Michael Schuit
Overview
Explore the profile of Michael Schuit including associated specialties, affiliations and a list of published articles.
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Articles
11
Citations
499
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Recent Articles
1.
Dabisch P, Schuit M, Herzog A, Beck K, Wood S, Krause M, et al.
Aerosol Sci Technol
. 2023 Dec;
55(2):142-153.
PMID: 38077296
Recent evidence suggests that respiratory aerosols may play a role in the spread of SARS-CoV-2 during the ongoing COVID-19 pandemic. Our laboratory has previously demonstrated that simulated sunlight inactivated SARS-CoV-2...
2.
Larason T, Grantham S, Zarobila C, Zong Y, Schuit M, Holland B, et al.
Appl Opt
. 2022 Oct;
61(19):5559-5566.
PMID: 36255782
As the COVID-19 pandemic was overtaking the world in the spring of 2020, the National Institute of Standards and Technology (NIST) began collaborating with the National Biodefense Analysis and Countermeasures...
3.
Schuit M, Biryukov J, Beck K, Yolitz J, Bohannon J, Weaver W, et al.
J Infect Dis
. 2021 Apr;
224(10):1641-1648.
PMID: 33822064
Background: Our laboratory previously examined the influence of environmental conditions on the stability of an early isolate of SARS-CoV-2 (hCoV-19/USA/WA-1/2020) in aerosols generated from culture medium or simulated saliva. However,...
4.
Schuit M, Dunning R, Freeburger D, Miller D, Hooper I, Faisca L, et al.
J Virol Methods
. 2021 Mar;
292:114116.
PMID: 33689788
A variety of methods have been developed for quantification of infectious Ebola virus in clinical or laboratory samples, but existing methods often require extensive operator involvement, manual assay scoring, or...
5.
Schuit M, Gardner S, Taylor J, Dabisch P
PLoS Negl Trop Dis
. 2021 Feb;
15(2):e0009001.
PMID: 33524051
Previous field and laboratory studies investigating airborne Burkholderia pseudomallei have used a variety of different aerosol samplers to detect and quantify concentrations of the bacteria in aerosols. However, the performance...
6.
Schuit M, Ratnesar-Shumate S, Yolitz J, Williams G, Weaver W, Green B, et al.
J Infect Dis
. 2020 Jun;
222(4):564-571.
PMID: 32525979
Aerosols represent a potential transmission route of COVID-19. This study examined effect of simulated sunlight, relative humidity, and suspension matrix on stability of SARS-CoV-2 in aerosols. Simulated sunlight and matrix...
7.
Ratnesar-Shumate S, Williams G, Green B, Krause M, Holland B, Wood S, et al.
J Infect Dis
. 2020 May;
222(2):214-222.
PMID: 32432672
Previous studies have demonstrated that SARS-CoV-2 is stable on surfaces for extended periods under indoor conditions. In the present study, simulated sunlight rapidly inactivated SARS-CoV-2 suspended in either simulated saliva...
8.
Prussin 2nd A, Belser J, Bischoff W, Kelley S, Lin K, Lindsley W, et al.
Microbiome
. 2020 Jan;
8(1):1.
PMID: 31901242
Background: During a period of rapid growth in our understanding of the microbiology of the built environment in recent years, the majority of research has focused on bacteria and fungi....
9.
Schuit M, Gardner S, Wood S, Bower K, Williams G, Freeburger D, et al.
J Infect Dis
. 2019 Nov;
221(3):372-378.
PMID: 31778532
Background: Environmental parameters, including sunlight levels, are known to affect the survival of many microorganisms in aerosols. However, the impact of sunlight on the survival of influenza virus in aerosols...
10.
Smither S, Eastaugh L, Filone C, Freeburger D, Herzog A, Lever M, et al.
Emerg Infect Dis
. 2017 Dec;
24(1).
PMID: 29261093
Ebola virus (EBOV) in body fluids poses risk for virus transmission. However, there are limited experimental data for such matrices on the disinfectant efficacy against EBOV. We evaluated the effectiveness...