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REFERENCES
1. American Conference of Government Industrial Hygienists. Threshold Limit Values for Chemical Substances and Physical Agents and Biological Exposure Indices. 1993. ISBN: 1-882417-03-8.
2. American Society of Heating, Refrigeration and Air Conditioning Engineers, Inc. (ASHRAE). 1982. Chapter 14 Laboratories; ASHRAE Handbook: 1982 Applications. Atlanta, GA.
3. Anderson, R.E., Stein, L., Moss, M.L. and Gross, N.H. 1952. Potential Infectious Hazards of Bacteriological Techniques. J. Bacteriol. 64: 473-481
4. Baker Co., Inc., Sanford, ME. 1993. Factors to Consider Before Selecting a Laminar Flow Biological Safety Cabinet. (Personal Communication)
5. Barbeito, M.S. and Taylor, L.A. 1968. Containment of Microbial Aerosols in a Microbiological Safety Cabinet. Appl. Microbial. 16: 1255-29.
7. Federal Standard No. 209B. 1992. Clean Room and Work Station Requirements, Controlled Environment. April 24, 1973.
8. Federal Standard No. 209E. 1992. Airborne Particulate Cleanliness Classes in Cleanrooms and Clean Zones. September 11, 1992.
9. First, M.W. 1971. Filters, High Capacity Filters and High Efficiency Filters; Review and Production. pp. 65-78. Lecture Notes. In-Place Filter Testing Workshop. Harvard University, Boston, Massachusetts. (Personal Communication)
10. Jones, R., Drake, J., and Eagleson, D. 1993. Using Hydrogen Peroxide Vapor to Decontaminate Bioloaical Safety Cabinets. Acumen, (a Baker Co. publication), 1:1.
11. Jones, R., Stuart, D., PhD., Large, S., Ghidoni, D. 1993. Cycle Parameters for Decontaminating a Bioloclical Safety Cabinet Using H2O2 Vapor. Acumen (see footnote 9), 1:2.
12. Jones, R., Stuart, D., PhD, Large, S., Ghidoni, D. 1993. Decontamination of a HEPA Filter Using Hydrogen Peroxide Vapor. Acumen (see footnote 9), 1:3.
13. Jones, R.L. Jr., Tepper, B., Greenier, T.G., Stuart, D. G., Large, S. M. and Eagleson, D. 1989. Effects of Thimble Connections on Biological Safety Cabinets. Abstracts of 32nd Biological Safety Conference. New Orleans, LA.
14. Jones, R.L., Jr., Stuart, D.G., Eagleson, D., Greenier, T.J. and Eagleson, J.M. Jr. 1990. The Effects of Changing Intake and Supply Air Flow on Biological Safety Cabinet Performance. Appl. Occup. Environ Hyg. 5:370.
15. Jones, R.L, Jr., Stuart, D.G., Eagleson, D., and Eagleson, J.M. Jr. 1991. Effects of Ceiling Height on Determining Calculated Intake Air Velocities for Biological Safety Cabinets. Appl Occup. Environ. Hyg. 6:683.
16. Kruse, R.H, Puckett, W.H., Richardson, J.H. 1991. Biological Safety Cabinetry. Clinical Microbiology Reviews 4:207-241.
17.(d) National Institutes of Health. Class II, Type 1 Safety Cabinet Specification NIH-030112, May 1973.
18.(d) National Institutes of Health (NIH). 1974. A Workshop for Certification of Biological Safety Cabinets. Prepared by Rockville Bio-Engineering Services, Dow Chemical U.S.A. for the Office of Biohazards and Environmental Control, BH74-01-001.
19.(d) National Institutes of Health. 1981. NIH Guidelines for the Laboratory Use of Chemical Carcinogens. Publication No. 81-2385.
20. (d) National Institutes of Health, National Cancer Institute. October 1973. Specifications for General Purpose Clean Air Biological Safety Cabinet.
21. National Institutes of Health, National Cancer Institute. Proceedings of the National Cancer Institute Symposium. NIH/NCI 1976. Laboratory Ventilation for Hazard Control. Monograph Series, Vol 3. NIH Publication No. 82-1293:53-70.
22.(d) National Institutes of Health, National Cancer Institute. Proceedings of the National Cancer Institute Symposium (NIH/NCI). 1981. Design of Biomedical Research Facilities. Monograph Series, Vol. 4. NIH Publication No. 81-2305.
23.(d) National Institutes of Health, National Cancer Institute (NCI), Office of Research Safety and the Special Committee of Safety and Health Experts. 1987. Laboratory Safety Monograph: A Supplement to the NIH Guidelines for recombinant DNA Recombinant DNA Research. Bethesda, MD, National Institutes of Health.
24. National Sanitation Foundation (NSF). 1992. Standard 49 Class II (Laminar Flow) Biohazard Cabinetry. Ann Arbor, MI.
25. Rake, B.W. 1978. Influence of Cross Drafts on the Performance of a Biological Safety Cabinet. Appl. Env. Microbiol. 36: 278-83.
26. Richmond, J.Y. 1988. Safe Practices and Procedures for Working with Human Specimens in Biomedical Research Laboratories. J. Clinical Immunoassay Vol. 11. 13:115-119.
27.(d) Stuart, D.G., First, M.W., Jones, R.L. Jr. and Eagleson, J.M. Jr. 1983. Comparison of Chemical Vapor Handling by Three Types of Class 11 Biological Safety Cabinets. Particulate and Microbial Control. 2:18-24.
28. U.S. Department of Agriculture, Agricultural Research Services. ARS Construction Project Design Standard Manual, 242.1. September 6, 1991.
29. U. S. Department of Health, Eduction and Welfare, National Institutes of Health and National Cancer Institute. 1976. Selecting a Biological Safety Cabinet. Washington, D.C.: National Audiovisual Center (GSA).
30. U.S. Department of Labor, Occupational Safety and Health Administration, Office of Occupational Medicine. 1986. OSHA Instruction PUB 8-1.1 Appendix A.
31. Whitfield, W.J. 1962. A New Aipproach to Clean Room Design. Sandia Corp. Albuquerque, N.M. Technical Report No. SC-4673 (RR).
(d)
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