Evaluation of the filtration performance of 21 N95 filtering face piece respirators after prolonged storage

Background Organizations are stockpiling respirators to prepare for an influenza pandemic. To understand better the effects of prolonged storage, this investigation evaluated the filtration efficiency of 21 different models of National Institute for Occupational Safety and Health (NIOSH)-certified d...

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Bibliographic Details
Published in:American journal of infection control 2009-06, Vol.37 (5), p.381-386
Main Authors: Viscusi, Dennis J., BS, Bergman, Mike, MS, Sinkule, Edward, MS, Shaffer, Ronald E., PhD
Format: Article
Language:English
Subjects:
Aerosols
Equipment Failure Analysis
Filtration - instrumentation
Filtration - standards
Humans
Infection Control
Infectious Disease
Influenza
Inhalation Exposure - prevention & control
Life support systems
National Institute for Occupational Safety and Health, U.S. - standards
Pandemics
Particle Size
Respiratory Protective Devices - standards
Sodium Chloride
Storage
Time Factors
United States
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Summary:Background Organizations are stockpiling respirators to prepare for an influenza pandemic. To understand better the effects of prolonged storage, this investigation evaluated the filtration efficiency of 21 different models of National Institute for Occupational Safety and Health (NIOSH)-certified disposable N95 filtering face piece respirators. These respirators had been stored in their original packaging for a period of at least 6 years in research laboratories and dry warehouse facilities, ranging in temperature between 15°C and 32°C and relative humidity between 20% and 80%. Methods Filter penetration was measured using an abbreviated version of the NIOSH respirator certification test incorporating a polydisperse sodium chloride aerosol at 85 L/min. Results Of the 21 respirator models tested, 19 models had both average penetration results of less than 5%. Mean initial penetration values ranged from 0.39% to 5.83%, whereas mean maximum penetration values ranged from 0.95% to 5.83%. There did not appear to be any correlation between the length of storage and failure to pass the filtration test. Conclusion Results indicate that most N95 filtering face piece respirators stored for up to 10 years at warehouse conditions will likely have expected levels of filtration performance and that the degree of filtration efficiency degradation is likely model specific.
ISSN:0196-6553
1527-3296
DOI:10.1016/j.ajic.2008.09.021