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Lyme disease (Lyme borreliosis) is the most prevalent vector-borne illness in the United States and Europe and a growing threat to global health. In addition Lyme disease is considered a model system of emerging infectious diseases. The book Borrelia: Molecular Biology, Host Interaction and Pathogenesis published in 2010 was the first state-of-the-art reference work covering the myriad, interlaced facets of the enzootic disorders caused by pathogenic Borrelia. This current volume, by the same editors, builds on the previous work and contains a vast amount of new information, a wider scope, and increased coverage of genomics, genetics, evolutionary biology, vector biology, physiology, pathogenicity, immune response, and immune evasion. Written by renowned scientists who have made seminal contributions to the field, this book contains an expansive treatment of the options to track live spirochetes and evaluate gene expression in ticks and mice, provides insights into the workings of the flagellar motor, presents up-to-date research on the modulation of gene expression, and reviews recent studies on the Lyme disease spirochete's networks of regulatory pathways. The volume highlights and describes in detail the tremendous advances in understanding of the Borrelia genus at the molecular and cellular levels as well as the pathogenesis of Lyme disease and relapsing fever. This comprehensive volume is indispensable for anyone involved in Borrelia and Lyme disease research and is highly recommended for microbiologists, immunologists, and physicians with an interest in spirochetes, vector-borne illness, or emerging infectious diseases. The book is a recommended reference volume for all microbiology libraries.
Spirochaetales Infections: Advances in Research and Treatment: 2011 Edition is a ScholarlyPaper™ that delivers timely, authoritative, and intensively focused information about Spirochaetales Infections in a compact format. The editors have built Spirochaetales Infections: Advances in Research and Treatment: 2011 Edition on the vast information databases of ScholarlyNews.™ You can expect the information about Spirochaetales Infections in this eBook to be deeper than what you can access anywhere else, as well as consistently reliable, authoritative, informed, and relevant. The content of Spirochaetales Infections: Advances in Research and Treatment: 2011 Edition has been produced by the world’s leading scientists, engineers, analysts, research institutions, and companies. All of the content is from peer-reviewed sources, and all of it is written, assembled, and edited by the editors at ScholarlyEditions™ and available exclusively from us. You now have a source you can cite with authority, confidence, and credibility. More information is available at http://www.ScholarlyEditions.com/.
Provides information on the history of Lyme disease focusing on the scientific processes involved in its discovery.
A world-renowned Lyme disease expert explains everything you need to know if you live, work, or play in areas with the ticks that carry disease. Once restricted to small forested areas in the northeast and north-central United States, Lyme disease is now a common infection in North America and Europe. The Centers for Disease Control and Prevention estimate that more than 300,000 new cases occur each year in the United States. Misunderstandings over symptoms and treatment increase the public's concerns about the disease—which, if not properly treated, can become chronic and debilitating. An expert on tick-borne diseases, Alan G. Barbour explains the course of illness that results from infection, diagnosis and treatment options, and steps that can be taken to avoid a tick bite in the first place. The ticks that transmit Lyme disease may also transmit other disease-causing pathogens, and these other infections are considered as well. Drawing on real case histories of individuals with Lyme disease—or illnesses that may be mistaken for Lyme disease—Barbour explains: The biology of the spirochete, Borrelia burgdorferi, that causes Lyme disease The role of animals such as mice that carry the infection The life cycle of the ticks that transmit the infection The importance of deer in perpetuating the cycle The basics of diagnostic laboratory tests and how test results are interpreted How antibiotics are used in treating Lyme disease Infected ticks are abundant in the woods, in walking trails, and in the shrubs and tall grass where suburban lawns meet wooded areas. Barbour stresses preventing disease through community-wide ecology projects and individual and household protection. While it may be difficult to escape infection, understanding the danger, the symptoms, and the treatment goes a long way toward preventing long-term health consequences. Featuring a list of reliable web sites and a glossary of terms, Lyme Disease is an invaluable resource for everyone who is at risk of the disease or is involved in preventing and treating it.
Topics in this publication on tickborne borrelia infections include: Lyme disease epidemiology and transmission; Clinical manifestation and treatment of Lyme disease; Neuroborreliosis; Prevention of Lyme disease; Lyme disease diagnosis - serology; Lyme disease diagnosis - alternatives to serology; Lyme disease co-infections; Relapsing fever borrelia (global review); Emerging tickborne borrelia - B. miyamotoi; Lyme Disease and the immune response. Led by Elli Theel Director of the Infectious Diseases Serology Laboratory of Mayo Clinic, this issue includes authors from the United States, United Kingdom, and Canada to present their expertise on tickborne disease for the clinical pathologist, the infectious disease specialist, and other clinicians who work with patients with these diseases.
Lyme disease, or Lyme borreliosis, is an emerging infectious disease caused by bacteria belonging to the genus borrelia. Borrelia burgdorferi, in the strict sense. This book deals mostly with the molecular biology of the Lyme disease agent orrelia burgdorferi. It has been written by experts in the relevant field and is tailored to the need of researchers, advanced students of biology, molecular biology, molecular genetics of microorganism. It will also be of use to infectious disease experts and people in other disciplines needing to know more about Lyme borreliosis. The book contains chapters on the molecular biology of the Lyme disease agent, zoonotic peculiarities of Bb, advancement in Bb antibody testing, the serology diagnostic schemes in Bb, discovering Lyme disease in ticks and dogs, adaptation to glucosamine starvation in Bb, and porins in the genus borrelia.
The interface between spirochetes and the immune response is of significant importance to their pathogenesis and persistence. Evasion from the immune system leads to infections that present as Leptospirosis, Syphilis, Lyme Disease and Relapsing Fever and may lead to putative persistence and latency. Understanding the mechanisms involved in immune evasion will shed light not only on the hostpathogen factors involved in the process but also on how resistance to infection leads to protection. Broad examples include spirochetal interaction with the immune system, spirochetal molecules involved in immune evasion and in immune activation, innate immune responses in the skin and other compartments, factors involved in spirochetal adhesion to the extracellular matrix, interaction of spirochetes with antigen presenting cells, in vitro, ex vivo or in vivo, spirochetal lipoproteins and immunity. Specific examples include innate immunity to pathogenic spirochetes (T. pallidum, B. burgdorferi and Leptospira spp.), invasion and pathogenesis by L. interrogans, subversion and suppression of B cell responses by B. burgdorferi, role of antibody in clearance versus persistence of relapsing fever Borreliae, evasion of the complement system by B. burgdorferi, immune suppression by Ixodes tick saliva for effective transmission, adhesins and enzymes involved in dissemination of T. pallidum, spirochetal variable surface proteins in immune evasion, intravital imaging of pathogenic spirochetes (Borreliae and Leptospira) in host tissues, spirochete-host surface interactions. Additional specific examples for B. burgdorferi include novel approaches to control infection within the vector and/or in mammal; tick innate immune defenses and interaction of Ixodes scapularis salivary immunomodulatory molecules with human immune cells, tick-innate immune defenses (from the perspective of the tick midgut), mouse models of infection and genetic basis for pathogenicity, diverse roles of outer surface protein C. Additional specific examples for Leptospirosis include animal models of acute, sub-lethal and persistent infection; neutrophils and innate immune response; Toll-like receptor mediated B cell responses; markers of endothelial cell activation for disease severity in human leptospirosis, corticosteroid treatment of advanced human leptospirosis, and urinary biomarkers of chronic Leptospirosis.