Download Free Gastric Anisakiasis In Japan Book in PDF and EPUB Free Download. You can read online Gastric Anisakiasis In Japan and write the review.

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).
Cases of intestinal anisakiasis, caused by infestation with Anisakis simplex larva, are being increasingly reported in both Europe and the United States. The most information about this affliction, however, comes from Japan, where specialists have greater experience in its diagnosis and treatment. This book is based on approximately 600 cases of intestinal anisakiasis in Japan and gives important new findings on the subject. Specific topics include the changes in infection rates among fish, the clinical manifestation of intestinal anisakiasis, the identification of Anisakis larva with genetic techniques, echographic and laparographic findings, and X-ray findings. The discussion of serological diagnosis includes the detection of Anisakis-specific IgG and IgE antibodies in patients' sera by using monoclonal antibodies against the larva.
This volume, now the third in a series, presents a more hetero geneous content than previous issues. It covers two previously rare but now common opportunistic infections in the United States, a common parasitic disease in Japan, exciting but difficult problems in developing a malarial vaccine, a study exemplifying the role of T lymphocytes in parasitic infections, and a fascinating review of the relationship between the schistosomes and their molluscan hosts. The first chapter covers cryptosporidiosis, which has become a household name since the outbreak of the acquired immunodeficien cy syndrome (AIDS). However, infection is now recognized to occur widely in immunocompetent individuals, with clustering of infection among veterinary students, laboratory workers, children in day care centers, and family members. It can also be the cause of traveler's di arrhea and nosocomial infection. Indeed, Cryptosporidium has be come recognized as the leading protozoal cause of diarrhea world wide. This chapter provides a concise, yet comprehensive, review on aspects of epidemiology, microbiology, clinical features, diagnosis, and treatment of this important disease. Recent in vitro studies of Cryptosporidium, conducted in Dr. Flanigan's and other laboratories, are described. They complement the extensive clincial experience of Dr. Soave, who summarizes her many articles in this field. The second chapter describes another common opportunistic infec tion among AIDS patients, toxoplasmosis. This disease differs from cryptosporidiosis in that it was recognized as a common infection in immunocompetent individuals even before the AIDS outbreak.
Divided into three sections along the lines of bacteriology, parasitology and virology, this book comprehensively provides a systematic, cross disciplinary approach to the science and control of all zoonoses, written by international specialists in human and veterinary medicine.
This second volume describes a further wide variety of parasitic infections and other diseases,including benign and malignant tumors. Some are widespread, others re- stricted to specific geographical or climatic regions; almost all affect countless patients, some with generalized illnesses, others with limited involvement which may nonetheless be serious for the individual. The book contains numerous images at the important stages of the diseases, with photographs and histopathological sections to help understand the clinical progress, and often the response to treatment. These two volumes will be of great value to all who care for patients with tropical diseases, clinicians as well as radiologists.
Humans suffer from numerous parasitic foodborne zoonoses, many of which are caused by helminths. The helminth zoonoses of concern in this book were once limited to diseases of animals, but have now become transmissible to humans. This book reviews not only the prevalence and distribution of these zoonoses, including available health and economic impact data, but highlights gaps in our knowledge that must be filled in order to assess the importance of a particular zoonosis.
Humans suffer from numerous parasitic foodborne zoonoses, many of which are caused by helminths. The helminth zoonoses of concern in this book were once limited to diseases of animals, but have now become transmissible to humans. This book reviews not only the prevalence and distribution of these zoonoses, including available health and economic impact data, but highlights gaps in our knowledge that must be filled in order to assess the importance of a particular zoonosis.
Advances in Parasitology, Volume 99, the latest in a series first published in 1963, contains comprehensive and up-to-date reviews on all areas of interest in contemporary parasitology. The series includes medical studies of parasites of major influence, along with reviews of more traditional areas, such as zoology, taxonomy, and life history, which help to shape current thinking and applications. This new release includes sections on climate change and NTDs, Leprosy, parasite cultures, molecular epidemiology of Anisakis and anisakiasis, evolution in triatomine vectors of Chagas disease, expanding the vector control toolbox for Malaria elimination, and parasites of the giant panda. - Informs and updates on all the latest developments in the field of parasitology - Includes medical studies of parasites of major influence, such as Plasmodium falciparum and trypanosomes - Contains contributions from leading authorities and industry experts - Features reviews of more traditional areas, such as zoology, taxonomy, and life history, which help to shape current thinking and applications
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.
Background: Nematodes of the family Anisakidae are parasites of marine organisms, such as fish and sea mammals, pose a threat to humans and cause the disease anisakiasis. In Australia, little has been done to evaluate the risk of exposure for consumers of infected fish to these parasites. The aim of the present study is to partially address this gap by a small-scale survey of five local fish species from southern Australia destined for consumption. Methods: Fish were collected and examined for intestinal worms, including anisakids. The parasite larvae collected were fixed and identified both by morphological/morphometric analysis and by molecular investigation of the PCR-amplified internal transcribed spacer region of nuclear ribosomal DNA. Both datasets were combined and interpreted together with other biological data. Results: Infection rates of anisakid nematodes in the respective fish species ranged between 20 % and 100 %. Larval stages of seven anisakid species of three different genera, namely Anisakis, Contracaecum and Hysterothylacium, were identified. Some species discovered represent molecularly uncharacterized specimens and await unequivocal identification. Conclusion: The data show that Anisakis and related species are prevalent in southern Australia, in some fish hosts in large numbers. Further research will provide a better understanding of the parasite and other factors linked to anisakiasis.