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West Nile fever: Global Status is one in a series of GIDEON ebooks which summarize the status of individual infectious diseases, in every country of the world. Data are based on the GIDEON database (www.gideononline.com) which relies on standard text books, peer-review journals, Health Ministry reports and ProMED, supplemented by an ongoing search of the medical literature. Chapters are arranged alphabetically, by country name. Each section is divided into six subsections. 1. Descriptive epidemiology 2. Summary of clinical features 3. Global status of the disease 4. Potential use in Bioterrorism 5. Status of the disease in a specific country 6. References
Widely used by students, residents, generalists, and specialists, Netter's Infectious Diseases, 2nd Edition delivers must-know information on infectious diseases in a highly illustrated, easily accessible format. Concise visual overviews of essential topics provide a convenient, trustworthy way to review the basics of a given infectious disease or issue or to share with patients or staff. Drs. Elaine Jong and Dennis Stevens cover the wide spectrum of illness and disease in this complex field using memorable illustrations by world-renowned artist Frank H. Netter and others, offering a time-saving, authoritative look at infectious disease risk factors, clinical presentations, pathophysiology, and more. - Covers major conditions and problems such as vaccine-preventable diseases, drug-resistant staph, community acquired pneumonia, surgical infections, pyelonephritis, viral hepatitis, and sexually transmitted infections—and provides updated approaches to diagnosis, treatment, prevention, and standards of care. - Includes new clinical vignettes added to most chapters - Provides updated and expanded coverage of emerging infectious diseases such as multidrug resistant tuberculosis (MDR-TB), neuroangiostrongyliasis (rat lungworm disease), Ebola virus, Severe Acute Respiratory Disease (SARS), Middle East Respiratory Syndrome (MERS), Coronavirus Infectious Disease-2019 (COVID-19), and novel influenza viruses including public health concerns. - Covers vector-borne diseases including malaria, yellow fever, Zika infections and congenital Zika syndrome, West Nile fever, Lyme disease, tick-borne encephalitis, and Chagas disease plus others. - New chapters on travelers' diarrhea, cholera, and primary amebic meningoencephalitis debut in the section on international travel and outdoor activities. - Contains memorable parasite life cycles and unforgettable parasite infection clinical vignettes. - Features unparalleled illustrations by Drs. Frank H. Netter, Carlos Machado, and others, as well as radiologic images. - Provides 24 printable patient education brochures in the digital ebook.
Japanese encephalitis and West Nile viruses are members of the Japanese encephalitis serological group of the genus Flavivirus and therefore closely related genetically and antigenically. They share a number of properties, including the use of birds as their major wildlife maintenance host and Culicine mosquitoes for transmission, and they are both associated with severe human disease, as well as fatal infections in horses. The emergence of these two viruses, and their well-established propensity to colonise new areas, make it timely to re-examine their ecology, biology, molecular structure, replication and epidemiology, and these therefore provide the focus of this volume.
The larvae of Anisakis, whose adult form lives on sea mammals such as whales, seals, and dolphins, are parasitic upon many species of salt-water fish. When the final host animals eat paratenic hosts, the larvae grow to adulthood in the hosts' stomach. However, when hu mans eat these infested fish, the larvae die instead, causing a disease called anisakiasis. In 1960, in the Netherlands, van Thiel et al. found a worm in the intestinal wall of a patient who had eaten raw herring and had suffered symptoms of acute abdomen. The impact of this report was tremendous among Japanese parasitologists because of the Japanese habit of eating raw fish. In 1964, the Special Research Group from the Ministry of Education was established to investigate the disease, stimulating progress in the study of anisakiasis. Three types of worm, Anisakis simplex larva (previously known as Anisakis larva type I), Anisakis physeteris larva (Anisakis larva type II), and Pseudoterranova decipiens larva type A, are believed to cause anisakiasis. As many as 165 kinds of fish and squid in the seas near Japan are hosts to Anisakis simplex, and 9 species are hosts to Pseudoterranova decipiens larvae. Contra caecum has experimentally been observed to invade the gastrointestinal tract, but no infection by this larva has been reported in humans. A case of infection by Pseudoterranova decipiens type B has been described. In Japan, the name Terranova decipiens (Shiraki 1974) has been adopted instead of Phocanema decipiens (Mozgovoi 1953).
The vector-borne Zika virus joins avian influenza, Ebola, and yellow fever as recent public health crises threatening pandemicity. By a combination of stochastic modeling and economic geography, this book proposes two key causes together explain the explosive spread of the worst of the vector-borne outbreaks. Ecosystems in which such pathogens are largely controlled by environmental stochasticity are being drastically streamlined by both agribusiness-led deforestation and deficits in public health and environmental sanitation. Consequently, a subset of infections that once burned out relatively quickly in local forests are now propagating across susceptible human populations whose vulnerability to infection is often exacerbated in structurally adjusted cities. The resulting outbreaks are characterized by greater global extent, duration, and momentum. As infectious diseases in an age of nation states and global health programs cannot, as much of the present modeling literature presumes, be described by interacting populations of host, vector, and pathogen alone, a series of control theory models is also introduced here. These models, useful to researchers and health officials alike, explicitly address interactions between government ministries and the pathogens they aim to control.
Quickly and confidently access the on-demand, go-to guidance you need to diagnose, treat, and manage hundreds of pediatric disorders! A new user-friendly "five-books-in-one" format makes it easier than ever for you to zero in on nearly 400 common pediatric diagnoses, common signs and symptoms (with diagnostic algorithms and differentials), plus commonly used tables, equations, and charts. Find the specific information you need quickly and easily with the aid of a consistent, bulleted outline format and alphabetical listings of diseases, topics, differential diagnoses, and algorithms. Deliver the best outcomes by incorporating clinical pearls from experts in the field into your practice. Reference the complete contents online anytime, fully searchable. Consult either the user-friendly text or the fully searchable web site to provide high-quality pediatric patient care - efficiently and effectively.
Offering up-to-date coverage of familiar flaviviruses that are spreading into new regions or are causing increasingly severe disease, as well as viruses that are almost unknown in most developed nations, Zika and Other Neglected and Emerging Flaviviruses brings together information that allows for easy comparison of similarities and differences of this viral group in a single, convenient volume. Each chapter includes a brief Introduction, history, the diseases, the virus, the immune response, prevention or treatment, an extensive list of references, and a summary overview. The book concludes with a chapter tying together information about flaviviruses and other potential new microbial threats. - Covers familiar flaviviruses that are spreading into new regions or are causing increasingly severe disease (such as Zika, dengue and West Nile viruses), as well as lesser-knowns viruses such as tick-borne encephalitis virus, Powassan virus, Omsk hemorrhagic fever, and Murray Valley encephalitis virus. - Allows health-related personnel to search for potential treatments and protective responses by examining what measure did or did not work with other, related flaviviruses. - Helps readers understand how to prevent or contain newly emerging viral threats—a particularly timely topic regarding the global spread of COVID-19 and the potential of tick-borne encephalitis to rapidly spread and cause severe illness, panic, and disruption of economies. - Consolidates today's available information on this timely topic into a single, convenient resource.
Over 50% of known flaviviruses have been associated with human disease. The Flavivirus genus constitutes some of the most serious human pathogens including Japanese encephalitis, dengue and yellow fever. Flaviviruses are known for their complex life cycles and epidemic spread, and are considered a globally-emergent viral threat. Detection, Diagnosis and Vaccine Development, the third volume of The Flaviviruses details the current status of technologies for detection and differentiation of these viruses, their use in surveillance and outbreak investigation, and also reviews the latest clinical research. - Comprehensive approach to the scientific disciplines needed to unravle the complexities of virus-host interactions - Descibes the technologies that have contributed to our current knowledge about the Flaviviruses - Identifies the major problems faced in understanding the virus-host interactins that result in disease - An exhaustive compendium of current and past knowledge on the Flavivirus family
In March and early April 2009, a new, swine-origin 2009-H1N1 influenza A virus emerged in Mexico and the United States. During the first few weeks of surveillance, the virus spread by human-to-human transmission worldwide to over 30 countries. On June 11, 2009, the World Health Organization (WHO) raised the worldwide pandemic alert level to Phase 6 in response to the ongoing global spread of the novel influenza A (H1N1) virus. By October 30, 2009, the H1N1 influenza A had spread to 191 countries and resulted in 5,700 fatalities. A national emergency was declared in the United States and the swine flu joined SARS and the avian flu as pandemics of the 21st century. Vaccination is currently available, but in limited supply, and with a 60 percent effectiveness rate against the virus. The story of how this new influenza virus spread out of Mexico to other parts of North America and then on to Europe, the Far East, and now Australia and the Pacific Rim countries has its origins in the global interconnectedness of travel, trade, and tourism. Given the rapid spread of the virus, the international scientific, public health, security, and policy communities had to mobilize quickly to characterize this unique virus and address its potential effects. The World Health Organization and Centers for Disease Control have played critical roles in the surveillance, detection and responses to the H1N1 virus. The Domestic and International Impacts of the 2009-H1N1 Influenza A Pandemic: Global Challenges, Global Solutions aimed to examine the evolutionary origins of the H1N1 virus and evaluate its potential public health and socioeconomic consequences, while monitoring and mitigating the impact of a fast-moving pandemic. The rapporteurs for this workshop reported on the need for increased and geographically robust global influenza vaccine production capacities; enhanced and sustained interpandemic demand for seasonal influenza vaccines; clear "triggers" for pandemic alert levels; and accelerated research collaboration on new vaccine manufacturing techniques. This book will be an essential guide for healthcare professionals, policymakers, drug manufacturers and investigators.