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The American Anti-Vivisection Society (AAVS) petitioned the National Institutes of Health (NIH) on April 23, 1997, to prohibit the use of animals in the production of mAb. On September 18, 1997, NIH declined to prohibit the use of mice in mAb production, stating that "the ascites method of mAb production is scientifically appropriate for some research projects and cannot be replaced." On March 26, 1998, AAVS submitted a second petition, stating that "NIH failed to provide valid scientific reasons for not supporting a proposed ban." The office of the NIH director asked the National Research Council to conduct a study of methods of producing mAb. In response to that request, the Research Council appointed the Committee on Methods of Producing Monoclonal Antibodies, to act on behalf of the Institute for Laboratory Animal Research of the Commission on Life Sciences, to conduct the study. The 11 expert members of the committee had extensive experience in biomedical research, laboratory animal medicine, animal welfare, pain research, and patient advocacy (Appendix B). The committee was asked to determine whether there was a scientific necessity for the mouse ascites method; if so, whether the method caused pain or distress; and, if so, what could be done to minimize the pain or distress. The committee was also asked to comment on available in vitro methods; to suggest what acceptable scientific rationale, if any, there was for using the mouse ascites method; and to identify regulatory requirements for the continued use of the mouse ascites method. The committee held an open data-gathering meeting during which its members summarized data bearing on those questions. A 1-day workshop (Appendix A) was attended by 34 participants, 14 of whom made formal presentations. A second meeting was held to finalize the report. The present report was written on the basis of information in the literature and information presented at the meeting and the workshop.
Introduction to immunochemistry for molecular biologists and other nonspecialists. Spiral.
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A handy lab manual that allows quick and easy access to the techniques commonly used in analysing antibody specificity. It describes some of the most useful immunological techniques based on antibodies, including ELISA, immunoblotting and immunoprecipitation protocols that provide useful tools for recognising immunological specificities, together with basic immunofluorescence and immunohistochemistry procedures for the in situ identification of antigens. The topics are discussed from a practical point of view, combining the theoretical basis of each technique with sample protocols and a troubleshooting guide. Attention is focused on the various aspects of the protocols described thus providing readers with the maximum possible information on each technique. XXXXXXX NEUER TEXT This handy lab manual permits quick access to the techniques commonly used to analyze antibody specificity. The most useful immunological techniques are described, providing readers with practical tools for recognizing immunological specificities and procedures for the in situ identification of antigens. The theoretical basis of each technique is described and sample protocols and troubleshooting tips are included. A Springer Lab Manual
This book represents the distillation and critical evaluation of many hundreds of publications relating to the production and use of antibodies. Therefore it is restricted to the "core" techniques of production and handling of antibodies, and their use in studies of antigen analysis, purification and localization.
The Janeway's Immunobiology CD-ROM, Immunobiology Interactive, is included with each book, and can be purchased separately. It contains animations and videos with voiceover narration, as well as the figures from the text for presentation purposes.
This book discusses in detail various serological tests that are used to identify medical conditions and diseases, from a general overview of each test to the equipment and steps needed to carry them out. The book is aimed specifically at immunology students and professionals who may occasionally need to use these tests, and thus lack training and experience in performing them. The book provides a brief overview of the immune system, including antibodies, antigens, and their interactions. The bulk of the book is comprised of 16 chapters that each explain different serological tests. These chapters start with a general introduction of the test or disease being detected, followed by the test principle, reagents required for the test, procedures and steps to perform the test, and, finally, result interpretation. Both test principles and result interpretation segments include illustrations to aid comprehension. In addition, the book also enables the reader to distinguish between positive and negative results in serological testing.
This highly readable textbook serves as a concise and engaging primer to the emerging field of antibody engineering and its various applications. It introduces readers to the basic science and molecular structure of antibodies, and explores how to characterize and engineer them. Readers will find an overview of the latest methods in antibody identification, improvement and biochemical engineering. Furthermore, alternative antibody formats and bispecific antibodies are discussed. The book’s content is based on lectures for the specializations “Protein Engineering” and “Medical Biotechnology” within the Master’s curriculum in “Biotechnology.” The lectures have been held at the University of Natural Resources and Life Sciences, Vienna, in cooperation with the Medical University of Vienna, since 2012 and are continuously adapted to reflect the latest developments in the field. The book addresses Master’s and PhD students in biotechnology, molecular biology and immunology, and all those who are interested in antibody engineering.
Polyclonal antibodies, widely used in research and diagnostics, are conventionally isolated from the blood of immunised mammals. The fact that antibodies can also be detected in the yolk of eggs laid by immunised hens, led to the development of the yolk antibody technology as an alternative method less stressful to animals. Hens can be kept under nearly natural conditions and antibodies be isolated from the eggs. Further, the IgY-technology has the advantage that avian antibodies can be produced against several antigens which do not induce a immune response in mammals. Protocols on how to keep and immunise hens and on the extraction, isolation and use of antibodies from yolk are described in detail in this manual. For their work on yolk antibodies the authors received the FISEA (International Foundation for the Substitution of Animal Experimentation, Luxembourg) prize in 1997.