For more resources, search BOTH links below:
Animal Models in Cardiovascular Research by David R. Gross, 2008
Interest in the humane and scientifically justifiable use of research animals has intensified since the publication of the 2nd edition of Animal Models in Cardiovascular Research. This completely revised and updated edition will provide information essential to any researcher interested in using animal models for cardiovascular research, or any research which requires normal cardiovascular function. The format and presentation will be changed to make the text more easy to read and use: (1) This edition is in outline format, for ease and utility. (2) The opening chapter includes more information on the cardiovascular effects of post-operative analgesia and will address the recognition of pain behavior in species commonly used in research settings, particularly rats and mice. (3) New edition includes reference material more useful to researchers using transgenic and naturally occurring animal models to dissect these mechanisms.
Animal Models of Allergic Disease by Kumi Nagamoto-Combs (Editor), 2021
This volume provides protocols for mouse models of allergic diseases and guidelines for choosing a particular strains, allergen, adjuvant, and route of sensitization. Chapters detail types of allergic disease, methods that are frequently employed to analyze pathophysiology of allergic diseases, manipulation of intestinal microbiota, and desensitization of immure responses in animal models. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Animal Models of Allergic Disease: Methods and Protocols aims to offer a comprehensive collection of protocols and experience-derived instructions to further allergic disease research.
Animal Models of Neurological Disorders by Puneet Kumar (Editor); Rahul Deshmukh (Editor), 2017
This book introduces undergraduate, postgraduate and research students and scientists to animal models of neurological disorders, along with their working principle and brief procedures. Addressing all the disorders related to the central nervous system (CNS) in a single platform, on the basis of various literature surveys it describes different procedures to induce a single disease with the help of toxins/chemicals. It also includes numerous protocols for inducing single neurological diseases, thus fulfilling an urgent need for a book that makes specific procedures for neurological disorders available, so that specific disease can be induced in laboratories according to the availability of resources. Further, it acquaints readers with the pathological changes that occur in a particular neurological disorder, which reflect specific signs and symptoms of any particular disease, and examines how they affect everyday life. It is a valuable resource for researchers aiming to eradicate or improve neurological disorders by testing the benefits of different drugs.
Animal Models of Ophthalmic Diseases by Chi-Chao Chan (Editor), 2016
This book describes experimental animal models that mimic common human ocular diseases: herpetic keratitis, cataract, glaucoma, age-related macular degeneration, diabetic retinopathy, uveitis, retinitis pigmentosa, Graves' disease, and intraocular tumors. In conjunction, these models reflect the diversity and utility of tools used to study human disease. World expert clinicians discuss each model based on their clinical experience and the text is supported by numerous photos and diagrams. In describing the most pertinent animal models of ophthalmic diseases, this book will be of interest to ophthalmologists, vision researchers, fellows, residents and medical students.
Essentials of Laboratory Animal Science: Principles and Practices by P. Nagarajan (Editor); Ramachandra Gudde (Editor); Ramesh Srinivasan (Editor), 2021
This book comprehensively reviews the anatomy, physiology, genetics and pathology of laboratory animals as well as the principles and practices of using laboratory animals for biomedical research. It covers the design of buildings used for laboratory animals, quality control of laboratory animals, and toxicology, and discusses various animal models used for human diseases. It also highlights aspects, such as handling and restraint and administration of drugs, as well as breeding and feeding of laboratory animals, and provides guidelines for developing meaningful experiments using laboratory animals. Further, the book discusses various alternatives to animal experiments for drug and chemical testing, including their advantages over the current approaches. Lastly, it examines the potential effect of harmful pathogens on the physiology of laboratory animals and discusses the state of art in in vivo imaging techniques. The book is a useful resource for research scientists, laboratory animal veterinarians, and students of laboratory animal medicine.
Replacing Animal Models by Jamie Davies (Editor), 2012
Over the last decade, in vitro models have become moresophisticated and are at a stage where they can provide aneffective alternative to in vivo experiments. <i>Replacing AnimalModels</i> provides scientists and technicians with a practical,integrated guide to developing culture-based alternatives to invivo experiments. <p>The book is neither political nor polemical: it is technical,illustrating by example how alternatives can be developed and usedand providing useful advice on developing others. After looking atthe reasons for and potential benefits of alternatives to animalexperiments, the book covers a range of methods and examplesemphasising the design considerations that went into each system.The chapters also include ′case studies′ that illustrate the waysin which culture models can be used to answer a range of importantbiological questions of direct relevance to human development,physiology, disease and healing.</p><p>The thesis of this book is not that all animal experimentationcan be replaced, now or in the near future, by equally effective orsuperior alternatives. Rather, the premise is that there issubstantial opportunity, here and now, to do some common types ofexperiment better in vitro than in vivo, and that doing so willresult in both scientific and ethical gains.</p>