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| biological safety cabinet training: Biosafety in the Laboratory Division on Engineering and Physical Sciences, Commission on Physical Sciences, Mathematics, and Applications, Committee on Hazardous Biological Substances in the Laboratory,National Research Council, 1989-01-01 Biosafety in the Laboratory is a concise set of practical guidelines for handling and disposing of biohazardous material. The consensus of top experts in laboratory safety, this volume provides the information needed for immediate improvement of safety practices. It discusses high- and low-risk biological agents (including the highest-risk materials handled in labs today), presents the seven basic rules of biosafety, addresses special issues such as the shipping of dangerous materials, covers waste disposal in detail, offers a checklist for administering laboratory safetyâ€and more. |
| biological safety cabinet training: Laboratory Biosafety Manual World Health Organization, 2004-12-28 This is the third edition of this manual which contains updated practical guidance on biosafety techniques in laboratories at all levels. It is organised into nine sections and issues covered include: microbiological risk assessment; lab design and facilities; biosecurity concepts; safety equipment; contingency planning; disinfection and sterilisation; the transport of infectious substances; biosafety and the safe use of recombinant DNA technology; chemical, fire and electrical safety aspects; safety organisation and training programmes; and the safety checklist. |
| biological safety cabinet training: Biosecurity Challenges of the Global Expansion of High-Containment Biological Laboratories National Research Council, National Academy of Sciences, Division on Earth and Life Studies, Board on Life Sciences, Policy and Global Affairs, Committee on International Security and Arms Control, Committee on Anticipating Biosecurity Challenges of the Global Expansion of High-Containment Biological Laboratories, 2012-04-02 During July 10-13, 2011, 68 participants from 32 countries gathered in Istanbul, Turkey for a workshop organized by the United States National Research Council on Anticipating Biosecurity Challenges of the Global Expansion of High-containment Biological Laboratories. The United States Department of State's Biosecurity Engagement Program sponsored the workshop, which was held in partnership with the Turkish Academy of Sciences. The international workshop examined biosafety and biosecurity issues related to the design, construction, maintenance, and operation of high-containment biological laboratories- equivalent to United States Centers for Disease Control and Prevention biological safety level 3 or 4 labs. Although these laboratories are needed to characterize highly dangerous human and animal pathogens, assist in disease surveillance, and produce vaccines, they are complex systems with inherent risks. Biosecurity Challenges of the Global Expansion of High-Containment Biological Laboratories summarizes the workshop discussion, which included the following topics: Technological options to meet diagnostic, research, and other goals; Laboratory construction and commissioning; Operational maintenance to provide sustainable capabilities, safety, and security; and Measures for encouraging a culture of responsible conduct. Workshop attendees described the history and current challenges they face in their individual laboratories. Speakers recounted steps they were taking to improve safety and security, from running training programs to implementing a variety of personnel reliability measures. Many also spoke about physical security, access controls, and monitoring pathogen inventories. Workshop participants also identified tensions in the field and suggested possible areas for action. |
| biological safety cabinet training: Primary Containment for Biohazards , 1995 |
| biological safety cabinet training: Laboratory Biosafety Manual World Health Organization, 1983 |
| biological safety cabinet training: Recombinant DNA Technical Bulletin , 1979-04 |
| biological safety cabinet training: Regulation Of Scientific Inquiry Keith Wulff, 1979-05-28 |
| biological safety cabinet training: The Laboratory Biosafety Guidelines Canada. Health Canada, Centre for Emergency Preparedness and Response (Canada), 2004 These guidelines were developed to guide government, industry, university, hospital, and other public health and microbiological laboratories in their development of biosafety policies and programs. They also provide information and recommendations on the design, construction, and commissioning of containment facilities. The guidelines are intended to reduce the incidence of infection and mortality among laboratory workers, as well as to prevent secondary transmission of disease to the public. |
| biological safety cabinet training: Safe Handling of Radioactive Isotopes National Committee on Radiation Protection (U.S.), 1949 |
| biological safety cabinet training: Biological Safety Dawn P. Wooley, Karen B. Byers, 2020-07-02 Biological safety and biosecurity protocols are essential to the reputation and responsibility of every scientific institution, whether research, academic, or production. Every risk—no matter how small—must be considered, assessed, and properly mitigated. If the science isn't safe, it isn't good. Now in its fifth edition, Biological safety: Principles and Practices remains the most comprehensive biosafety reference. Led by editors Karen Byers and Dawn Wooley, a team of expert contributors have outlined the technical nuts and bolts of biosafety and biosecurity within these pages. This book presents the guiding principles of laboratory safety, including: the identification, assessment, and control of the broad variety of risks encountered in the lab; the production facility; and, the classroom. Specifically, Biological Safety covers protection and control elements—from biosafety level cabinets and personal protection systems to strategies and decontamination methods administrative concerns in biorisk management, including regulations, guidelines, and compliance various aspects of risk assessment covering bacterial pathogens, viral agents, mycotic agents, protozoa and helminths, gene transfer vectors, zooonotic agents, allergens, toxins, and molecular agents as well as decontamination, aerobiology, occupational medicine, and training A resource for biosafety professionals, instructors, and those who work with pathogenic agents in any capacity, Biological safety is also a critical reference for laboratory managers, and those responsible for managing biohazards in a range of settings, including basic and agricultural research, clinical laboratories, the vivarium, field study, insectories, and greenhouses. |
| biological safety cabinet training: Biosafety in Microbiological and Biomedical Laboratories , 1984 |
| biological safety cabinet training: Biological Safety Diane O. Fleming, Debra L. Hunt, 2014-07-07 This title is published by the American Society for Microbiology Press and distributed by Taylor and Francis in rest of world territories. |
| biological safety cabinet training: Exposure to Hazardous Chemicals in Laboratories , 1994 |
| biological safety cabinet training: Prudent Practices in the Laboratory National Research Council, Division on Earth and Life Studies, Board on Chemical Sciences and Technology, Committee on Prudent Practices in the Laboratory: An Update, 2011-03-25 Prudent Practices in the Laboratory-the book that has served for decades as the standard for chemical laboratory safety practice-now features updates and new topics. This revised edition has an expanded chapter on chemical management and delves into new areas, such as nanotechnology, laboratory security, and emergency planning. Developed by experts from academia and industry, with specialties in such areas as chemical sciences, pollution prevention, and laboratory safety, Prudent Practices in the Laboratory provides guidance on planning procedures for the handling, storage, and disposal of chemicals. The book offers prudent practices designed to promote safety and includes practical information on assessing hazards, managing chemicals, disposing of wastes, and more. Prudent Practices in the Laboratory will continue to serve as the leading source of chemical safety guidelines for people working with laboratory chemicals: research chemists, technicians, safety officers, educators, and students. |
| biological safety cabinet training: Human Stem Cell Manual Suzanne Peterson, Jeanne F. Loring, 2012-10-22 This manual is a comprehensive compilation of methods that work for deriving, characterizing, and differentiating hPSCs, written by the researchers who developed and tested the methods and use them every day in their laboratories. The manual is much more than a collection of recipes; it is intended to spark the interest of scientists in areas of stem cell biology that they may not have considered to be important to their work. The second edition of the Human Stem Cell Manual is an extraordinary laboratory guide for both experienced stem cell researchers and those just beginning to use stem cells in their work. - Offers a comprehensive guide for medical and biology researchers who want to use stem cells for basic research, disease modeling, drug development, and cell therapy applications - Provides a cohesive global view of the current state of stem cell research, with chapters written by pioneering stem cell researchers in Asia, Europe, and North America - Includes new chapters devoted to recently developed methods, such as iPSC technology, written by the scientists who made these breakthroughs |
| biological safety cabinet training: Laboratory Biorisk Management Reynolds M. Salerno, Jennifer Marie Gaudioso, 2021-03-30 Over the past two decades bioscience facilities worldwide have experienced multiple safety and security incidents, including many notable incidents at so-called sophisticated facilities in North America and Western Europe. This demonstrates that a system based solely on biosafety levels and security regulations may not be sufficient. Setting the stage for a substantively different approach for managing the risks of working with biological agents in laboratories, Laboratory Biorisk Management: Biosafety and Biosecurity introduces the concept of biorisk management--a new paradigm that encompasses both laboratory biosafety and biosecurity. The book also provides laboratory managers and directors with the information and technical tools needed for its implementation. The basis for this new paradigm is a three-pronged, multi-disciplinary model of assessment, mitigation, and performance (the AMP model). The application of the methodologies, criteria, and guidance outlined in the book helps to reduce the risk of laboratories becoming the sources of infectious disease outbreaks. This is a valuable resource for those seeking to embrace and implement biorisk management systems in their facilities and operations, including the biological research, clinical diagnostic, and production/manufacturing communities. |
| biological safety cabinet training: Construction and Operation of the National Biodefense Analysis and Countermeasures Center (NBACC) Facility by the Department of Homeland Security at Fort Detrick , 2004 |
| biological safety cabinet training: Viral Hemorrhagic Fevers Sunit K. Singh, Daniel Ruzek, 2016-04-19 Viral hemorrhagic fevers have captured the imagination of the public and made their way into popular books and movies by virtue of their extreme virulence and mysterious origins. Since 2001, concerns have grown about the potential use of many hemorrhagic fever viruses as biological weapons. This has led to a resurgence in research to develop improv |
| biological safety cabinet training: Research Administration and Management Elliott C. Kulakowski, Lynne U. Chronister, 2006-01-16 This reference text addresses the basic knowledge of research administration and anagement, and includes everything from a review of research administration and the infrastructure that is necessary to support research, to project development and post-project plans. Examples of concepts, case studies, a glossary of terms and acronyms, and references to books, journal articles, monographs, and federal regulations are also included. |
| biological safety cabinet training: Biosafety Guidelines for Diagnostic and Research Laboratories Working with HIV. World Health Organization, 1991 |
| biological safety cabinet training: Anthology of Biosafety Jonathan Y. Richmond, 1999 |
| biological safety cabinet training: The Foundations of Laboratory Safety Stephen R. Rayburn, 2012-12-06 Safety is a word that has many connotations, of risk ofa possible accident that is acceptable conjuring up different meanings to different to one person· may not be acceptable to an people. What is safety? A scientist views safety other. This may be one reason why skydiving as a consideration in the design of an exper and mountain climbing are sports that are not iment. A manufacturing plant engineer looks as popular as are, say, boating or skiing. on safety as one of the necessary factors in But even activities that have high levels of developing a manufacturing process. A legis potential risk can be engaged in safely. How lator is likely to see safety as an important part can we minimize risks so that they decrease of an environmental law. A governmental ad to acceptable levels? We can do this by iden ministrator may consider various safety issues tifying sources of hazards and by assessing the when reviewing the environmental conse risks of accidents inherent to these hazards. quences of a proposed project. An attorney Most hazards that are faced in the laboratory may base a negligence suit on safety defects. |
| biological safety cabinet training: Federal Register , 1978-07 |
| biological safety cabinet training: Recombinant DNA Research , 1995 Documents relating to NIH guidelines for research involving recombinant DNA molecules. |
| biological safety cabinet training: Selection of essential in vitro diagnostics at country level using the WHO Model List of Essential In Vitro Diagnostics to develop and update a national list of essential in vitro diagnostics , 2021-07-30 |
| biological safety cabinet training: Developing Norms for the Provision of Biological Laboratories in Low-Resource Contexts National Academies of Sciences, Engineering, and Medicine, Division on Earth and Life Studies, Board on Life Sciences, Policy and Global Affairs, 2019-05-01 On June 27-28, 2018, the U.S. National Academies of Sciences, Engineering, and Medicine (the National Academies) convened an international workshop in Amsterdam, the Netherlands, on developing norms for the provision of laboratories in low-resource contexts. The U.S. Department of State's Biosecurity Engagement Program requested that the National Academies organize this workshop to engage an international group of organizations that provide funding for construction, upgrades, and maintenance of biological laboratories in countries without the means to build such labs themselves. Twenty-one people from 19 organizations participated. The intent was to advance the conversation about the identification and application of guiding principles and common norms for use by these organizations in their grants, partnerships, and aid. This publication summarizes the presentations and discussions from the workshop. |
| biological safety cabinet training: Gnotobiotics Trenton R Schoeb, Kathryn A Eaton, 2017-08-11 Gnotobiotics summarizes and analyzes the research conducted on the use of gnotobiotes, providing detailed information regarding actual facility operation and derivation of gnotobiotic animals. In response to the development of new tools for microbiota and microbiome analysis, the increasing recognition of the various roles of microbiota in health and disease, and the consequent expanding demand for gnotobiotic animals for microbiota/microbiome related research, this volume collates the research of this expanding field into one definitive resource. - Reviews and defines gnotobiotic animal species - Analyzes microbiota in numerous contexts - Presents detailed coverage of the protocols and operation of a gnotobiotic facility |
| biological safety cabinet training: Nonhuman Primates in Biomedical Research Christian R. Abee, Keith Mansfield, Suzette D. Tardif, Timothy Morris, 2012-06-07 The 2e of the gold standard text in the field, Nonhuman Primates in Biomedical Research provides a comprehensive, up-to-date review of the use of nonhuman primates in biomedical research. The Diseases volume provides thorough reviews of naturally occurring diseases of nonhuman primates, with a section on biomedical models reviewing contemporary nonhuman primate models of human diseases. Each chapter contains an extensive list of bibliographic references, photographs, and graphic illustrations to provide the reader with a thorough review of the subject. - Fully revised and updated, providing researchers with the most comprehensive review of the use of nonhuman primates in bioledical research - Addresses commonly used nonhuman primate biomedical models, providing researchers with species-specific information - Includes four color images throughout |
| biological safety cabinet training: Bennett & Brachman's Hospital Infections John V. Bennett, William Robert Jarvis, Philip S. Brachman, 2007 The most influential reference in the field for nearly thirty years, Bennett and Brachman's Hospital Infections is in its thoroughly updated Fifth Edition. Written by internationally recognized experts—many affiliated with the Centers for Disease Control and Prevention—the book is the most comprehensive, up-to-date, authoritative guide to the recognition, management, prevention, and control of infections in all types of healthcare facilities. More than half of this edition's chapters have new authors who are current experts in the field. Important new chapters cover patient safety, public reporting, controlling antimicrobial-resistant pathogens (especially MRSA and VRE), fungi, and healthcare-associated infections caused by newer treatments such as invasive cardiology. This edition has a new two-color design. |
| biological safety cabinet training: Laboratory Manual for Biotechnology Verma, Ashish S./ Das Surajit & Singh Anchal, Laboratory Manual in Biotechnology Students |
| biological safety cabinet training: Incidents involving radiation Great Britain: Department for Communities and Local Government, Chief Fire & Rescue Adviser, 2011-02-18 Looseleaf version also available (ISBN 9780117540774). On cover: Fire and Rescue Service operational guidance. GRAs - generic risk assessments. This series only applies to England. Dated January 2011 |
| biological safety cabinet training: Current Issues in Clinical Microbiology, An Issue of the Clinics in Laboratory Medicine, E-Book Nicole Pecora, Matthew Pettengill, 2020-11-11 This issue of Clinics in Laboratory Medicine, guest edited by Drs. Nicole D. Pecora and Matthew Pettengill, will cover Current Issues in Clinical Microbiology. This issue is one of four selected each year by our Editor-in-Chief, Dr. Milenko Jovan Tanasijevic. Topics discussed in this issue will include: Update in Diagnostics of Bloodstream Infections, Panels and Syndromic Testing in Clinical Microbiology, Lab Consolidation and Centralization, Update in Susceptibility Testing: Phenotypic and Genotypic Methods, Genomics in the Clinical Microbiology Laboratory, Automation in the Clinical Microbiology Laboratory, Coronavirus Detection in the Clinical Microbiology Laboratory: Are We Ready for Identifying and Diagnosing a Novel Strain?, Update on Biosafety and Emerging Infections for the Clinical Microbiology Lab, Update in Clinical Mycology, Point of Care Testing in Microbiology, Pediatric Diagnostic Microbiology, Antimicrobial Stewardship: What the Clinical Laboratory Needs to Know, Fellowship Training for the Future Clinical Microbiology Laboratory Director, Update in Diagnostics/Susceptibility of Mycobacterial Diseases, Role of the Clinical Microbiology Lab in One Health, Update in Infectious Disease Diagnosis in Surgical Pathology, and more. |
| biological safety cabinet training: Biological Engagement Programs: Reducing Threats and Strengthening Global Health Security Through Scientific Collaboration Jeanne M. Fair, Hillary H. Carter, Nathan Wolfe, 2017-09-13 Biological engagement programs are a set of projects or activities between partner countries that strengthen global health security to achieve mutually beneficial outcomes. Engagement programs are an effective way to work collaboratively towards a common threat reduction goal, usually with a strong focus on strengthening health systems and making the world a safer place. Cooperative programs are built upon trust and sharing of information and resources to increase the capacity and capabilities of partner countries. Biological engagement programs reduce the threat of infectious disease with a focus on pathogens of security concern, such as those pathogens identified by the U.S. Government as Biological Select Agent and Toxins. These programs seek to develop technical or scientific relationships between countries to combat infectious diseases both in humans and animals. Through laboratory biorisk management, diagnostics, pathogen detection, biosurveillance and countermeasure development for infectious diseases, deep relationships are fostered between countries. Biological engagement programs are designed to address dual-use issues in pathogen research by promoting responsible science methodologies and cultures. Scientific collaboration is a core mechanism for engagement programs are designed to strengthen global health security, including prevention of avoidable epidemics; detection of threats as early as possible; and rapid and effective outbreak response. This Research Topic discusses Biological Engagement Programs, highlighting the successes and challenges of these cooperative programs. Articles in this topic outlined established engagement programs as well as described what has been learned from historical cooperative engagement programs not focused on infectious diseases. Articles in this topic highlighted selected research, trainings, and programs in Biological Engagement Programs from around the world. This Topic eBook first delves into Policies and Lessons Learned; then describes Initiatives in Biosafety & Biosecurity; the core of this work documents Cooperative Research Results from the field; then lastly the Topic lays out potential Future Directions to the continued success of the World’s cooperative science in reducing the threat of infectious diseases. |
| biological safety cabinet training: Canine and Feline Infectious Diseases Jane E. Sykes, 2013-08-09 Canine and Feline Infectious Diseases is a practical, up-to-date resource covering the most important and cutting-edge advances in the field. Presented by a seasoned educator in a concise, highly visual format, this innovative guide keeps you current with the latest advances in this ever-changing field. 80 case studies illustrate the clinical relevance of the major infectious disease chapters. - Well-organized Major Infectious Diseases chapters break down content by etiologic agent and epidemiology, clinical signs and their pathophysiology, physical examination findings, diagnosis, treatment and prognosis, immunity, prevention, and public health implications. - Over 80 case studies illustrate how the information provided can be applied in everyday practice. - Logical approach to laboratory diagnosis guides you through all the steps needed to accurately diagnose and treat viral, bacterial, fungal, protozoal, and algal diseases. - Practical protocols provided by expert clinicians guide you in the management of canine and feline patients suspected to have infectious diseases, including handling, disinfection, isolation, and vaccination protocols. - Over 500 full color images – geographic distribution maps, life cycle drawings, and hundreds of color photographs – visually illustrate and clarify complex issues. - Easy-to-understand tables and boxes make content quickly accessible, eliminating the need to sort through dense text for critical information in the clinical setting. |
| biological safety cabinet training: Laboratory Biosecurity: Balancing Risks, Threats and Progress Najat Rashid, Ramnik Sood, 2015 |
| biological safety cabinet training: Environmental Microbiology Ian Pepper, Charles P. Gerba, Terry Gentry, Raina M. Maier, 2011-10-13 For microbiology and environmental microbiology courses, this leading textbook builds on the academic success of the previous edition by including a comprehensive and up-to-date discussion of environmental microbiology as a discipline that has grown in scope and interest in recent years. From environmental science and microbial ecology to topics in molecular genetics, this edition relates environmental microbiology to the work of a variety of life science, ecology, and environmental science investigators. The authors and editors have taken the care to highlight links between environmental microbiology and topics important to our changing world such as bioterrorism and national security with sections on practical issues such as bioremediation, waterborne pathogens, microbial risk assessment, and environmental biotechnology.WHY ADOPT THIS EDITION? New chapters on: - Urban Environmental Microbiology - Bacterial Communities in Natural Ecosystems - Global Change and Microbial Infectious Disease - Microorganisms and Bioterrorism - Extreme Environments (emphasizing the ecology of these environments) - Aquatic Environments (now devoted to its own chapter- was combined with Extreme Environments) Updates to Methodologies: - Nucleic Acid -Based Methods: microarrays, phyloarrays, real-time PCR, metagomics, and comparative genomics - Physiological Methods: stable isotope fingerprinting and functional genomics and proteomics-based approaches - Microscopic Techniques: FISH (fluorescent in situ hybridization) and atomic force microscopy - Cultural Methods: new approaches to enhanced cultivation of environmental bacteria - Environmental Sample Collection and Processing: added section on air sampling |
| biological safety cabinet training: Final Environmental Impact Statement on NIH Guidelines for Research Involving Recombinant DNA Molecules of June 23, 1976 National Institutes of Health (U.S.), National Institutes of Health (U.S.). Office of the Director, 1977 |
| biological safety cabinet training: Cellular Transplantation Craig Halberstadt, Dwaine F. Emerich, 2011-10-10 There have been tremendous strides in cellular transplantation in recent years, leading to accepted practice for the treatment of certain diseases, and use for many others in trial phases. The long history of cellular transplantation, or the transfer of cells from one organism or region of the body to another, has been revolutionized by advances in stem cell research, as well as developments in gene therapy. Cellular Transplants: From Lab to Clinic provides a thorough foundation of the basic science underpinning this exciting field, expert overviews of the state-of-the-art, and detailed description of clinical success stories to date, as well as insights into the road ahead. As highlighted by this timely and authoritative survey, scale-up technologies and whole organ transplantation are among the hurdles representing the next frontier. The contents are organized into four main sections, with the first covering basic biology, including transplant immunology, the use of immunosuppressive drugs, stem cell biology, and the development of donor animals for transplantation. The next part looks at peripheral and reconstructive applications, followed by a section devoted to transplantation for diseases of the central nervous system. The last part presents efforts to address the key challenges ahead, such as identifying novel transplantable cells and integrating biomaterials and nanotechnology with cell matrices. - Provides detailed description of clinical trials in cell transplantation - Review of current therapeutic approaches - Coverage of the broad range of diseases addressed by cell therapeutics - Discussion of stem cell biology and its role in transplantation |
| biological safety cabinet training: Laboratory Safety Brinton Marshall Miller, Dieter Hans Max Gröschel, American Society for Microbiology, 1986 |
| biological safety cabinet training: Biological Defense Safety Program United States. Department of the Army, 1994 |
International Day for Biological Diversity: Harmony between …
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Biologicals - World Health Organization (WHO)
Jan 12, 2025 · Biologicals are a class of medicines made from living cells taken from plants, animals or bacteria. These cells are use in creating many types of health care products, …
TRS 1060 - Annex 6: Guideline on bioanalytical method validation …
Apr 15, 2025 · This guideline is intended to provide recommendations for the validation of bioanalytical methods for chemical and biological drug quantification in biological matrices and …
Laboratory biosafety manual, 4th edition - World Health …
Dec 21, 2020 · This fourth edition of the manual builds on the risk assessment framework introduced in the third edition. A thorough, evidence-based and transparent assessment of the …
Immunization, Vaccines and Biologicals - World Health …
The Immunization, Vaccines and Biologicals department is responsible for targeting vaccine-preventable diseases, guiding immunization research and establishing immunization policy.
Biological weapons - World Health Organization (WHO)
Sep 6, 2018 · Biological weapons form a subset of a larger class of weapons sometimes referred to as unconventional weapons or weapons of mass destruction, which also includes chemical, …
Determinants of health
Oct 4, 2024 · Food and water are the major sources of exposure to both chemical and biological hazards. They impose a substantial health risk to consumers and economic burdens on …
Biotherapeutic products - World Health Organization (WHO)
A major industrial application of biotechnology is in the development and preparation of biological medicinal products using genetically engineered bacteria, yeast, fungi, cells or even whole …
Ionizing radiation and health effects
Jul 27, 2023 · WHO fact sheet on ionizing radiation, health effects and protective measures: includes key facts, definition, sources, type of exposure, health effects, nuclear emergencies, …
Mental health
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