National Institutes of Health Biosafety Level 3 Laboratory Certification Requirements By; Deborah E. Wilson, DrPH, CBSP Farhad Memarzadeh, Ph.D., P.E. July 2006 Introduction Biosafety Level 3 (BSL-3/ABSL-3) containment laboratories for animals and research are the most difficult containment level facilities to design and operate. They should be certified for use before initial operation and subsequently on an annual schedule or after a program change, renovation or replacement of critical HVAC/exhaust system components (specifically fans, air valves, or fan motors) that may affect the operating environment of the laboratory. Laboratory certification is the systematic review of all safety features and processes associated with the laboratory (engineering controls, personal protective equipment, building and system integrity, standard operating procedures (SOPs) and administrative controls such as documentation and record retention systems). This validation assures that all reasonable facility controls and prudent practices are in place to minimize, to the greatest extent possible, the risks associated with laboratory operations and the use of biohazardous materials. Standardization of an initial and annual certification process for BSL-3 facilities will provide accountability that ensures proper and regular maintenance and demonstrates the use of SOPs that protect human and animal occupants, the environment and the research integrity. High containment laboratory certification helps ensure that: o o o o Appropriate site and protocol specific administrative controls and proper engineering controls are being used Personal protective equipment (PPE) is appropriate and undergoes regular inspection to maintain personal safety for the tasks being performed Decontamination systems for waste and other potentially infectious materials, including spill management, has been adequately considered and proper procedures are in place to mitigate environmental and personnel contamination Proper standard operating procedures (SOPs) for general laboratory safety and security, including physical, electrical, biological and chemical control mechanisms are in place. Certification of high containment laboratories will be performed by a team of professionals with experience and credentials in engineering and biosafety/occupational safety and health. DOHS will manage and perform certification of NIH intramural laboratories and other high containment facilities. When appropriate, DOHS may delegate the responsibility for providing certification of a laboratory or facility to a third party. As a part of the laboratory certification process, the attached checklist must be completed as a retained record document. Refer to Attachment A. Re-certification of the facility will be performed on an annual basis, as a minimum. A comparison should be made to the baseline established during initial certification. Detailed records of the certification process and test results must be maintained to provide an accurate operations history of the laboratory. National Institutes of Health Biosafety Level 3 Laboratory Certification Requirements During the course of developing the certification criteria for a specific building, DOHS or the appropriate Division Technical Resources (DTR) authority may request an alternative to the design requirements to accommodate existing building constraints or site conditions. DOHS may recommend an equivalent design feature that may not conform to the letter of the BSL-3 certification requirements but meets the intent and provides the level of containment required for the designated use of the facility. The following is a list of critical areas to inspect or validate that testing has been completed prior to BSL-3 laboratory operational start-up. Records shall be retained in the laboratory safety operations file for a predetermined length of time consistent with local health and safety regulations. Basis of BSL-3 Laboratory Certification Checklist I. Evaluation of Administrative Controls and ability to facilitate Maintenance Operations to ensure occupant safety and facility integrity 1. Review background materials that affect maintenance operations: o o o o o o o o o Obtain and review Commissioning Report Review architectural and mechanical drawings to ensure design intent is being met Review biosafety policies and procedures (SOPs) for the laboratory (facility) including training of occupants and maintenance staff Evaluate administrative and engineering procedures to determine if they meet the needs of the program. Review hazardous (infectious) waste management procedures Assess laboratory accident response protocols Evaluate decontamination procedures for appropriateness with respect to the protocols being conducted or anticipated Review integrated pest management program Review SOPs for document retention, maintenance and lab procedures 2. Inspect and Evaluate o Finishes, penetrations & caulking integrity for architectural elements such as doors, around the ceilings, lighting fixtures, electrical devices, etc. within containment to meet requirements for: ƒ Clean-ability of all surfaces including furniture ƒ Smoothness of all surfaces ƒ Sealed seams and penetrations ƒ Monolithic, slip resistant floors ƒ Surface impermeability to liquids ƒ Resistance of surfaces to chemical (organic solvents, acids, alkalis), disinfectants and moderate heat ƒ Gas tightness for decontamination ƒ Pest management requirements ƒ Non-operable windows ƒ Bioseals National Institutes of Health Biosafety Level 3 Laboratory Certification Requirements 3. Inspect room layout, placement of equipment and equipment condition o Evaluate autoclave verification testing procedures; inspect logs o Evaluate access control and exit procedures o Evaluate availability of: ƒ -Emergency equipment ƒ -Emergency two way communication system ƒ -System provided for electronic transfer of information to outside of containment ƒ -Emergency lighting ƒ -Working fire extinguisher ƒ -Availability of chemical spill kit within containment o o o o o o Evaluate redundancy requirements for particular facility such as air handling units, exhaust fans, decontamination system components (e.g. pumps & HEPA filters) Assess location of BSL-3 labs in relation to BSL-2 support labs, offices and break rooms, elevators, loading docks, etc. for effects on laboratory pressurization and airflow. This includes operational condition of doors. Presence of an anteroom w/ or w/o a shower ƒ -Storage provided for donning clean protective clothing and safety equipment (e.g. Powered Air Purifying Respirators) Hands-free sink located near exit of laboratory Office location outside of containment Inspect signage for proper posting ƒ -Biohazard sign ƒ -Agents used ƒ -Names and telephone number for lab director ƒ -Special requirements such as required use of PPEs, personnel access ƒ -Review list of all mechanical controls and their locations ƒ -Review start up and shut down procedures in case of emergency 4. Evaluate maintenance frequency and review maintenance logs o o o o o o o o o Autoclaves BSC filters Centrifuges Door/equipment locks HVAC balancing HVAC belts HVAC Motors/Sheaves Lights Plumbing II. Validation of Engineering Controls 1. Validate that extra capacity is present on both supply and exhaust systems and quantify the estimated spare capacity (must document how extra capacity was calculated or estimated) 2. Ensure single pass air flow 3. Measure directional air flow, pressure relationships, air changes and record data National Institutes of Health Biosafety Level 3 Laboratory Certification Requirements 4. Directional air flow must be established from clean areas into contaminated areas. In the event that multiple containment zones exist within a laboratory or laboratory suite, sequentially more negative pressure differentials must be established so that the more contaminated spaces are maintained at a negative pressure with respect to less contaminated areas. Pressure differentials across doorways must be measured using a device calibrated against a primary standard. Ideally, at least -0.05 in WG (-12.5 Pa) should be maintained from clean areas to more contaminated areas. In no case should the differential be less than -0.03 in. WG (-7.6 Pa) when the door is closed. Example: - 0.05 Viral isolatio n corridor BSL-3 Laboratory - 0.05 - 0.05 Air lock/anteroom ** Figure Provided For Illustration Purposes Only ** 5. Develop HVAC system and electrical systems failure tests consistent with laboratory design parameters. Perform tests and record data. To verify correct operations these tests should include at a minimum: o o o o o o o o o Normal operations Î emergency power Emergency power Î normal operations Loss of supply fans (individual and in combination) Loss of exhaust fans (individual and in combination) Building automation system (BAS) maintains operational set points during all scenarios and return to normal operations. Upon reboot BAS must retain operational set points. If an uninterrupted power supply (UPS) is installed, verify operation of relays Provide UPS for BAS Assess if UPS is operational Ensure that laboratories are maintained at negative pressure with respect to less contaminated areas. National Institutes of Health Biosafety Level 3 Laboratory Certification Requirements 6. Assess HVAC equipment condition o o o o o Visually inspect ƒ -Belts ƒ -Belt guards ƒ -Wiring ƒ -Duct supports and connections ƒ -Guide wires (if applicable) ƒ -Dilution air dampers (if applicable) ƒ -Bearings (high pitched squealing) ƒ -Ductwork system workmanship, damage, etc. Ensure that motor operating temperatures are maintained within equipment specifications Ensure that interlock between supply and exhaust is operational Verify correct placement of biological safety cabinets with respect to supply and exhaust diffusers, doors and traffic patterns. Use smoke at the face of the cabinet to ensure that the air curtain is not being disrupted by supply or exhaust diffusers placed in proximity of the cabinet(s) or opening and closing doors and traffic patterns. 7. Perform smoke tests to demonstrate directional airflow o o o o o Doors Vents Windows Autoclave Other vented areas 8. Inspect and challenge door interlock systems and automatic door closers o o o Door closers are required ƒ -Ensure that doors automatically close and latch ƒ -Interlocks required ƒ -Check operability Open and close doors in all possible sequences Ensure that delay set points are tight enough to preclude inadvertent over ride of interlock 9. Test all alarms o o o o o HVAC Failure Alarm Availability of air flow alarms showing if the room has gone positive under normal conditions or if door is open for greater than 20 seconds. Availability of a visual indication for personnel to be aware if the room is under positive or negative pressure prior to entering into the lab Review fire alarm annual documentation Review security alarm annual documentation National Institutes of Health Biosafety Level 3 Laboratory Certification Requirements 10. Discharge exhaust assessment (as a measure of performance) o o o o o o o Inspect rooftop landscape for re-entrainment opportunities ƒ - Min. 25 ft. from intake, 40 ft from boiler stacks and 15 ft. from plumbing stacks Laboratory exhaust stacks- minimum 3m height above highest point on roof Check Exhaust stack locations and discharge velocities Exhaust velocity = 15-20 m/s or 3000-4000 fpm Is all aerosol-producing equipment exhausted by certified HEPA filtration devices? ƒ- Ensure that continuous flow centrifuges or other equipment that may produce aerosols are contained in devices that exhaust air through HEPA filters before discharge into the laboratory Ensure that discharge of local exhaust ventilation (LEV) devices is removed from air intakes to prevent re-entrainment Consider local conditions (e.g., HEPA filters on exhaust, dilution air) 11. Verification of air change rates (ACR) in containment spaces o o o o ACR is determined during design based on sensible and latent heat loads contaminants and odors that require containment space usage Measure supply and exhaust air volumes using a device calibrated annually Calculate ACR; monitor trends In no case should the ACR be less than 6/hr for labs and 10/hr for animal facilities 12. Review biological safety cabinet (BSC) certification data including serial number validation o o o o o o o BSCs must be on an annual certification schedule Verify that BSCs are located away from doors and vents Verify that installation of BSC is correct for cabinet type. Inspect HEPA filter installations Review certification documentation for all exhaust HVAC HEPA installations Verify that HEPA filters are on portable air vacuum systems at point of use and at the barrier Visually inspect ƒ - Isolation valves for decon ƒ - Decon and challenge ports ƒ - Scanning access 13. Validate MEP o o o o o o o o Inspect for adequate illumination Verify that circuit breakers are outside of containment Backflow prevention for lab water system Sinks and drains properly marked Availability of emergency power for critical systems Availability of hands free emergency eyewash Availability of emergency shower Caulking and sealing requirements for electrical devises such as conduits, boxes, lights, etc. National Institutes of Health Biosafety Level 3 Laboratory Certification Requirements o o Validate provision for dedicated vacuum pump, if present Inspect effluent decontamination system, if present 14. Validate autoclave availability, operations and bioseal integrity o o o o o o o o Test interlocks Confirm cycle –test load Visually inspect bioseal Smoke test bioseal Validate maintenance of sterilization temp. of 121 degrees for 60 minutes. Autoclave-out capability directly from the BSL-3 facility in new facilities In older facilities where autoclave-out may not be available, an autoclave must be available near the BSL-3 facility so that containment of biohazardous waste is maintained. Additional environmental protection (e.g., personnel showers, HEPA filtration of exhaust air, containment of other piped services and the provision of effluent decontamination) is considered if recommended by the agent summary III. Review SOPs 1. Autoclave & Decontamination o o o o o o o o To decontaminate materials before removing them from the biosafety cabinet If an autoclave is available near but outside the BSL-3 facility, ensure adequate decontamination procedures in place for wet and dry biohazardous materials that leave the facility Assess the travel route to nearest autoclave avoid public corridors Assess procedures for use of and disposal of PPEs Assess procedures for decon of equipment that leaves the facility for repair or discontinuation of use Review storage and transport of biohazardous materials Assess type of disinfectant to be used and if it is of adequate strength and type for the biohazardous materials in use in the facility Validate schedule and frequency of changing HVAC filters on vacuum lines National Institutes of Health Biosafety Level 3 Laboratory Certification Requirements 2. Safety SOPs o o o o o o o o o o o o o o o Identification of responsible official for BSL-3 facility Certification of all personnel working within containment and process used to certify them Use, storage and disposal of Personal Protective Equipment Documented limited personnel access to facility Procedures for maintenance to enter facility Hand washing procedures are in place Use of mechanical pipetting devices; NO mouth pipetting Use of sharps prohibited unless absolutely required and then use should be managed by protocol Procedures in place to minimize production of aerosols Decontamination procedures are in place Training program is in place and documentation available for training and refresher courses of all personnel allowed in the BSL-3 facility Baseline serum samples are collected as appropriate and stored for all laboratory and other at-risk personnel A biosafety manual specific to the laboratory has been prepared and adopted Biosafety precautions are incorporated into standard operating procedures If animals are housed under ABSL-3 conditions, all animal specific regulations and biosafety procedures are followed 3. Occupational Health Monitoring (Policy and records of implementation), if appropriate o o o o o Blood/ Serum Storage Vaccinations High-risk (immune suppressed, pregnant, etc.) individuals Health screening Annual updates of Exposure Control Plan to include documentation of all locations where BSL-3 agents or materials are used or stored 4. Biohazardous Materials Use Authorization (e.g., Human Pathogen Registration, Recombinant DNA Registration, Select Agent, etc.) o o o o Current BUA Symptomology page Procedures for how samples are received Validate that a current Animal Subjects Committee approval is on file (if animals are used in the facility. Attachment A NIH BSL-3 Certification Checklist Date: Contact: Building: Telephone: Room #: Inspector: Initial (I): ᆕ Annual (A): ᆕ * Determination must be made as to requirement for initial and / or annual validation A/I I. Administrative Controls NOTES 1 Review and Assess Background materials A. SOPs for document retention, maintenance and lab procedures ᆕYes ᆕ No ᆕ N/A B. Commissioning Report ᆕYes ᆕ No ᆕ N/A C. Architectural and mechanical drawings to ensure design intent is being met ᆕYes ᆕ No ᆕ N/A D. Biosafety policies and procedures (SOPs) for the laboratory (facility) including training of occupants and maintenance staff ᆕYes ᆕ No ᆕ N/A E. Hazardous (infectious) waste management procedures ᆕYes ᆕ No ᆕ N/A F. Integrated pest management program ᆕYes ᆕ No ᆕ N/A G. Administrative and engineering procedures to determine if they meet the needs of the program ᆕYes ᆕ No ᆕ N/A H. Laboratory accident response protocols ᆕYes ᆕ No ᆕ N/A I. Decontamination procedures for appropriateness with respect to the protocols being conducted or anticipated ᆕYes ᆕ No ᆕ N/A Attachment A NIH BSL-3 Certification Checklist 2 Inspect, & Evaluate Architectural Features for Maintenance, Operations (Finishes, penetrations & caulking integrity such as doors, around the ceilings, lighting fixtures, electrical devices, etc. within containment to meet requirements for: A. Clean-ability of all surfaces including furniture ᆕPass ᆕ Fail ᆕ N/A B. Smoothness of all surfaces ᆕPass ᆕ Fail ᆕ N/A C. Sealed seams and penetrations ᆕPass ᆕ Fail ᆕ N/A D. Monolithic, slip resistant floors ᆕPass ᆕ Fail ᆕ N/A E. Surface impermeability to liquids ᆕPass ᆕ Fail ᆕ N/A F. Resistance of surfaces to chemicals (organic solvents, acids, alkalis,), disinfectants and moderate heat ᆕPass ᆕ Fail ᆕ N/A G. Gas tightness for decontamination ᆕPass ᆕ Fail ᆕ N/A H. Pest management requirements ᆕPass ᆕ Fail ᆕ N/A I. Non-operable windows ᆕPass ᆕ Fail ᆕ N/A J. Bioseals ᆕPass ᆕ Fail ᆕ N/A Inspection of room layout, placement of equipment and equipment condition ᆕPass ᆕ Fail ᆕ N/A 4 Autoclave verification testing procedures ; inspect logs ᆕPass ᆕ Fail ᆕ N/A 5 Access control and exit procedures ᆕPass ᆕ Fail ᆕ N/A 3 6 Evaluate availability of: A. Emergency equipment ᆕPass ᆕ Fail ᆕ N/A B. Emergency two way communication system ᆕPass ᆕ Fail ᆕ N/A NOTES Attachment A NIH BSL-3 Certification Checklist 7 C. System provided for electronic transfer of information to outside of containment ᆕPass ᆕ Fail ᆕ N/A D. Emergency lighting ᆕPass ᆕ Fail ᆕ N/A E. Working fire extinguisher ᆕPass ᆕ Fail ᆕ N/A F. Chemical spill kit within containment ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A Evaluate redundancy requirements (e.g. air handling units exhaust fans, decontamination system components) Assess location of BSL-3 labs in relation to BSL-2 support labs, offices, break rooms, elevators, loading docks, etc. for 8 effects on laboratory pressurization and airflow. This includes operational condition of doors. 9 Presence of an anteroom w/ or w/o a shower A. Storage provided for donning clean protective clothing and safety equipment (e.g., PAPR) ᆕYes ᆕ No ᆕ N/A B. Hands-free sink located near exit of laboratory ᆕYes ᆕ No ᆕ N/A ᆕYes ᆕ No ᆕ N/A 10 Office location outside of containment 11 Inspect signage and visual documentation for proper posting: A. Biohazard sign ᆕYes ᆕ No ᆕ N/A B. List of agents used ᆕYes ᆕ No ᆕ N/A C. Names and telephone number for lab director ᆕYes ᆕ No ᆕ N/A D. Special requirements such as required use of PPEs, personnel immunizations, etc. ᆕYes ᆕ No ᆕ N/A E. Review list of all mechanical controls and their locations ᆕYes ᆕ No ᆕ N/A F. Review start up and shut down procedures in case of emergency ᆕYes ᆕ No ᆕ N/A 12 Evaluate maintenance frequency and review maintenance logs NOTES Attachment A NIH BSL-3 Certification Checklist A. Autoclaves ᆕPass ᆕ Fail ᆕ N/A B. BSC filters ᆕPass ᆕ Fail ᆕ N/A C. Centrifuges ᆕPass ᆕ Fail ᆕ N/A D. Door / equipment looks ᆕPass ᆕ Fail ᆕ N/A E. HVAC balancing ᆕPass ᆕ Fail ᆕ N/A F. HVAC belts ᆕPass ᆕ Fail ᆕ N/A G. HVAC Motors / Sheaves ᆕPass ᆕ Fail ᆕ N/A H. Lights ᆕPass ᆕ Fail ᆕ N/A I. Plumbing ᆕPass ᆕ Fail ᆕ N/A Validate that extra capacity is present on both supply and exhaust systems and quantify the estimated spare capacity 13 (must document how extra capacity was calculated or estimated) ᆕPass ᆕ Fail ᆕ N/A 14 Ensure single pass air flow ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A II. Validation of Engineering Controls 15 Measure directional air flow, pressure relationships, air changes and record data 16 Ensure directional air flow is established from clean areas into contaminated areas. NOTES Attachment A NIH BSL-3 Certification Checklist A. If multiple containment zones exist within a laboratory or laboratory suite, ensure that sequentially more negative pressure differentials are established so that the more contaminated spaces are maintained at a negative pressure with respect to less contaminated areas. ᆕPass ᆕ Fail ᆕ N/A B. Pressure differentials across doorways must be measured using a device calibrated against a primary standard. Ideally, at least -0.05 in WG (-12.5 Pa) should be maintained from clean areas to more contaminated areas. In no case should the differential be less than -0.03 in. WG (-7.6 Pa). when the door is closed ᆕPass ᆕ Fail ᆕ N/A Develop HVAC system and electrical systems failure tests consistent with laboratory design 17 parameters. Perform tests and record data. To verify correct operations these tests should include at a minimum: A. Normal operations -> emergency power ᆕPass ᆕ Fail ᆕ N/A B. Emergency power -> normal operations ᆕPass ᆕ Fail ᆕ N/A C. Loss of supply fans (individual and in combination) ᆕPass ᆕ Fail ᆕ N/A D. Loss of exhaust fans (individual and in combination) ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A 19 Upon reboot BAS must retain operational set points ᆕPass ᆕ Fail ᆕ N/A 20 If an uninterrupted power supply (UPS) is installed, verify ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A 18 Building automation system maintains operational set points during all scenarios and return to normal operations 21 Assess if UPS is operational I+A 22 Provide UPS for BAS 23 Assess HVAC equipment condition. Visually inspect the following: A. Belts I ᆕPass ᆕ Fail ᆕ N/A B. Belt guards I ᆕPass ᆕ Fail ᆕ N/A NOTES Attachment A NIH BSL-3 Certification Checklist ᆕPass ᆕ Fail ᆕ N/A Duct supports and connections ᆕPass ᆕ Fail ᆕ N/A E. Guide wires (if applicable) ᆕPass ᆕ Fail ᆕ N/A F. Dilution air dampers (if applicable) ᆕPass ᆕ Fail ᆕ N/A G. Bearings (high pitched squealing) ᆕPass ᆕ Fail ᆕ N/A H. Ductwork system workmanship, damage, etc. ᆕPass ᆕ Fail ᆕ N/A 24 Ensure that motor operating temperatures are maintained within equipment specifications ᆕPass ᆕ Fail ᆕ N/A 25 Ensure that interlock between supply and exhaust is operational ᆕPass ᆕ Fail ᆕ N/A Verify correct placement of biological safety cabinets with 26 respect to supply and exhaust diffusers, doors and traffic patterns ᆕPass ᆕ Fail ᆕ N/A Use smoke at the face of the cabinet to ensure that the air curtain is not being disrupted by supply or exhaust diffusers 27 placed in proximity of the cabinet(s) or opening and closing doors and traffic patterns ᆕPass ᆕ Fail ᆕ N/A C. Wiring D. I 28 Perform smoke tests to demonstrate directional airflow A. Doors ᆕPass ᆕ Fail ᆕ N/A B. Vents ᆕPass ᆕ Fail ᆕ N/A C. Windows ᆕPass ᆕ Fail ᆕ N/A D. Autoclave ᆕPass ᆕ Fail ᆕ N/A E. Other vented areas ᆕPass ᆕ Fail ᆕ N/A ᆕ Fail ᆕ N/A 29 Inspect and challenge door interlock systems and automatic door closers A. Door closers are required ᆕPass NOTES Attachment A NIH BSL-3 Certification Checklist B. Ensure that doors automatically close and latch ᆕPass ᆕ Fail ᆕ N/A C. Interlocks required ᆕPass ᆕ Fail ᆕ N/A D. Check operability ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A 30 Open and close doors in all possible sequences 31 Ensure that delay set points are tight enough to preclude inadvertent over ride of interlock 32 Test all alarms A. HVAC Failure Alarm ᆕPass ᆕ Fail ᆕ N/A B. Availability of air flow alarms showing if the room has gone positive under normal conditions or if door is open for greater than 20 seconds ᆕPass ᆕ Fail ᆕ N/A C. Availability of a visual indication for personnel to be aware if the room is under positive or negative pressure prior to entering into the lab ᆕPass ᆕ Fail ᆕ N/A D. Review fire alarm annual documentation ᆕPass ᆕ Fail ᆕ N/A E. Review security alarm annual documentation ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A Laboratory exhaust stacks - minimum 3m height above highest point on roof ᆕPass ᆕ Fail ᆕ N/A 36 Check exhaust stack locations and discharge velocities ᆕPass ᆕ Fail ᆕ N/A 37 Exhaust velocity = 15-20 m/s or 3000-4000 fpm ᆕPass ᆕ Fail ᆕ N/A 33 Discharge exhaust assessment (as a measure of performance) 34 Inspect rooftop landscape for re-entrainment opportunities A. 35 Min. 25 ft. from intake, 40 ft from boiler stacks, 15 ft from plumbing stacks NOTES Attachment A NIH BSL-3 Certification Checklist 38 All aerosol-producing equipment exhausted by certified HEPA filtration devices Ensure that continuous flow centrifuges or other equipment that may produce aerosols are contained in devices that 39 exhaust air through HEPA filters before discharge into the laboratory 40 Ensure that discharge of local exhaust ventilation (LEV) devices is removed from air intakes to prevent re-entrainment 41 Consider local conditions (e.g., HEPA filters on exhaust) ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A ᆕPass ᆕ Fail ᆕ N/A 42 Verification of air change rates (ACR) in containment spaces A. ACR is determined during design based on sensible and latent heat loads contaminants and odors that require containment space usage ᆕPass ᆕ Fail ᆕ N/A B. Measure supply and exhaust air volumes using a device calibrated annually ᆕPass ᆕ Fail ᆕ N/A C. Calculate ACR; monitor trends ᆕPass ᆕ Fail ᆕ N/A D. In no case should the ACR be less than 6/hr for labs and 10/hr for animal facilities ᆕPass ᆕ Fail ᆕ N/A 43 Review biological safety cabinet (BSC) certification data including serial number validation A. BSCs must be on an annual certification schedule ᆕPass ᆕ Fail ᆕ N/A B. Verify that BSCs are located away from doors and vents ᆕPass ᆕ Fail ᆕ N/A C. Verify that installation of BSC is correct for cabinet type ᆕPass ᆕ Fail ᆕ N/A D. Inspect HEPA filter installations ᆕPass ᆕ Fail ᆕ N/A E. Review certification documentation for all exhaust HVAC HEPA installations ᆕPass ᆕ Fail ᆕ N/A F. Verify that HEPA filters are on portable vacuum systems at point of use and at the barrier ᆕPass ᆕ Fail ᆕ N/A NOTES Attachment A NIH BSL-3 Certification Checklist 44 Visually inspect A. Isolation valves for decon ᆕPass ᆕ Fail ᆕ N/A B. Decon and challenge ports ᆕPass ᆕ Fail ᆕ N/A C. Scanning access ᆕPass ᆕ Fail ᆕ N/A 45 Validate MEP A. Inspect for adequate illumination ᆕPass ᆕ Fail ᆕ N/A B. Verify that circuit breakers are outside of containment ᆕPass ᆕ Fail ᆕ N/A C. Backflow prevention for lab water system ᆕPass ᆕ Fail ᆕ N/A D. Sinks and drains properly marked ᆕPass ᆕ Fail ᆕ N/A E. Availability of emergency power for critical systems ᆕPass ᆕ Fail ᆕ N/A F. Availability of hands free emergency eyewash ᆕPass ᆕ Fail ᆕ N/A G. Availability of emergency shower ᆕPass ᆕ Fail ᆕ N/A H. Caulking and sealing requirements for electrical devises such as conduits, boxes, lights, etc. ᆕPass ᆕ Fail ᆕ N/A I. Validate provision for dedicated vacuum pump ᆕPass ᆕ Fail ᆕ N/A J. Inspect effluent decontamination system, if present ᆕPass ᆕ Fail ᆕ N/A 46 Validate autoclave availability, operations and bioseal integrity A. Test interlocks ᆕPass ᆕ Fail ᆕ N/A B. Confirm cycle – test load ᆕPass ᆕ Fail ᆕ N/A C. Visually inspect bioseal ᆕPass ᆕ Fail ᆕ N/A D. Smoke test bioseal ᆕPass ᆕ Fail ᆕ N/A NOTES Attachment A NIH BSL-3 Certification Checklist E. Validate maintenance of sterilization temp. of 121 degrees for 60 minutes ᆕPass ᆕ Fail ᆕ N/A F. Autoclave-out capability directly from the BSL-3 facility in new facilities ᆕPass ᆕ Fail ᆕ N/A G. In older facilities if autoclave-out is not available, an autoclave must be available near the BSL-3 facility so that containment of biohazardous waste is maintained. ᆕPass ᆕ Fail ᆕ N/A H. Additional environmental protection (e.g., personnel showers, HEPA filtration of exhaust air, containment of other piped services and the provision of effluent decontamination) is considered if recommended by the agent summary ᆕPass ᆕ Fail ᆕ N/A III. Review SOPs 47 Autoclave & Decontamination A. To decontaminate materials before removing them from the biosafety cabinet ᆕPass ᆕ Fail ᆕ N/A B. If an autoclave is available near but outside the BSL-3 facility, ensure adequate decontamination procedures in place for wet and dry biohazardous materials that leave the facility ᆕPass ᆕ Fail ᆕ N/A C. Assess the travel route to nearest autoclave avoid public corridors ᆕPass ᆕ Fail ᆕ N/A D. Assess procedures for use of and disposal of PPEs ᆕPass ᆕ Fail ᆕ N/A E. Assess procedures for decon of equipment that leaves the facility for repair or discontinuation of use ᆕPass ᆕ Fail ᆕ N/A F. Review storage and transport of biohazardous materials ᆕPass ᆕ Fail ᆕ N/A NOTES Attachment A NIH BSL-3 Certification Checklist G. Assess type of disinfectant to be used and if it is of adequate strength and type for the biohazardous materials in use in the facility ᆕPass ᆕ Fail ᆕ N/A H. Validate schedule and frequency of changing HVAC filters on vacuum lines ᆕPass ᆕ Fail ᆕ N/A 48 Safety SOPs A. Identification of responsible official for BSL-3 facility ᆕPass ᆕ Fail ᆕ N/A B. Certification of all personnel working within containment and process used to certify them ᆕPass ᆕ Fail ᆕ N/A C. Use, storage and disposal of Personal Protective Equipment (PPE) ᆕPass ᆕ Fail ᆕ N/A D. Documented limited personnel access to facility ᆕPass ᆕ Fail ᆕ N/A E. Procedures for maintenance to enter facility ᆕPass ᆕ Fail ᆕ N/A F. Hand washing procedures ᆕPass ᆕ Fail ᆕ N/A G. Use of mechanical pipetting devices; NO mouth pipetting ᆕPass ᆕ Fail ᆕ N/A H. Use of sharps prohibited unless absolutely required and then use should be managed by protocol ᆕPass ᆕ Fail ᆕ N/A I. Procedures to minimize production of aerosols ᆕPass ᆕ Fail ᆕ N/A J. Decontamination procedures ᆕPass ᆕ Fail ᆕ N/A K. Training program and documentation available for training and refresher courses of all personnel allowed in the BSL-3 facility ᆕPass ᆕ Fail ᆕ N/A L. Baseline serum samples are collected as appropriate and stored for all laboratory and other at-risk personnel ᆕPass ᆕ Fail ᆕ N/A M. A biosafety manual specific to the laboratory has been prepared and adopted ᆕPass ᆕ Fail ᆕ N/A N. Biosafety precautions are incorporated into standard operating procedures ᆕPass ᆕ Fail ᆕ N/A NOTES Attachment A NIH BSL-3 Certification Checklist O. If animals are housed under ABSL-3 conditions, all animal specific regulations and biosafety procedures are followed ᆕPass ᆕ Fail ᆕ N/A 49 Occupational Health Monitoring (Policy and records of implementation), if appropriate 50 A. Blood/ Serum Storage ᆕPass ᆕ Fail ᆕ N/A B. Vaccinations ᆕPass ᆕ Fail ᆕ N/A C. High-risk (immune suppressed, pregnant, etc.) individuals ᆕPass ᆕ Fail ᆕ N/A D. Health screening ᆕPass ᆕ Fail ᆕ N/A E. Annual updates of Exposure Control Plan to include documentation of all locations where BSL-3 agents or materials are used or stored ᆕPass ᆕ Fail ᆕ N/A Biohazardous Materials Use Authorization (e.g., Human Pathogen Registration, Recombinant DNA Registration, Select Agent, etc.) A. Current BUA ᆕPass ᆕ Fail ᆕ N/A B. Symptomology page ᆕPass ᆕ Fail ᆕ N/A C. Procedures for how samples are received ᆕPass ᆕ Fail ᆕ N/A NOTES Attachment B Equivalency Request Procedure for BSL-3 Lab Certification 1.0 Purpose This procedure defines the steps for requesting, reviewing and resolving equivalency requests for a BSL-3 Lab Certification. The BSL-3 Requirements are a minimum standard. Prescriptive limitations, when given, such as exact dimensions or quantities, describe a condition that is commonly recognized as a practical standard or NIH requirement for effective operation. The provisions in the requirements are not intended to prohibit the use of alternative systems, methods, or devices that are not specifically outlined in the document, providing that the proposed alternative design is at least equivalent or superior to the requirements set forth with regard to quality, strength, durability, effectiveness, fire resistance, health and safety, and is approved by the Division of Occupational Health and Safety (DOHS) and the Division of Technical Recourses (DTR). During the course of developing the certification criteria for a specific building, the NIH Accredited Certifying Agent may request an alternative to the requirements to accommodate existing building constraints or site conditions. The NIH Accredited Certifying Agent may recommend an equivalent design feature that does not conform to the letter of the BSL-3 certification requirements but meets the intent and provides the level of containment required for the designated use of the facility. 2.0 Applicability This procedure applies to the NIH Accredited Certifying Agent who provides the facility certification services. 3.0 Responsibilities Only NIH Accredited Certifying Agents are authorized to apply for an equivalency. This procedure is to be followed whenever a deviation from the certification requirements is deemed necessary. 4.0 Procedures 4.1 The NIH Accredited Certifying Agent identifies a need for an alternative to the certification requirements and fills out the Equivalency Request Form. 4.2 The NIH Accredited Certifying Agent completes the Equivalency Request form and forwards it to the NIH Equivalency Coordinator. The form must be 1 filled out and routed electronically. The Equivalency request workflow is to be paperless. 4.3 All requested Equivalencies within a single discipline shall be submitted as a single package at the same time (e.g., all mechanical in one package; all electrical in one package; etc.). This ensures that all variations to the requirements can be reviewed at one time to preclude conflicts in guidance. 4.4 Following submittal of a complete package by the NIH Accredited Certifying Agent to the NIH, the review will take a minimum of 10 working days. Additional time may be necessary depending on the complexity of the request, coordination with other requests, or re-submittal due to incomplete documentation. 4.5 The NIH Equivalency Coordinator reads and logs the request and forwards it to the discipline appropriate reviewer(s). 4.6 The reviewer approves, disapproves or requests more information and adds notes if necessary in the “NIH Response” block of the Equivalency Request Form and forwards the form to the NIH Equivalency Coordinator. 4.7 The NIH Equivalency Coordinator logs the response and returns the form complete with the reviewer’s response back to the NIH Accredited Certifying Agent. 4.8 Equivalencies may also be granted based on an action by a Dispute Resolution Board determined by the NIH as the result of an appeal. 5.0 Relevant Documents x x x NIH Design Requirements Biosafety Level-3 Certification Requirements Biosafety Level-3 Certification Checklist 6.0 Records x Equivalency Request 2 REQUEST FOR EQUIVALENCY Equivalency Tracking Number: To: Drawing Reference: NIH Equivalency Coordinator Phone From: Detail Number: NIH Accredited Certification Agent Date Spec. Section Reference: Contact Fax Paragraph # in NIH Design Requirements: Campus On Off Phone Equivalency Subject New Construction Yes No Type e.g. lab, animal, office, BSL level Project Title Estimated Construction Cost Building Number Project Percent Completed Location Other Describe Equivalency. State specifically how it deviates from the design requirements, how it improves the existing condition and the advantage to implementing. Provide hard copy supporting documents as necessary to Equivalency Coordinator: (Use additional Sheet if necessary) Provide recommendation of discipline or disciplines to review Equivalency; i.e. mechanical, electrical, architect, civil, structural, fire protection or other: For NIH Only Use Approve Equivalency Request ˆ Deny Equivalency Request ˆ Director Div. of Occupational Safety and Health Director Div. of Technical Resources 3