Post on 03-Jun-2020
Course Overview and Introduction
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Introduction Lack of financial resources or the required knowledge to provide modern biosecurity and biosafety training has prevented biological laboratories and institutes from training their personnel. This situation represents a serious threat, as poor training increases the risk of a biological accident or of improper pathogen accounting, storage and transportation which could contribute to the illicit acquisition of biological agents by terrorist groups. To address this challenge many countries are collaborating with international biosafety organisations to develop training and training centres appropriate for their needs. These training centres will assist with improving awareness of modern biosecurity/biosafety practices and concerns, thereby resulting in decreased risk of biological accidents, accidental release of a biological agent or terrorist acquisition of deadly pathogens. Delivering standardized course curriculums such as the one attached from Canada’s Global Partnership Program, along with the Security Sensitive Biological Agents (SSBA) Regulatory Scheme introduced in 2009 will place Australia in a good position to be a regional leader in biosafety. Course Description
Thi This course provides an overview of biosecurity/biosafety and the practices, equipment, and facilities for the safe and secure handling of dangerous pathogens in a laboratory setting. It is intended for biosafety professionals, scientists, managers, maintenance personnel, engineers and architects involved in the design, operation or maintenance of laboratories handling infectious agents. Course Objectives This course provides an overview of the critical aspects of biosecurity, biosafety and biocontainment. Participants will learn how to assess risks for biohazards in the laboratory setting and the strategies to appropriately manage these risks. By the end of the course, participants will be familiar with international best practices in biorisk
management.
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Content This course is offered as a series of modules which include presentations, videos and group discussion. Course concepts are further reinforced through hands-on excercises, demonstrations and visits to containment laboratories. In addition, the course provides the opportunity for various segments or modules to be offered as stand-alone shorter courses. The course is comprised of the following Modules:
Introduction to Biosafety and Biocontainment (Module 1) Biosafety and Biocontainment Concepts and Strategies (Module 2) Biosecurity Concepts and Strategies (Module 3) Risk Assessment (Module 4) Biosafety Program Management (Module 5) Risk Communication (Module 6) Biocontainment Facilities (Module 7) Operational Biosafety Practices and Procedures (Module 8) Biological Safety Cabinets (Module 9) Animal Biosafety and Facilities (Module 10) Facility Operations and Maintenance (Module 11) Disinfection and Decontamination (Module 12) Waste Management (Module 13) Bioethics (Module 14) Transportation of Infectious Substances (Module 15) Emergency Planning and Response (Module 16)
Teaching the Modules
Thi Biosafety professionals with comprehensive practical experience serve as instructors for this course. However, professionals such as facility operators, architects and engineers involved in the design, construction and operation of biocontainment facilities may also serve as instructors for specific modules applicable to their profession. Each training session must also be carefully planned and adapted to best suit the intended audience.
Course Overview and Introduction
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Module 1: Introduction to Biosafety and Containment
Objectives
• Describe the history and incidence of laboratory-acquired infections (LAI) • Describe incidents of secondary transmission from the laboratory • Outline the types of laboratory accidents leading to LAIs • Explain the role of aerosols in LAIs • Illustrate the importance of biosafety and biocontainment in minimizing the
risk of LAIs
Training Tools and Reference Material Collins, C.H., and Kennedy, D.A. Laboratory-acquired infections. In: Laboratory-acquired infections: history, incidence, causes and preventions. Oxford, UK: Butterworth-Heinemann, 1999;1-37. Harding, A.L., and Brandt Byers, K. Epidemiology of laboratory-associated infections. In: Fleming, D.O., and Hunt, D.L. Biological safety: principles and practices. Washington, DC: ASM Press, 2000;35-54. Sewell, D.L. Laboratory-associated infections and biosafety. Clin Microbiol Rev 1995;8:389-405. Participant Discussion on In-house Laboratory-acquired Infections and Lessons Learned
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Module 2: Biosafety and Biocontainment Concepts & Strategies
Objectives
• Describe the assignment of microorganisms into risk groups • Understand the relationship between risk groups and biosafety levels • Outline the four biosafety levels • Describe the concepts of primary and secondary barriers • Outline concepts for animal pathogen containment • Identify key biosafety guidelines and standards
Training Tools and Reference Material Laboratory Biosafety Manual. World Health Organization. 2004 www.who.int/csr/resources/publications/biosafety/WHO_CDS_CSR_LYO_2004_11/en geo.international.gc.ca/cip-pic/library/biological-en.aspx (Russian version) Laboratory Biosafety Guidelines. Public Health Agency of Canada. 2004. www.phac-aspc.gc.ca/ols-bsl/lbg-ldmbl geo.international.gc.ca/cip-pic/library/biological-en.aspx (Russian version) Laboratory Biorisk Management Standard. CEN Workshop Agreement 15793. 2007 (available in Russian) “Biosafety 101” Instructional DVD Copies of Manuals/Guidelines to be distributed to participants
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Module 3: Biosecurity Concepts and Strategies
Objectives
• Understand the relationship between biosecurity and biosafety • Describe the challenges of a biosecurity program for microorganisms • Outline the key components of a biosecurity program (physical security,
pathogen accountability, personnel reliability, transport security, information security)
• Describe an emergency response plan for breaches of biosecurity
Training Tools and Reference Material ABSA Biosecurity Task Force White Paper: Understanding Biosecurity. American Biological Safety Association. 2003 Biorisk Management: Laboratory Biosecurity Guidance, World Health Organization. 2006 www.who.int/csr/resources/publications/biosafety/WHO_CDS_EPR_2006_6/en geo.international.gc.ca/cip-pic/library/biological-en.aspx (Russian version) Biosafety in Microbiological and Biomedical Laboratories. Section VI: Principles of Laboratory Biosecurity. Centres for Disease Control and National Institutes of Health. US Govt Printing Office. 2007 Laboratory Security and Emergency Response Guidance for Laboratories Working with Select Agents. MMWR. 51(RR 19). 2002 Salerno, R.M and Gaudioso, J. Laboratory Biosecurity Handbook, CRC Press. 2007 “Laboratory Biosecurity: Build Security into Good Laboratory Practices” Instructional Course. www.cdc.gov/od/ohs/biosecurity_training Copies of Manuals/Guidelines to be distributed to participants
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Module 4: Risk Assessment
Objectives
• Describe components of a risk assessment for microorganisms • Outline factors affecting risk assessment (agent, host, environment,
behavioural)
• Describe risk management strategies • Understand the process of a job hazard analysis • Identify current biorisk management and risk assessment initiatives • Describe the components of an ideal risk assessment for laboratories handling
dangerous pathogens
Training Tools and Reference Material Knudsen, R.C. Risk Assessment for Working with Infectious Agents in the Biological Laboratory. In: Anthology of Biosafety III – Application of Principles. American Biological Safety Association. 2000 (available in Russian) Laboratory Biorisk Management Standard. CEN Workshop Agreement 15793. 2007 (available in Russian) Wagener, S. et al. Biological Risk Assessment in the Laboratory. 2007 (available in Russian) Biosafety Risk Assessment Wiki. www.biosafetyriskassessment.org Biosecurity Risk Assessment Methodology (RAM). Sandia National Laboratories. International Threat Reduction Prorgram Risk Assessment Case Studies
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Module 5: Biosafety Program Management
Objectives
• Describe the structure of a biosecurity and biosafety program • Describe the roles and responsibilities for management, committees, biosafety
officers and individuals
• Outline the biosecurity and biosafety issues to be incorporated into the program
Training Tools and Reference Material Laboratory Biosafety Manual. World Health Organization. 2004 www.who.int/csr/resources/publications/biosafety/WHO_CDS_CSR_LYO_2004_11/en geo.international.gc.ca/cip-pic/library/biological-en.aspx (Russian version) Laboratory Biosafety Guidelines. Public Health Agency of Canada. 2004 www.phac-aspc.gc.ca/ols-bsl/lbg-ldmbl geo.international.gc.ca/cip-pic/library/biological-en.aspx (Russian version) Laboratory Biorisk Management Standard. CEN Workshop Agreement 15793. 2007 (available in Russian) “Biosafety 101” Instructional DVD
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Module 6: Risk Communication
Objectives
• Explain what is meant by risk communication • Describe the challenges in communicating crisis information to the public • Outline examples of how communication of laboratory accidents and breaches
of containment influenced the media and the public
Training Tools and Reference Material Emergency and Risk Communication. Centres for Disease Control. www.bt.cdc.gov/erc Barden, L.S and Hellerman, C. The Moment of Truth: Crisis Communication for Laboratories. In Anthology of Biosafety VII – Biosafety Level 3. American Biological Safety Association. 2004. (available in Russian) Keith, K., and Wagener, S. Community Relations for High-containment Laboratories: The Canadian Science Centre for Human and Animal Health Model. In Anthology of Biosafety VII – Biosafety Level 3. American Biological Safety Association. 2004. (available in Russian)
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Module 7: Biocontainment Facilities
Objectives
• Describe the progression of building a new biocontainment laboratory from conceptualization through to certification
• Outline the concepts to be addressed during the laboratory programming phase
• Understand key architectural and engineering biocontainment features
• Describe key security features and control systems • Describe the commissioning and certification process and understand the
difference between them
Training Tools and Reference Material Anthology of Biosafety VII – Biosafety Level 3. American Biological Safety Association. 2004 (available in Russian) Laboratory Biosafety Manual. World Health Organization. 2004 www.who.int/csr/resources/publications/biosafety/WHO_CDS_CSR_LYO_2004_11/en geo.international.gc.ca/cip-pic/library/biological-en.aspx (Russian version) Laboratory Biosafety Guidelines. Public Health Agency of Canada. 2004 www.phac-aspc.gc.ca/ols-bsl/lbg-ldmbl geo.international.gc.ca/cip-pic/library/biological-en.aspx (Russian version) “Containment Level 3 Laboratories”. Instructional DVD (available in Russian) “Containment Level 2 Laboratories”. Instructional DVD Tour of BSL3 Laboratory and Mechanical Support Systems Review of Architectural/Mechanical Drawings for Mock Laboratory
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Module 8: Operational Biosafety Practices & Procedures
Objectives
• Describe the general biosafety practices and procedures applicable to all laboratories handling infectious agents
• Describe the biosafety practices and procedures applicable to BSL2 laboratories
• Describe the biosafety practices and procedures applicable to BSL3 laboratories
• Understand the characteristics of aerosols and how they are generated in the laboratory
• Explain good microbiological technique and methods to minimize the creation of aerosols
Training Tools and Reference Material Anthology of Biosafety VII – Biosafety Level 3. American Biological Safety Association. 2004 (available in Russian) Laboratory Biosafety Manual. World Health Organization. 2004 www.who.int/csr/resources/publications/biosafety/WHO_CDS_CSR_LYO_2004_11/en geo.international.gc.ca/cip-pic/library/biological-en.aspx (Russian version) Laboratory Biosafety Guidelines. Public Health Agency of Canada. 2004 www.phac-aspc.gc.ca/ols-bsl/lbg-ldmbl geo.international.gc.ca/cip-pic/library/biological-en.aspx (Russian version) “Containment Level 3 Laboratories”. Instructional DVD (available in Russian) “Containment Level 2 Laboratories”. Instructional DVD “Biosafety 101” Instructional DVD Demonstration of Personal Protective Equipment
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Module 9: Biological Safety Cabinets
Objectives
• Describe the classes and types of biological safety cabinets (BSC) • Understand the principles of HEPA filtration • Explain the practices for safely working in a BSC
• Identify other laminar flow devices and their limitations for use with microorganisms
• Outline the certification process for BSCs
• Describe the NSF 49 standard and its application
Training Tools and Reference Material Centers for Disease Control and Prevention and National Institutes of Health. Primary containment for biohazards: selection, installation and use of biological safety cabinets. Washington, DC: U.S. Government Printing Office, 2007 www.cdc.gov/od/ohs NSF International. Class II (laminar flow) biohazard cabinetry. Standard 49. Ann Arbor, Michigan: NSF International, 2002 (available in Russian) Stuart, D.G. Primary Barriers: Biological Safety Cabinets, Fume Hoods, and Glove Boxes. In: Fleming, D.O., and Hunt, D.L. Biological safety: principles and practices. Washington, DC: ASM Press, 2000 Biological Safety Cabinets: A Web-based Training Program. Eagleson Institute. www.eagleson.org “Biological Safety Cabinets: Safe Use and Operation”. Poster to be distributed to participants geo.international.gc.ca/cip-pic/library/biological-en.aspx (English & Russian version) “Containment Level 3 Laboratories”. Instructional DVD (available in Russian) Demonstration of Airflow Patterns in a Biological Safety Cabinet
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Module 10: Animal Biosafety and Facilities
Objectives
• Outline the risk assessment and planning process for work with experimental animals
• Identify the guidelines and standards applicable to laboratory animal facilities • Understand the differences in primary and secondary containment when
working with small vs large animals
• Describe the general concepts in animal facility design • Explain the containment caging options for working with small animals • Describe the unique architectural and engineering biocontainment features for
large animal facilities
• Describe the range of hazards unique to working with animals in the laboratory
Training Tools and Reference Material Mani, P., and Langevin, P. eterinary Containment Facilities – Design and Construction Handbook. International Veterinary Biosafety Working Group. 2006 Containment Standards for Veterinary Facilities. Canadian Food Inspection Agency. 1996 www.inspection.gc.ca/english/sci/lab/convet Laboratory Animal Facilities – characteristics, design and development. Canadian Council on Animal Care. 1993. www.ccac.ca/en/CCAC_Programs/Guidelines_Policies/GDLINES/Facilities “Overview of Risk Assessment and Risk Management in Laboratory Animal Biosafety.” Instructional video. www.absa.org/restraining.html “Working at Animal Biosafety Levels 1, 2, and 3”. Instructional video. www.absa.org/restraining.html
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Module 11: Facility Operations and Maintenance
Objectives
• Outline the components of a maintenance program for containment laboratories
• Understand the differences between routine, preventive and proactive maintenance
• Explain the concepts of continuity and reliability of services in support of the laboratory program
• Identify maintenance issues for key architectural, mechanical and security systems
• Describe the skilled trades involved in effectively implementing a maintenance program
Training Tools and Reference Material Kridel, S.E. Facility Maintenance Operations (Skilled Trades) for Biological Containment Laboratories. In: Anthology of Biosafety II – Facility Design Considerations. American Biological Safety Association. 2000 Working Safely in a BL3 Laboratory - Guidance for Service and Maintenance Employees. Instructional Video. Office of Environmental Health & Safety, Yale University. www.yale.edu/oehs/biomoreinfo.htm
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Module 12: Disinfection and Decontamination
Objectives
• Define disinfection, germicide, sanitizer, virucide, sterilant and other applicable terms used to describe decontaminants
• Describe the factors affecting the efficacy of disinfectants • Outline the classes of disinfectants and their advantages and disadvantages • Describe methods to test the efficacy of disinfectants • Describe the methods used for the decontamination of rooms and other spaces
Training Tools and Reference Material Abraham, G. Formaldehyde Fumigation for BSL-3 Facilities. In: Anthology of Biosafety VII – Biosafety Level 3. American Biological Safety Association. 2004 Block, SS. Disinfection, Sterilization, and Preservation. Lippincott Williams & Wilkins. Philadelphia, PA. 2001 Vesley, D., Lauer, J.L., and Hawley, R.J. Decontamination, Sterilization, Disinfection and Antisepsis. In: Fleming, D.O., and Hunt, D.L. Biological safety: principles and practices. Washington, DC: ASM Press, 2000
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Module 13: Waste Management
Objectives
• Outline the types of infectious waste generated in the laboratory • Describe the treatment methods for infectious waste • Understand the principles and practices for steam sterilization • Explain the strategies for treating liquid effluent from the laboratory
Training Tools and Reference Material Salkin, I.F., Krisiunas, E., and Thumberg, W.L. Medical and Infectious Waste Management. In: Anthology of Biosafety II – Facility Design Considerations. American Biological Safety Association. 2002.
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Module 14: Bioethics
Objectives
• Describe the ethical responsibilities for individuals working with infectious disease agents in the laboratory
• Outline the ethical issues that concern biosafety and biosecurity • Discuss codes of conduct for scientists • Identify key international codes and conventions in relation to the safe and
ethical use of biological sciences
Training Tools and Reference Material Biological and Toxin Weapons Convention. United Nations Office at Geneva www.unog.ch/bwc www.opbw.org
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Module 15: Transportation of Infectious Substances
Objectives
• Outline the regulatory framework governing the transportation of infectious substances
• Describe the classification, packaging, labeling, documentation and shipping requirements for infectious substances and diagnostic specimens
• Describe the responsibilities of the consignor, carrier, and consignee
Training Tools and Reference Material Guidance on Regulations for the Transport of Infectious Substances. World Health Organization. 2007 www.who.int/csr/resources/publications/biosafety/WHO_CDS_EPR_2007_2 (available in Russian) Infectious Substances Shipping Guidelines. International Air Transport Association. 2006 www.iata.org/ps/publications/issg.htm Copies of Guidance document to be distributed to participants Demonstration of packaging, labeling and documentation
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Module 16: Emergency Planning and Response
Objectives
• Outline the procedures for responding to spill of infectious materials and other accidents in the laboratory
• Describe how to handle medical emergencies in a containment facility setting • Describe the components of an effective occupational health program • Outline the procedures for management of occupational exposures to
infectious agents
Training Tools and Reference Material Demonstration of mock spill remediation using fluorescent tracer powder