Do N95 respirators provide 95% protection level against airborne viruses, and how adequate are surgical masks?
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Tiina Reponen | Atin Adhikari | Sergey A Grinshpun | Mika Toivola | M. Toivola | T. Reponen | A. Adhikari | S. Grinshpun | A. Bałazy | Anna Bałazy | Satheesh K Sivasubramani | S. K. Sivasubramani | Satheesh K. Sivasubramani
[1] L M Brosseau,et al. Collection of three bacterial aerosols by respirator and surgical mask filters under varying conditions of flow and relative humidity. , 1997, The Annals of occupational hygiene.
[2] E. Moyer,et al. Electrostatic N-95 respirator filter media efficiency degradation resulting from intermittent sodium chloride aerosol exposure. , 2000, Applied occupational and environmental hygiene.
[3] K Willeke,et al. Performance of N95 respirators: reaerosolization of bacteria and solid particles. , 1997, American Industrial Hygiene Association journal.
[4] Leonard W. Barrett,et al. Aerosol Loading Performance of Electret Filter Media , 1998 .
[5] W. Fiers. Studies on the bacteriophage MS2: III. Sedimentation heterogeneity of viral RNA preparations , 1967 .
[6] Ziqing Zhuang,et al. Respiratory protection against bioaerosols: Literature review and research needs , 2004, American Journal of Infection Control.
[7] C C Coffey,et al. Performance of N95 respirators: filtration efficiency for airborne microbial and inert particles. , 1998, American Industrial Hygiene Association journal.
[8] Mark Nicas,et al. Respiratory Protection Against Mycobacterium tuberculosis: Quantitative Fit Test Outcomes for Five Type N95 Filtering-Facepiece Respirators , 2004, Journal of occupational and environmental hygiene.
[9] T. Reponen,et al. Survival of Bacteria on Respirator Filters , 1999 .
[10] Robert B Lawrence,et al. Fitting Characteristics of Eighteen N95 Filtering-Facepiece Respirators , 2004, Journal of occupational and environmental hygiene.
[11] K Willeke,et al. Characteristics of face seal leakage in filtering facepieces. , 1992, American Industrial Hygiene Association journal.
[12] Mark Darren,et al. Hazard Prevention and Control in the Work Environment: Airborne Dust WHO/SDE/OEH/99.14 , 2000 .
[13] Klaus Willeke,et al. Aerosol Measurement: Principles, Techniques, and Applications , 2001 .
[14] S. Esterby. American Society for Testing and Materials , 2006 .
[15] E. Moyer,et al. Electrostatic respirator filter media: filter efficiency and most penetrating particle size effects. , 2000, Applied occupational and environmental hygiene.
[16] Tiina Reponen,et al. Manikin-based performance evaluation of N95 filtering-facepiece respirators challenged with nanoparticles. , 2006, The Annals of occupational hygiene.
[17] K. Willeke,et al. Method for measuring the spatial variability of aerosol penetration through respirator filters. , 1998, American Industrial Hygiene Association journal.
[18] Lisa M. Brosseau,et al. Mycobacterial Aerosol Collection Efficiency of Respirator and Surgical Mask Filters under Varying Conditions of Flow and Humidity , 1997 .
[20] K. Willeke,et al. Particle Reentrainment from Fibrous Filters , 1997 .
[21] T. Reponen,et al. Survival of Mycobacteria on N95 Personal Respirators , 1999, Infection Control & Hospital Epidemiology.
[22] Pratim Biswas,et al. Capture of Viral Particles in Soft X-Ray–Enhanced Corona Systems: Charge Distribution and Transport Characteristics , 2004 .
[23] Lars Liljas,et al. The three-dimensional structure of the bacterial virus MS2 , 1990, Nature.
[24] D L Campbell,et al. Simulated workplace performance of N95 respirators. , 1999, American Industrial Hygiene Association journal.
[25] L. Liljas,et al. The refined structure of bacteriophage MS2 at 2.8 A resolution. , 1993, Journal of molecular biology.