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Research institutions have or are planning to build, expand and renovate animal research facilities to keep up with the demands of biomedical research caused in part by growth in the use of genetically altered rodents and the upsurge of research in infectious diseases. Properly designed facilities greatly facilitate effective management and high-quality day-to-day animal care that is required to optimally support animal research and testing. There are multiple solutions to address the myriad of factors that influence the design and construction of animal research facilities. There is no "best design applicable for all facilities and arguably not even a single "best design for a given facility. For this reason, Planning and Designing Research Animal Facilities is not intended to be a "how to book. The goal is to cover the basic programmatic requirements of animal research facilities, provide ideas for meeting those requirements while, hopefully, stimulating the creative process in which designers in consultation with those who work in animal research facilities generate even better ideas. That is how progress has been made and will continue to be made. - Facilitates communication between the parties involved in planning and designing animal facilities by providing contemporary information, and stimulating creativity that will help lead to wise decisions and advance the knowledge base for planning, design and constructing animal research facilities
Introductory technical guidance for professional engineers, architects and construction managers interested in design of biomedical animal research facilities. Here is what is discussed: DESIGN REQUIREMENTS 2. MODULAR DESIGN 3. MATERIALS AND FINISHES 4. ARF SECURITY 5. DESIGN CONSIDERATIONS 6. UTILITY SYSTEMS
The National Institutes of Health (NIH) is the primary agency of the United States government responsible for biomedical and public health research. Founded in the late 1870s, NIH has produced extraordinary advances in the treatment of common and rare diseases and leads the world in biomedical research. It is a critical national resource that plays an important role in supporting national security. The 310-acre Bethesda campus supports some 20,000 employees and contractors, and it contains more than 12 million square feet of facilities divided amongst nearly 100 buildings, including the largest dedicated research hospital in the world. The Bethesda campus supports some of the most sophisticated and groundbreaking biomedical research in the world. However, while some new state-of-the-art buildings have been constructed in recent years, essential maintenance for many facilities and the campus overall has been consistently deferred for many years. The deteriorating condition of NIH's built environment is now putting its ability to fulfill its mission at substantial risk. Managing the NIH Bethesda Campus's Capital Assets for Success in a Highly Competitive Global Biomedical Research Environment identifies the facilities in greatest need of repair on the Bethesda campus and evaluates cost estimates to determine what investment is needed for the NIH to successfully accomplish its mission going forward.
DESIGN and PLANNING of Research and Clinical LABORATORYFACILITIES In this primer/professional reference, Leonard Mayer demystifiesone of the most complex architectural specialties. An architectwith more than thirty-three years' experience as a master plannerand programmer of laboratories and clinical facilities, Mr. Mayeroffers a comprehensive overview of the fundamental issues relatedto laboratory planning and design. He also provides designers witha clear and rational framework through which to approach thishighly challenging and rewarding design specialty. A superblearning tool for students and professionals just getting startedin lab design and a valuable one-volume reference for theexperienced professional, Design and Planning of Research andClinical Laboratory Facilities features: * Step-by-step guidance through the complex maze of codes,specifications, standards, and official guidelines, relating to theplanning, design, and construction processes * New and updated design criteria based on the most recent laws andregulations * Master plans, facility programs, functional programs andrequirements programs for a wide variety of scientific and medicaldisciplines and support facilities * Comprehensive lists of relevant codes, regulations, standards,guidelines, and important architectural, structural, mechanical,electrical, and plumbing criteria Research and clinical laboratory facilities are, perhaps, the mostcomplex structures to plan and design. Intimidated by a vast andseemingly impenetrable body of codes, regulations, and designcriteria pertaining to lab design and construction, manyarchitects, unfortunately, choose to avoid what can be one of themost profitable and professionally rewarding areas ofspecialization. Written by an architect with more than thirty-three years ofexperience as a master planner and programmer of laboratories andclinical facilities, this book demystifies the process oflaboratory planning and design. It provides a comprehensiveoverview of the fundamental issues related to laboratory design andoffers readers detailed, step-by-step guidance through the complexmaze of design specifications and codes, standards, and officialguidelines that must be addressed during the programming, planning,design, and construction process. Focusing mainly on laboratory programming, planning, and designcriteria for "wet" laboratory environments, Leonard Mayer providesexamples from numerous master plans, facility programs, functionalprograms and requirements programs applicable to a wide variety ofscientific and medical disciplines, and related facilities. Relatedfunctions and activities include administrative offices, computercenters, core service and support, building services facilities,and more. He presents new and updated design criteria based onrecent laws and regulations and supplies readers with comprehensivelists of relevant codes, regulations, standards, guidelines, andarchitectural, structural, mechanical, electrical, and plumbingcriteria. Design and Planning of Research and Clinical Laboratory Facilitiesis an excellent primer for architecture students and newcomers tothe field, as well as an indispensable single-volume reference forexperienced professionals. It is also an invaluable resource forresearchers and investigators, facility planners and managers,plant engineers, and all others involved with the design,construction, maintenance, and administration of laboratoryfacilities.
Introductory technical guidance for architectural engineers, architects and construction managers interested in design of biocontainment features for biomedical research facilities. Here is what is discussed: 1. INTRODUCTION 2. GENERAL REQUIREMENTS 3. DOORS.
This report is the twelfth assessment of the National Institutes of Health National Research Service Awards program. The research training needs of the country in basic biomedical, clinical, and behavioral and social sciences are considered. Also included are the training needs of oral health, nursing, and health services research. The report has been broadly constructed to take into account the rapidly evolving national and international health care needs. The past and present are analyzed, and predictions with regard to future needs are presented.
A respected resource for decades, the Guide for the Care and Use of Laboratory Animals has been updated by a committee of experts, taking into consideration input from the scientific and laboratory animal communities and the public at large. The Guide incorporates new scientific information on common laboratory animals, including aquatic species, and includes extensive references. It is organized around major components of animal use: Key concepts of animal care and use. The Guide sets the framework for the humane care and use of laboratory animals. Animal care and use program. The Guide discusses the concept of a broad Program of Animal Care and Use, including roles and responsibilities of the Institutional Official, Attending Veterinarian and the Institutional Animal Care and Use Committee. Animal environment, husbandry, and management. A chapter on this topic is now divided into sections on terrestrial and aquatic animals and provides recommendations for housing and environment, husbandry, behavioral and population management, and more. Veterinary care. The Guide discusses veterinary care and the responsibilities of the Attending Veterinarian. It includes recommendations on animal procurement and transportation, preventive medicine (including animal biosecurity), and clinical care and management. The Guide addresses distress and pain recognition and relief, and issues surrounding euthanasia. Physical plant. The Guide identifies design issues, providing construction guidelines for functional areas; considerations such as drainage, vibration and noise control, and environmental monitoring; and specialized facilities for animal housing and research needs. The Guide for the Care and Use of Laboratory Animals provides a framework for the judgments required in the management of animal facilities. This updated and expanded resource of proven value will be important to scientists and researchers, veterinarians, animal care personnel, facilities managers, institutional administrators, policy makers involved in research issues, and animal welfare advocates.
Collaborations of physicians and researchers with industry can provide valuable benefits to society, particularly in the translation of basic scientific discoveries to new therapies and products. Recent reports and news stories have, however, documented disturbing examples of relationships and practices that put at risk the integrity of medical research, the objectivity of professional education, the quality of patient care, the soundness of clinical practice guidelines, and the public's trust in medicine. Conflict of Interest in Medical Research, Education, and Practice provides a comprehensive look at conflict of interest in medicine. It offers principles to inform the design of policies to identify, limit, and manage conflicts of interest without damaging constructive collaboration with industry. It calls for both short-term actions and long-term commitments by institutions and individuals, including leaders of academic medical centers, professional societies, patient advocacy groups, government agencies, and drug, device, and pharmaceutical companies. Failure of the medical community to take convincing action on conflicts of interest invites additional legislative or regulatory measures that may be overly broad or unduly burdensome. Conflict of Interest in Medical Research, Education, and Practice makes several recommendations for strengthening conflict of interest policies and curbing relationships that create risks with little benefit. The book will serve as an invaluable resource for individuals and organizations committed to high ethical standards in all realms of medicine.
Ch. 1. Scientific considerations and choice of species. ch. 1.1. The rationale for the use of animal models in biomedical research / Pierce Chow. ch. 1.2. Experimental animal models in biomedical resarch / Robert Ng. ch. 1.3. Nonhuman primates as models in biomedical research / Jason Vilano and Bryan Ogden -- ch. 2. Regulatory considerations in the use of animal models. ch. 2.1. Laws, regulations and guidelines for biomedical research in Singapore / Boon Theng Kuah. ch. 2.2. The functions of the institutional animal care and use committee / Pierce Chow. ch. 2.3. Responsibilities of principal investigators and research protocol evaluation / Hock Soo Ong. ch. 2.4. The 3R's, research variables and the use of alternatives / Hock Soo Ong. ch. 2.5. Use of statistics as determinant for number of animals used / Huihua Li. ch. 2.6. The advantages of accreditation with AAALAC / Bryan Ogden -- ch. 3. Animal handling and surgical procedures. ch. 3.1. General handling, restraint, oral dosing/gavage and injections in laboratory animals / Bryan Ogden. ch. 3.2. Blood collection from laboratory animals / Jason Villano. ch. 3.3. Antibiotic coverage and therapy / Darvi Sergio. ch. 3.4. Animal preparation and transport / Robert Ng. ch. 3.5. Preparation and implementation of animal surgery / Robert Ng. ch. 3.6. Animal intubation / Robert Ng. ch. 3.7. Anaesthesia and maintenance of homeostasis / Robert Ng. ch. 3.8. Animal euthanasia / Darvi Sergio. ch. 3.9. Rodent sentinel programme / Peik Khin Tan -- ch. 4. Basic animal investigative methods. ch. 4.1. Bioimaging in animals / David Ng [und weitere]. ch. 4.2. Histology sampling and techniques / In Chin Song. ch. 4.3. Animal tissue perfusion and preservation / Robert Ng. ch. 4.4. Animal cell culture / Kai Zhang and Peggy Yong. ch. 4.5. Application of microsurgical techniques in animal research / Bien Keem Tan [und weitere] -- ch. 5. Animal welfare considerations. ch. 5.1. Species specific caging configuration and design / Cindy Phua. ch. 5.2. Postoperative care and pain management / Jason Villano. ch. 5.3. Animal feeds and nutritional requirements / Peik Khin Tan -- ch. 6. Safety management of an animal facility. ch. 6.1. Occupational health and safety programme / Angela Goh. ch. 6.2. New employee and external users orientation / Inria Kurniawan Then. ch. 6.3. Radiation safety awareness in animal research / S. Somanesan. ch. 6.4. Emergency crisis management / Irene Kee. ch. 6.5. Zoonoses and laboratory animal allergies / Jason Villano -- ch. 7. Supporting facilities design. ch. 7.1. Clinical skills laboratory / Robert Ng. ch. 7.2. Animal research supporting laboratories / Robert Ng. ch. 7.3. Animal research and housing facilities / Robert Ng -- ch. 8. The development of comprehensive animal facilities in Singapore. ch. 8.1. History of the Department of Experimental Surgery as a reflection of translational research development in Singapore / Robert Ng