流感病毒空气传播和扩散的研究进展

doi:10.12183/j.scjpm.2023.1000

[1] Nogales A, DeDiego ML. Influenza virus and vaccination[J]. Pathogens, 2020, 9(3):220.
[2] Krammer F, Smith GJD, Fouchier RAM, et al.Influenza[J]. Nat Rev Dis Primers 2018, 4(1): 3.
[3] Cantan B, Luyt CE, Martin-Loeches I. Influenza infections and emergent viral infections in intensive care unit[J]. Semin Resp Crit Care, 2019, 40(4): 488-497.
[4] Vemula SV, Zhao J, Liu J, et al.Current approaches for diagnosis of influenza virus infections in humans[J]. Viruses, 2016, 8(4):96.
[5] Paules C, Subbarao K.Influenza[J]. Lancet,2017,390(10095):697-708.
[6] Richard M, Fouchier RAM.Influenza A virus transmission via respiratory aerosols or droplets as it relates to pandemic potential[J].FEMS Microbiol Rev,2015,40(1):68-85.
[7] Ducatez MF, Webster RG, Webby RJ.Animal influenza epidemiology[J].Vaccine,2008,26(Suppl 4): D67-D69.
[8] Bouvier NM, Lowen AC.Animal models for influenza virus pathogenesis and transmission[J]. Viruses, 2010, 2(8): 1530-1563.
[9] Ravina, Manjeet, Mohan H, et al. A changing trend in diagnostic methods of Influenza A (H3N2) virus in human: A review[J].3 Biotech,2021,11(2): 87.
[10] Caini S, Kusznierz G, Garate VV, et al.The epidemiological signature of influenza B virus and its B/Victoria and B/Yamagata lineages in the 21st century[J].PLoS One,2019,14(9):e0222381.
[11] Sederdahl BK, Williams JV.Epidemiology and clinical characteristics of influenza C virus[J]. Viruses,2020,12(1):89.
[12] WHO. Influenza (Seasonal) [EB/OL] (2023-01-12)[2023-01-27]. https://www.who.int/news-room/fact-sheets/detail/influenza-(seasonal).
[13] Steel J, Palese P, Lowen AC.Transmission of a 2009 pandemic influenza virus shows a sensitivity to temperature and humidity similar to that of an H3N2 seasonal strain[J].J Virol, 2011,85(3):1400-1402.
[14] Lowen AC, Mubareka S, Steel J, et al.Influenza virus transmission is dependent on relative humidity and temperature[J].PLoS Pathog,2007,3(10): 1470-1476.
[15] Zhou J, Wei J, Choy KT, et al.Defining the sizes of airborne particles that mediate influenza transmission in ferrets[J].Proc Natl Acad Sci USA,2018,115(10):E2386-E2392.
[16] Pyankov OV, Pyankova OG, Agranovski IE.Inactivation of airborne influenza virus in the ambient air[J]. J Aerosol Sci, 2012, 53: 21-28.
[17] Kormuth KA, Lin K, Qian Z, et al.Environmental persistence of influenza viruses is dependent upon virus type and host origin[J].mSphere,2019, 4(4):e00552-00571.
[18] Peci A, Winter AL, Li Y, et al.Effects of absolute humidity, relative humidity, temperature, and wind speed on influenza activity in Toronto, Ontario, Canada[J]. Appl Environ Microbiol,2019, 85(6):e02426-e02444.
[19] Yamaya M, Nishimura H, Kalonji NL, et al.Effects of high temperature on pandemic and seasonal human influenza viral replication and infection-induced damage in primary human tracheal epithelial cell cultures[J].Heliyon,2019,5(2):e01149.
[20] Pica N, Chou YY, Bouvier NM, et al.Transmission of influenza B viruses in the guinea pig[J]. J Virol,2012,86(8):4279-4287.
[21] Shaman J, Kohn M.Absolute humidity modulates influenza survival, transmission, and seasonality[J]. Proc Natl Acad Sci USA, 2009, 106: 3243-3248.
[22] Polozov IV, Bezrukov L, Gawrisch K, et al.Progressive ordering with decreasing temperature of the phospholipids of influenza virus[J].Nat Chem Biol,2008,4(4):248-255.
[23] Bozic A, Kanduc M.Relative humidity in droplet and airborne transmission of disease[J].J Biol Phys,2021,47(1):1-29.
[24] Nikitin N, Petrova E, Trifonova E, et al.Influenza virus aerosols in the air and their infectiousness[J]. Adv Virol, 2014,2014:859090.
[25] Doremalen NV, Bushmaker T, Munster VJ.Stability of Middle East respiratory syndrome coronavirus (MERS-CoV) under different environmental conditions[J].Euro Surveill,2013, 18(38):20590.
[26] Kormuth KA, Lin K, Prussin AJ, et al.Influenza virus infectivity is retained in aerosols and droplets independent of relative humidity[J].J Infect Dis,2018,218(5):739-747.
[27] Yang X, Ou C, Yang H, et al.Transmission of pathogen-laden expiratory droplets in a coach bus[J].J Hazard Mater,2020,397:122609.
[28] Ahlawat A, Mishra SK, Herrmann H, et al.Impact of chemical properties of human respiratory droplets and aerosol particles on airborne viruses' viability and indoor transmission[J]. Viruses,2022,14(7):1497.
[29] Lin K, Marr LC.Humidity-dependent decay of viruses, but not bacteria, in aerosols and droplets follows disinfection kinetics[J].EST,2020,54(2):1024-1032.
[30] Gralton J, Tovey E, McLaws ML, et al. The role of particle size in aerosolised pathogen transmission: A review[J].J Infect,2011,62(1):1-13.
[31] 陈雪琴,李姗,张明顺,等.生物气溶胶研究进展[J].南京医科大学学报(自然科学版), 2020,40(6): 783-787,792.
[32] WHO. Infection prevention and control of epidemic-and pandemic-prone acute respiratory infections in health care[M].World Health Organization,2014.
[33] Qian H, Miao T, Liu L, et al.Indoor transmission of SARS-CoV-2[J].Indoor Air,2021,31(3): 639-645.
[34] Lommel M, Froese V, Sieber M, et al.Novel measurement system for respiratory aerosols and droplets in indoor environments[J].Indoor Air, 2021,31(6):1860-1873.
[35] 杜茜,温占波,李劲松.病毒气溶胶飞沫在室内环境中传播扩散机制的研究进展[J].军事医学,2021,35(8):631-633,638.
[36] 吴彦,王旭初,王兵,等.空气中流感病毒气溶胶采样技术研究进展[J].中国卫生检验杂志, 2019,29(11): 1406-1409.
[37] Lindsley WG, Pearce TA, Hudnall JB, et al.Quantity and size distribution of cough-generated aerosol particles produced by influenza patients during and after illness[J].J Occupa Environ Hyg,2012,9(7): 443-449.
[38] Brooks JT, Butler JC.Effectiveness of mask wearing to control community spread of SARS-CoV-2[J].JAMA,2021,325(10): 998-999.
[39] Li Y, Leung GM, Tang JW, et al.Role of ventilation in airborne transmission of infectious agents in the built environment - a multidisciplinary systematic review[J].Indoor Air,2007,17(1): 2-18.
[40] Brankston G, Gitterman L, Hirji Z, et al.Transmission of influenza A in human beings[J].Lancet Infect Dis,2007,7(4): 257-265.
[41] Tang JW, Li Y.Transmission of influenza A in human beings[J].Lancet Infect Dis,2007,7(12):758.
[42] Abkarian M, Stone HA.Stretching and break-up of saliva filaments during speech: A route for pathogen aerosolization and its potential mitigation[J].Phys Rev Fluids,2020,5(10):102301-102310.
[43] Guo Y, Ou JJ, Liu CY, et al.Deposition of droplets from the trachea or bronchus in the respiratory tract during exhalation: A steady-state numerical investigation[J].Aerosol Sci Technol, 2020, 54(8):1-11.
[44] Yan J, Grantham M, Pantelic J, et al.Infectious virus in exhaled breath of symptomatic seasonal influenza cases from a college community[J].Proc Natl Acad Sci USA,2018,115(5):1081-1086.
[45] Asadi S, Wexler AS, Cappa CD, et al.Aerosol emission and superemission during human speech increase with voice loudness[J].Sci Rep,2019, 9(1):2348.
[46] Yang T, Clements-Croome DJ. Natural ventilation in built environment[J].Sustain Built Environ, 2020: 431-464.
[47] Izadyar N, Miller W.Ventilation strategies and design impacts on indoor airborne transmission:A review[J]. Build Environ, 2022, 218: 109158.
[48] Yoon GY, Lee SJ, Kwon H, et al.Effect of flow structures on natural ventilation performance in office model[J]. J Vis (Tokyo), 2022(2):289-298.
[49] Xu R, Wu F, Li X, et al.Numerical comparison of ventilation modes on the transmission of coughing droplets in a train compartment[J].J Wind Eng Ind Aerod, 2022,231(1): 105240.
[50] Sussman RA, Golberstein E, Polosa R.Analytic modeling and risk assessment of aerial transmission of SARS-CoV-2 virus through vaping expirations in shared micro-environments[J]. Eviron Sci Pollut R, 2022, 29(55): 83020-83044.
[51] Wang B, Wu H, Wan XF.Transport and fate of human expiratory droplets-A modeling approach[J]. Phys Fluids,2020, 32(8): 083307.
[52] Robey AJ, Fierce L.Sensitivity of airborne transmission of enveloped viruses to seasonal variation in indoor relative humidity[J].Int Commun Heat Mass Transf,2022, 130:105747-105747.
[53] Wei J, Zhu S, He F, et al.Numerical investigation of airborne transmission of respiratory infections on the subway platform[J]. Geosci Front, 2022, 13(6):101384.
[54] Liu L, Li Y, Nielsen PV, et al.Short-range airborne transmission of expiratory droplets between two people[J].Indoor Air,2017,27(2):452-462.

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