine, virolo gists, microbiologists, and neuropathologists actively engaged in laboratory work with viruses that illustrated properties of latency, masking, slowness, or temperateness, with emphasis on subacute and chronic neurologic dis eases of unknown etiology. In the Preface to the monograph of published papers presented at the working discussion, Gajdusek and Gibbs wrote the following: After microbiology had given solution to the etiology of most acute infections of the central nervous system and after fungi and bacteria had been incriminated in impor tant chronic disorders of the nervous system such as torula and tuberculosis men ingitis, we have been left, in neurology, with a wide range of subacute and chronic affections of the central nervous systems of unknown etiology. Some of these diseases, still listed as idiopathic, are among the most prevalent afflictions of the central nervous system. Many others with familial patterns of occurrence do not yet have their basic pathogenesis or underlying metabolic defect elucidated, although we tend to think of them as genetically mediated.
Handbook of Veterinary Neurology provides quick access to vital information on neurologic conditions in a wide range of species, including canine, feline, bovine, caprine, equine, ovine, and porcine. A problem-oriented approach makes it easy to diagnose and treat neurologic problems in small and large animals. The coverage of disorders by problem, not by established disease diagnosis, emulates how animals present to the veterinary hospital and simplifies the formulation of a correct diagnosis. Within each chapter, discussions of neurologic disease include a review of the localization criteria and the diseases that can cause that problem, plus treatment and surgical techniques. Lead author Michael D. Lorenz brings decades of experience to neurologic assessment, using a diagnostic approach that requires minimal knowledge of neuroanatomy. - A problem-based approach is organized by presenting sign rather than by condition, guiding you to logical conclusions regarding diagnosis and treatment. - Algorithms diagram the logic necessary to localize lesions and to formulate diagnostic plans. - Coverage of current diagnostic techniques includes the use of diagnostic tools, such as radiology, spinal fluid analysis, electrodiagnosis, and MR imaging. - Case histories in each chapter present a problem and the results of the neurologic examination, then ask you to solve the problem by localizing the lesion, listing probable causes, and making a diagnostic plan. Answers are provided at the back of the book. - A consistent format for each case history includes signalment, history, physical examination findings, and neurologic examination. - A comprehensive appendix describes species and breeds that have a congenital predisposition for particular neurologic diseases. - Extensive references make it easy to pursue in-depth research of more advanced topics. - A companion website includes 20 narrated video clips with accompanying PowerPoint slides that correlate to the case histories in the book, covering neurologic assessment and clinical problems such as paresis of one limb, tetraparesis, stupor, seizures, ataxia of the head and limbs, and cranial nerve disorders. - Two new co-authors, Jean Coates and Marc Kent, board-certified in neurology, enhance the credibility of this edition. - A full-color design and numerous illustrations include enhanced images of neuroanatomy and pathology.
H1N1 ("swine flu"), SARS, mad cow disease, and HIV/AIDS are a few examples of zoonotic diseases-diseases transmitted between humans and animals. Zoonotic diseases are a growing concern given multiple factors: their often novel and unpredictable nature, their ability to emerge anywhere and spread rapidly around the globe, and their major economic toll on several disparate industries. Infectious disease surveillance systems are used to detect this threat to human and animal health. By systematically collecting data on the occurrence of infectious diseases in humans and animals, investigators can track the spread of disease and provide an early warning to human and animal health officials, nationally and internationally, for follow-up and response. Unfortunately, and for many reasons, current disease surveillance has been ineffective or untimely in alerting officials to emerging zoonotic diseases. Sustaining Global Surveillance and Response to Emerging Zoonotic Diseases assesses some of the disease surveillance systems around the world, and recommends ways to improve early detection and response. The book presents solutions for improved coordination between human and animal health sectors, and among governments and international organizations. Parties seeking to improve the detection and response to zoonotic diseases-including U.S. government and international health policy makers, researchers, epidemiologists, human health clinicians, and veterinarians-can use this book to help curtail the threat zoonotic diseases pose to economies, societies, and health.
Zoonotic diseases represent one of the leading causes of illness and death from infectious disease. Defined by the World Health Organization, zoonoses are "those diseases and infections that are naturally transmitted between vertebrate animals and man with or without an arthropod intermediate." Worldwide, zoonotic diseases have a negative impact on commerce, travel, and economies. In most developing countries, zoonotic diseases are among those diseases that contribute significantly to an already overly burdened public health system. In industrialized nations, zoonotic diseases are of particular concern for at-risk groups such as the elderly, children, childbearing women, and immunocompromised individuals. The Emergence of Zoonotic Diseases: Understanding the Impact on Animal and Human Health, covers a range of topics, which include: an evaluation of the relative importance of zoonotic diseases against the overall backdrop of emerging infections; research findings related to the current state of our understanding of zoonotic diseases; surveillance and response strategies to detect, prevent, and mitigate the impact of zoonotic diseases on human health; and information about ongoing programs and actions being taken to identify the most important needs in this vital area.
Risk Regulation Lesson from Mad Cows analyses and compares the policy responses in the U.K. and U.S. to the mad cow disease crisis. This monograph draws a number of lessons from the mad cow experience regarding how one should regulate invasive species risks and deal with dimly understood but potentially serious risks to large populations.