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Vector-borne diseases (e.g., malaria, filariasis, dengue, chikungunya, Japanese encepha-litis, yellow fever, leishmaniasis etc.) are today one of the major causes of human suffering, both in terms of increasing morbidity/ mortality and stunting intellectual/ economic growth. No country, whether in tropics or temperate and developed or underdeveloped, is spared from their devastating impacts. The global disease burden is nearly unfathomable and there is a necessity to ponder over this issue for developing successful mitigation and response strategies. This book, Vector-Borne Diseases: Epidemiology & Control, explores in a unique way several biological and ecological phenomena of vector-borne diseases in context with their impact on human health and economy, in addition to update our knowledge on emerging regional and global vector-borne disease scenarios, public and animal health preparedness to enhance prevention, control, and therapeutic measures by employing scientific and techn- ological advances through integrating available as well as innovative strategies to address current and future threats. This proceedings book of the 8th Int. Symp. of Vectors and Vector-borne Diseases is comprising 35 highly specialized articles on varied subjects presented in a lucid language and will hopefully serve a good purpose to all the researchers, university/ medical college UG/PG students, general public health enthusiasts/stakeholders and government officials who yearn to be updated on the subject of vector-borne diseases and are in some way or other contributing their bit towards elimination or control of these diseases.
Vector-Borne Diseases - Recent Developments in Epidemiology and Control utilizes the unique capabilities of open-access publishing to share exciting developments in the biology, diagnosis, and treatment of diseases spread by arthropods. From malaria to dengue to leishmaniasis, the diseases addressed in this book continue to present threats to the life and well-being of millions around the world. The international cast of writers published here provide specific insight into a full spectrum of diseases spread by insects and their close relatives.
This work aims to advance the intellectual understanding of the emergence and reemergence of infectious diseases. Practitioners of diverse disciplines - epidemiology, evolutionary biology, environmental sciences, ecology, climatology, social and behavioural sciences, entomology, microbiology, parasitology and virology - report on recently developed techniques from many areas, including molecular biology, genetics, mathematical modelling and remote sensing. These techniques are exploited in an attempt to understand global configurations of infectious disease emergence. Analysis of historical examples reveals patterns not apparent during a single lifetime of observation. This volume emphasises the creative use of cross-disciplinary approaches to extend the limits of knowledge in this important area. These 32 papers were presented at a workshop held by the Harvard School of Public Health at Woods Hole, Massachusetts, 7th-10th November.
An in-depth overview on the demo-graphic changes occurring world-wide and the repercussions this is having on the pattern of vector-borne disease is pre-sented in this book. Internationally recognized scientists, epidemiologists, entomologists, parasitologists, and ecologists are contributing authors to this comprehensive account.
Arthropod borne diseases cause enormous morbidity and mortality in most countries, mostly in those situated in tropical areas, but also in temperate regions. This book provides organized information on all arthropod related diseases, to prevent suffering and deaths, for medical students and professionals. Since arthropod borne diseases are present in many regions of the world and can even surprise professionals and lays in non-endemic regions, like malaria in UK and Canada, the author and its many expert collaborators are sure that it will be essential in all hospitals, clinics and medical libraries around the world. As arthropod borne diseases of domesticated animals are very numerous and in some cases related to human diseases, they are also included in the book.
This publication is intended to contribute to prevention and control of the morbidity and mortality associated with dengue and to serve as an authoritative reference source for health workers and researchers. These guidelines are not intended to replace national guidelines but to assist in the development of national or regional guidelines. They are expected to remain valid for five years (until 2014), although developments in research could change their validity.--Publisher's description.
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.
Admittedly, the world and the nature of forced migration have changed a great deal over the last two decades. The relevance of data accumulated during that time period can now be called into question. The roundtable and the Program on Forced Migration at the Mailman School of Public Health of Columbia University have commissioned a series of epidemiological reviews on priority public health problems for forced migrants that will update the state of knowledge. Malaria Control During Mass Population Movements and Natural Disasters- the first in the series, provides a basic overview of the state of knowledge of epidemiology of malaria and public health interventions and practices for controlling the disease in situations involving forced migration and conflict.
Biology of Disease Vectors presents a comprehensive and advanced discussion of disease vectors and what the future may hold for their control. This edition examines the control of disease vectors through topics such as general biological requirements of vectors, epidemiology, physiology and molecular biology, genetics, principles of control and insecticide resistance. Methods of maintaining vectors in the laboratory are also described in detail.No other single volume includes both basic information on vectors, as well as chapters on cutting-edge topics, authored by the leading experts in the field. The first edition of Biology of Disease Vectors was a landmark text, and this edition promises to have even more impact as a reference for current thought and techniques in vector biology.Current - each chapter represents the present state of knowledge in the subject areaAuthoritative - authors include leading researchers in the fieldComplete - provides both independent investigator and the student with a single reference volume which adopts an explicitly evolutionary viewpoint throuoghout all chapters. Useful - conceptual frameworks for all subject areas include crucial information needed for application to difficult problems of controlling vector-borne diseases