Sass 2300 & 3100 bibliographie

Bibliographie scientifique publiée en anglais avec le Sass 3100

2022

Dispersion of SARS-CoV-2 in air surrounding COVID-19-infected individuals with mild symptoms. Indoor Air. 2022; 32:e13001. Gohli, J, Anderson, AM, Brantsæter, AB, et al. doi:10.1111/ina.13001

Vertical stratification of the air microbiome in the lower troposphere PNAS Vol. 119 | No. 7 Daniela I. Drautz-Moses, Irvan Luhung, Elena S. Gusareva https://orcid.org/0000-0001-9019-8097, and Stephan C. Schuster

Short-range contributions of local sources to ambient air, PNAS Nexus, Volume 1, Issue 2, May 2022, pgac043, Elena S Gusareva, Nicolas E Gaultier, Akira Uchida, Balakrishnan N V Premkrishnan, Cassie E Heinle, Wen J Phung, Anthony Wong, Kenny J X Lau, Zhei H Yap, Yanqing Koh, Poh N Ang, Alexander Putra, Deepa Panicker, Jessica G H Lee, Luis C Neves, Daniela I Drautz-Moses, Stephan C Schuster,

Airborne SARS-CoV-2 surveillance in hospital environment using high-flowrate air samplers and its comparison to surface sampling.” Indoor air vol. 32,1 (2022): e12930. doi:10.1111/ina.12930 Ang AX, Luhung I, Ahidjo BA, Drautz-Moses DI, Tambyah PA, Mok CK, Lau KJ, Tham SM, Chu JJH, Allen DM, Schuster SC.

2021

Experimental parameters defining ultra-low biomass bioaerosol analysis. NPJ Biofilms Microbiomes. 2021 Apr 16;7(1):37. doi: 10.1038/s41522-021-00209-4. PMID: 33863892; Luhung I, Uchida A, Lim SBY, Gaultier NE, Kee C, Lau KJX, Gusareva ES, Heinle CE, Wong A, Premkrishnan BNV, Purbojati RW, Acerbi E, Kim HL, Junqueira ACM, Longford S, Lohar SR, Yap ZH, Panicker D, Koh Y, Kushwaha KK, Ang PN, Putra A, Drautz-Moses DI, Schuster SC

Production of composted recycled manure solids from a Canadian dairy farm: Impact on microbial air quality in experimental conditions. Karine Duquette-Lozeau, Valérie Létourneau, Joanie Lemieux, Sébastien Fournel, Caroline Côté, Stéphane Godbout & Caroline Duchaine (2021) Journal of the Air & Waste Management Association, 71:4, 413-421

Experimental parameters defining ultra-low biomass bioaerosol analysis. Luhung, I., Uchida, A., Lim, S.B.Y. et al. npj Biofilms Microbiomes 7, 37 (2021). https://doi.org/10.1038/s41522-021-00209-4

Characterization of the public transit air microbiome and resistome reveals geographical specificity. M. H. Y. Leung, X. Tong, K. O. Bøifot, D. Bezdan, D. J. Butler, D. C. Danko, J. Gohli, D. C. Green, M. T. Hernandez, F. J. Kelly, S. Levy, G. Mason-Buck, M. Nieto-Caballero, D. Syndercombe-Court, K. Udekwu, B. G. Young, C. E. Mason, M. Dybwad and P. K. H. Lee. Microbiome (2021) 9:112

 Effective design of barrier enclosure to contain aerosol emissions from COVID‐19 patients.Daniel, D., Lin, M., Luhung, I., Lui, T., Sadovoy, A., Koh, X., Sng, A., Tran, T., Schuster, S.C., Jun Loh, X., Thet, O.S. and Tan, C.K. (2021), Indoor Air.

Transport For London SARS-CoV-2 RNA Sampling Study. Independent analysis provided by:Dr David Green, Dr Jie Zhou, Carl Desouza. 12th February 2021 Environmental Research Group, Imperial

2020

Taxonomic composition and seasonal dynamics of the air microbiome in West Siberia. Sci Rep 10, 21515 (2020). https://doi.org/10.1038/s41598-020-78604-8 Gusareva, E.S., Gaultier, N.P.E., Premkrishnan, B.N.V. et al. 

Performance evaluation of high-volume electret filter air samplers in aerosol microbiome research. Environmental Microbiome 15, 14 (2020). https://doi.org/10.1186/s40793-020-00362-x Bøifot, K.O., Gohli, J., Skogan, G. et al.

2019

Exposition aux bioaérosols dans les centres de traitement des eaux usées Application d’approches moléculaires et risque viral. Rapports Scientifiques IRSTT; Carole Duchaine et al.

 The subway microbiome: seasonal dynamics and direct comparison of air and surface bacterial communities. Gohli, J., Bøifot, K.O., Moen, L.V. et al. Microbiome 7, 160 (2019).

 Re-aerosolization in liquid-based air samplers induces bias in bacterial diversity. Aerosol Sci Technol.2019; Lemieux J, Veillette M, Mbareche H, Duchaine C.53(11):1244–60. https://doi.org/10.1080/02786826.2019.1652242.

Quantification of airborne dust, endotoxins, human pathogens and antibiotic and metal resistance genes in eastern Canadian swine confinement buildings. Pilote J, Létourneau V, Girard M, Duchaine C. Aerobiologia.2019;35(2):283.

Microbial communities in the tropical air ecosystemfollow a precise diel cycle. Elena S. Gusareva et al. PNAS

Complete Genome Sequence of Brachybacterium sp. Strain SGAir0954, Isolated from Singapore Air Microbiol Resour Announc. 2019 Aug; 8(32): e00619-19. doi: 10.1128/MRA.00619-19 Phu Pwint Thin Hlaing et al. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6687925/

Complete Genome Sequence of Streptomyces sp. Strain SGAir0924, an Actinobacterium Isolated from Outdoor Air in Singapore. Anjali Bansal Gupta, Akira Uchida, Rikky W. Purbojati, Anthony Wong, Kavita K. Kushwaha, Alexander Putra, Balakrishnan N. V. Premkrishnan, Cassie E. Heinle, Merrilyn Eng, Vineeth Kodengil Vettath, Ana Carolina M. Junqueira, Daniela I. Drautz-Moses, Stephan C. Schuster. Microbiology Resource Announcements Aug 2019, 8 (35) e00899-19;  DOI: 10.1128/MRA.00899-19

2018

Mbareche H, Veillette M, Bilodeau GJ, Duchaine C. Bioaerosol sampler choice should consider efficiency and ability of samplers to cover microbialdiversity. Appl Environ Microbiol. 2018;84(23):e01589–18. https://journals.asm.org/doi/10.1128/AEM.01589-18

McLean D, leblanc-Maridor M, Hall R, et al 633 Airborne dispersion of leptospirosis in a meat processing plant Occupational and Environmental Medicine 2018;75:A213.

2014

McLean D, Biggs P, Leblanc-Maridor M, et al 0164 Metagenomic detection of bacteria in aerosol samples in animal slaughterhouses to develop exposure profiles for an epidemiological analysis Occupational and Environmental Medicine 2014;71:A21. https://oem.bmj.com/content/71/Suppl_1/A21.1

2013

Temporal Variability of the Bioaerosol Background at a Subway Station: Concentration Level, Size Distribution, and Diversity of Airborne Bacteria. Marius Dybwad, Gunnar Skogan, Janet Martha Blatny. Applied and Environmental Microbiology Dec 2013, 80 (1) 257-270; DOI: 10.1128/AEM.02849-13

2012

2010

Kesavan J, Schepers D, Sutton T, Deluca P, Williamson M, Wise D. Characteristics sampling efficiency and battery life of smart air samplersystem (SASS) 3000 and SASS 3100:  Edgewood chemical biological center, DTIC document; 2010.

2008

Utilisation des cellules dendritiques en tant que biosenseurs pour la surveillance de la qualité biologique de l’air Rapports scientifique R-1024  Auteurs: Magali Boucher, Pascale Blais-Lecours,Marc Veillette, Caroline Duchaine, David Marsolais. Juillet 2008. Institut de recherche Robert-Sauvé en santé et en sécurité du travail, Quebec, Canada.

Rapports scientifiques publiés en français

Exposition aux bioaérosols dans les centres de traitement  des eaux usées Application d’approches moléculaires et risque viral. Caroline Duchaine, Marc Veillette, Vanessa Dion Dupont, Hamza Mbareche, Évelyne Brisebois, Jacques Lavoie, Yves Beaudet. RSST Quebec, Canada

Thèses publiées avec le Sass 3100

Characterization of Airborne Microorganisms at Nationaltheatret Subway Station

Mémoire Université de Laval, Quebec, Canada, Pamela Morissette Maître ès sciences (M. Sc.): 

Évolution de la qualité microbienne de l’air circulant dans les centrales de traitement de l’air (CTA)d’un centre hospitalier

Mémoire Universite de Laval, Quebec, Canada, Joanie Lemieux Maître ès sciences (M. Sc.)

Validation d’échantillonneurs d’air et biais sur la diversité.

Mémoire Universite de Montréal, Quebec, Canada, Fabiola Roseline Dulcie Salambanga Maître ès sciences (M. Sc.)

Évaluation de l’exposition aux microorganismes des chauffeurs de camion et des éboueurs responsables du transport des matières résiduelles et des déchets

Bibliographie scientifique publiée en anglais avec le Sass 2300

2021

SARS-CoV-2 Aerosol and Surface Contamination in Health Care Settings: The Moscow Pilot Study. Aerosol Air Qual. Res. 21, 200604. Pochtovyi, A.A., Bacalin, V.V.,  Kuznetsova, N.A., Nikiforova, M.A., Shidlovskaya, E.V., Verdiev, B.I., Milashenko, E.N., Shchetinin, A.M., Burgasova, O.A., Kolobukhina, L.V., Smetanina, S.V., Tkachuk, A.P., Gushchin, V.A., Gintsburg, A.L.

 

2020

Aerosol and Surface Distribution of Severe Acute Respiratory Syndrome Coronavirus 2 in Hospital Wards, Wuhan, China, 2020. Zhen-Dong Guo et al. Emerging Infectious Diseases Volume 26, Number 7—July 2020

2019

Composition and Distribution Analysis of Bioaerosols Under Different Environmental Conditions. Wang, Z., Li, J., Qian, L., Liu, L., Qian, J., Lu, B., Guo, Z., J. Vis. Exp. (143), e58795, doi:10.3791/58795 (2019)

A label-free impedimetric aptasensor for the detection of Bacillus anthracis spore simulant, Vincenzo Mazzaracchio et al. Biosensors and Bioelectronics Volume 126, 1 February 2019, Pages 640-646.

2018

Two Community Clusters of Legionnaires’ Disease Directly Linked to a Biologic Wastewater Treatment Plant, the Netherlands, Anna D. Loenenbach et al., Emerg Infect Dis. 2018 Oct; 24(10): 1914–1918. doi: 10.3201/eid2410.180906

Human viral pathogens are pervasive in wastewater treatment center aerosols, Evelyne Brisebois et al. Journal of Environmental Sciences, Volume 67, May 2018, Pages 45-53.

2017

Study on the distribution law of microbial aerosol in the environment of dairy barn. Sun Hongqi, Jilin Agricultural University S823.4, 2017.

2012

Methods for Detection and Quantification of Airborne Legionellae Around Cooling Towers. Chang et al. Aerosol Science and Technology  Volume 46, 2012 – Issue 4

Characterization of Airborne Bacteria at an Underground Subway Station, Marius Dybwad, Einar Granum, Bruheim and Janet Martha Blatny, Applied and Environmental Microbiology p. 1917–1929, January 13, 2012.

Electrochemical Immunosensor Coupled to Cyclone Air Sampler for Detection of Escherichia coli DH5a in Bioaerosols, Skladal, E. Svabenska, J Zeravik, J. Pribyl, P. Siskova, T. Tharnhage, I. Gustafson Electroanalysis 2012, 24, No. 3, 539 – 546.

2010

Assessment of bioaerosols at a concentrated dairy operation,  Robert S. Dungan, April B. Leytem, Sheryl A. Verwey, David L. Bjorneberg, Aerobiologia (2010) 26:171–184.

Petr Skládal, Electrochemical and Piezoelectric Immunosensors for Detection of Bioagents, Gruppo Divisionale Sensori III Workshop Università degli Studi di Firenze 26 – 28 Ottobre 2010, p.17.

Petr Skládal, Miroslav Pohanka, Eva Kupská and Bohuslav Šafář, Biosensors for Detection of Francisella Tularensis and Diagnosis of Tularemia, Masaryk University, Brno; Military Technical Institute of Protection, Brno; Military Academy, Hradec Králové, Czech Republic, Biosensors, Book edited by: Pier Andrea Serra, ISBN 978-953-7619-99-2, pp. 302, February 2010, INTECH, Croatia.

2009

Bacillus anthracis, Francisella tularensis and Yersinia pestis. The Most Important Bacterial Warfare Agents — review, POHANKA, P. SKLÁDAL, Folia Microbiol. 54 (4), 263–272 (2009).

2008

Janet Martha Blatny, Else Marie Fykse, Jaran Strand Olsen, Gunnar Skogan and Tone Aarskaug, Identification of biological threat agents in the environment and its challenge, Norwegian Defence Research Establishment (FFI), July 15th

Metrological evaluation of system of collection of biological aerosols in a cooling tower of a french nuclear plant. Poster M. Lebrun et al. EDF R&D National Laboratory of Hydraulics and Environment.

Janet Martha Blatny, Bjorn Anders P. Reif, Gunnar Skogan, Oyvind Andreassen, E. Arne Hoiby, Dag Aanonsen, Ingeborg S Aaberge and Dominique A. Caugant, Tracking Airborne Legionella and Legionella pneumophila at a Biological Treatment Plant, Environ. Sci. Technol. 2008, 42(19), 7360-7.

2007

Janet Martha Blatny, Gunnar Skogan, Bjørn Anders Pettersson Reif, Øyvind Andreassen, Gunn Merethe Bjørge Thomassen, Tone Aarskaug, Else Marie Fykse and Jaran Strand Olsen, Sampling and identification of Legionella spp. at Borregaard Ind. Ltd., Norwegian Defence Research Establishment (FFI) May 7th 2007.

2006

John Conroy, Developing biodefense IVDs is still a priority, IVD Technology • April 2006 p. 37.

2005

High air flow, low pressure drop, bio-aerosol collector using a multi-slit virtual impactor,” W. Bergman, J. Shinn, R. Lochner, S. Sawyer, F. Milanovich, R. Mariella Jr.,J. Aerosol Science, 36(5-6), 619-638 (2005).

Janet Martha Blatny, Else Marie Fykse, Bjorn Anders P. Reif, Oyvind Andreassen, Gunnar Skogan, Jaran Strand Olsen and Viggo Waagen, Tracking pathogenic biological agents in air – A case study of the outbreak of legionellosis in Norway, Norwegian Defence Research Establishment (FFI) Kjeller, Norway.

Environmental air sampling to detect exotic Newcastle disease virus in two California commercial poultry flocks. Sharon K. Hietala, et al. J. Vet. Diagn. Invest., 17, 198 (2005)

2004

Jana Kesavan, K. Aubrey Hottell, CHARACTERISTICS AND SAMPLING EFFICIENCIES OF THE SMART AIR SAMPLER SYSTEM (SASS) 2000 Plus, Research and Technology Directorate, Edgewood Chemical and Biological Center, December 2004.

 High air flow, low pressure drop, bio-aerosol collector using a multi-slit virtual impactor, Bergman, J. Shinn, R. Lochner, S. Sawyer, F. Milanovich, R. Mariella Jr., Aerosol Science, December 22, 2004.

2003

Mary T. McBride, Don Masquelier, Benjamin J. Hindson, Anthony J. Makarewicz, Steve Brown, Keith Burris, Thomas Metz, Richard G. Langlois, Kar Wing Tsang, Ruth Bryan, Doug A. Anderson, Kodumudi S. Venkateswaran, Fred P. Milanovich and Bill W. Colston, Jr., Autonomous Detection of Aerosolized Bacillus anthracis and Yersinia pestis, Analytical Chemistry