Echinostomes are ubiquitous intestinal flatworm parasites of vertebrates and are of importance in human and veterinary medicine and wildlife diseases. Echinostomes can be maintained easily and inexpensively in the laboratory and provide good models for biological research ranging from the molecular to the organismal. Considerable but scattered literature has been published on the subject of echinostomes and a synthesis of this wide range of topics has now been achieved with the publication of this book, which presents a wide range of topics in experimental biology related to the use of echinostomes as laboratory models. It will have a special appeal to advanced undergraduates and graduate students in parasitology and should also appeal to professional parasitologists, physicians, veterinarians, wildlife disease biologists, and any biomedical scientists interested in new model systems for studies in experimental biology.
Echinostomes are ubiquitous intestinal flatworm parasites of vertebrates, and are important in human and veterinary medicine and wildlife diseases. They are also very good models for biology experiments because they are easy and inexpensive to maintain in adult and larval worm stages, and of course are unlikely to draw the attention of animal rights advocates. They have been used for decades for research, but practical information on such use has not been compiled in a single reference before. They have been used in experiments in excystation and in-vitro cultivation, larval and adult parasite-host relationships, reproductive behavior, various aspects of host-parasite recognition and interactions, and other concerns at all levels from molecular to organismic. The topics include biology; systematics; maintenance, cultivation, and excystation; behavioral biology; reproductive physiology and behavior; physiology and biochemistry; and immunobiology and immunodiagnosis.
Echinostomes are medically- and veterinary-important parasitic flatworms that invade humans, domestic animals and wildlife and also parasitize in their larval stages numerous invertebrate and cold-blooded vertebrate hosts. The interest in echinostomes in parasitology and general biology comes from several areas: (1) Human infections; (2) Experimental models; (3) Animal infections; (4) Systematics. The application of novel techniques is moving the echinostomes to the frontline of parasitology in fields such as systematics, immunobiology in vertebrate and invertebrate organisms and proteomics among others. The Biology of Echinostomes demonstrates the application of new techniques to a group of trematodes that may serve to obtain information of great value in parasitology and general biology. The book includes basic topics, such as biology and systematics, as well as more novel topics, such as immunobiology, proteomics, and genomics of echinostomes. The authors of each chapter emphasize their content with: (i) the most novel information obtained; (ii) analysis of this information in a more general context (i.e. general parasitology); and (iii) future perspectives in view of the information presented. The subjects are analyzed from a modern point of view, considering aspects such as applications of novel techniques and an analysis of host-parasite interactions.
First published in 1963, Advances in Parasitology contains comprehensive and up-to-date reviews in all areas of interest in contemporary parasitology. Now edited by J.R. Baker (Royal School of Tropical Medicine and Hygiene, UK), R. Muller (International Institute of Parasitology, UK) and D. Rollinson (The Natural History Museum, UK), supported by an international Editorial Board, Advances in Parasitology includes medical studies on parasites of major influence, such as typanosomiasis and scabies, and reviews of more traditional areas, such as zoology, taxonomy, and life history, which shape current thinking and applications. Eclectic volumes are supplemented by thematic volumes on such topics as Remote Sensing and Geographical Information Systems in Epidemiology. In 1999, the Institute for Scientific Information released figures showing that Advances in Parasitology has an Impact Factor of 4.913, placing it 2nd in the highly competitive category of Parasitology. This eclectic volume in the serial contains four reviews on the following topics: * Two reviews on the biology of trypanosomes (a parasitic protozoan) and trypanosomiasis (disease caused by the parasite, such as sleeping sickness and Chagas' disease), a topical area in public health, especially in Africa and South America, and much research in epidemiology and molecular biology/biochemistry. * A review summarizing the literature on the biology of Echinostomes (parasitic flatworms), focusing on descriptions and life cycle studies, experimental studies and physiology, and biochemistry and molecular biology. * A review on the importance of apoptosis (programmed cell death) in the interaction between host and parasite--how it is used in both the parasite 'attacking' the host, and in the host's defense mechanisms. This has implications in the evolution of parasite and host systems, and also in identifying the underlying causes of diseases caused by parasites.
First published in 1963, Advances in Parasitology contains comprehensive and up-to-date reviews in all areas of interest in contemporary parasitology. Advances in Parasitology includes medical studies on parasites of major influence, such as Plasmodium falciparum and trypanosomes. The series also contains reviews of more traditional areas, such as zoology, taxonomy, and life history, which shape current thinking and applications. Eclectic volumes are supplemented by thematic volumes on various topics, including control of human parasitic diseases and global mapping of infectious diseases. - Informs and updates on all the latest developments in the field - Contributions from leading authorities and industry experts
With the world’s growing population, the provision of a safe, nutritious and wholesome food supply for all has become a major challenge. To achieve this, effective risk management based on sound science and unbiased information is required by all stakeholders, including the food industry, governments and consumers themselves. In addition, the globalization of the food supply requires the harmonization of policies and standards based on a common understanding of food safety among authorities in countries around the world. With some 280 chapters, the Encyclopedia of Food Safety provides unbiased and concise overviews which form in total a comprehensive coverage of a broad range of food safety topics, which may be grouped under the following general categories: History and basic sciences that support food safety; Foodborne diseases, including surveillance and investigation; Foodborne hazards, including microbiological and chemical agents; Substances added to food, both directly and indirectly; Food technologies, including the latest developments; Food commodities, including their potential hazards and controls; Food safety management systems, including their elements and the roles of stakeholders. The Encyclopedia provides a platform for experts from the field of food safety and related fields, such as nutrition, food science and technology and environment to share and learn from state-of-the art expertise with the rest of the food safety community. Assembled with the objective of facilitating the work of those working in the field of food safety and related fields, such as nutrition, food science and technology and environment - this work covers the entire spectrum of food safety topics into one comprehensive reference work The Editors have made every effort to ensure that this work meets strict quality and pedagogical thresholds such as: contributions by the foremost authorities in their fields; unbiased and concise overviews on a multitude of food safety subjects; references for further information, and specialized and general definitions for food safety terminology In maintaining confidence in the safety of the food supply, sound scientific information is key to effectively and efficiently assessing, managing and communicating on food safety risks. Yet, professionals and other specialists working in this multidisciplinary field are finding it increasingly difficult to keep up with developments outside their immediate areas of expertise. This single source of concise, reliable and authoritative information on food safety has, more than ever, become a necessity
Traditionally, laboratory identification of parasites has relied upon various phenotypic procedures that detect their morphological, biological, and immunological features. Because these procedures tend to be time-consuming and technically demanding, molecular methods based on nucleic acid amplification technologies have been increasingly utilized for rapid, sensitive, and specific characterization of parasites. The large number of original and modified molecular protocols that have been developed over the years creates a dilemma for those attempting to adopt the most appropriate protocol for streamlined identification and detection of human pathogenic organisms of interest. Part of a four-volume collection, Molecular Detection of Human Parasitic Pathogens provides a reliable and comprehensive resource on the molecular detection and identification of major human parasitic pathogens. This volume contains expert contributions from international scientists involved in human parasitic pathogen research and diagnosis. Following a similar format throughout, each chapter includes: A brief review on the classification, biology, epidemiology, clinical features, and diagnosis of an important pathogenic parasitic genus/group An outline of clinical sample collection and preparation procedures and a selection of representative stepwise molecular protocols A discussion on further research needs relating to improved diagnoses of major human parasitic pathogens This versatile reference on molecular detection and identification of major human parasitic pathogens is an indispensable tool for upcoming and experienced medical, veterinary, and industrial laboratory scientists engaged in parasite characterization. It is also suitable as a textbook for undergraduate and graduate students majoring in parasitology.
While a number of introductory books on basic and molecular biology are available, none highlight the foodborne parasitic pathogens. Until now. A state-of-the-art review, Biology of Foodborne Parasites charts significant progress and outlines key biological techniques applied to foodborne parasitic pathogens research. The book covers basic biology, genetics and genomics, epidemiology, pathogenesis, diagnosis, control, and prevention. It showcases recent research that can then be used to spark further breakthroughs. The book addresses challenging issues in food pathogen detection. It details individual foodborne protists and helminthes, with each chapter following a similar format for a consistent presentation of information. It discusses topics ranging from basic biology, genetics and genomics, molecular detection and typing, and pathogenesis to epidemiology, molecular epidemiology, treatment and prevention, among other current concerns. It also details the methods used to diagnose the infection, characterize the pathogen, and detect parasites in three food commodities: meats, water, and fresh produce. With chapters written by experts in their respective fields, the book presents a reliable roadmap for future development of improved, innovative biological and molecular methods for analysis of foodborne parasitic pathogens. A handy, comprehensive reference on all aspects of biology of foodborne parasites, it highlights research needs and directions, helping you develop advanced diagnostic tools and new intervention measures.
The purpose of this book is to provide an overview of the biology of the planorbid snail Biomphalaria glabrata mainly as related to the snail’s role as a host of larval trematodes . This snail is of great importance in medical and economic zoology as a vector of important trematode (fluke) diseases in human and veterinary medicine and in wildlife biology. Moreover, this snail is a useful model for numerous basic studies in biology and chemistry. A book that provides modern coverage of diverse topics from the molecule to the community of this snail as related to larval trematode parasitism is not available. This book should appeal to a wide audience of biologists, ecologists, biochemists, malacologists, parasitologists, public health workers, epidemiologists, and graduate and advanced undergraduate students in biomedical and allied health sciences.