Linh T Phan1, Dagmar M Sweeney2, Dayana Maita3, Donna C Moritz3, Susan C Bleasdale3, Rachael M Jones1. 1. Division of Environmental and Occupational Health Sciences, School of Public Health, University of Illinois at Chicago, Chicago, Illinois. 2. Sequencing Core, University of Illinois at Chicago, Chicago, Ilinois. 3. Department of Medicine, College of Medicine, University of Illinois at Chicago, Chicago, Illinois.
Abstract
OBJECTIVE: To characterize the presence and magnitude of viruses in the air and on surfaces in the rooms of hospitalized patients with respiratory viral infections, and to explore the association between care activities and viral contamination. DESIGN: Prospective observational study. SETTING: Acute-care academic hospital. PARTICIPANTS: In total, 52 adult patients with a positive respiratory viral infection test within 3 days of observation participated. Healthcare workers (HCWs) were recruited in staff meetings and at the time of patient care, and 23 wore personal air-sampling devices. METHODS: Viruses were measured in the air at a fixed location and in the personal breathing zone of HCWs. Predetermined environmental surfaces were sampled using premoistened Copan swabs at the beginning and at the end of the 3-hour observation period. Preamplification and quantitative real-time PCR methods were used to quantify viral pathogens. RESULTS: Overall, 43% of stationary and 22% of personal air samples were positive for virus. Positive stationary air samples were associated with ≥5 HCW encounters during the observation period (odds ratio [OR], 5.3; 95% confidence interval [CI], 1.2-37.8). Viruses were frequently detected on all of the surfaces sampled. Virus concentrations on the IV pole hanger and telephone were positively correlated with the number of contacts made by HCWs on those surfaces. The distributions of influenza, rhinoviruses, and other viruses in the environment were similar. CONCLUSIONS: Healthcare workers are at risk of contracting respiratory virus infections when delivering routine care for patients infected with the viruses, and they are at risk of disseminating virus because they touch virus-contaminated fomites.
OBJECTIVE: To characterize the presence and magnitude of viruses in the air and on surfaces in the rooms of hospitalized patients with respiratory viral infections, and to explore the association between care activities and viral contamination. DESIGN: Prospective observational study. SETTING: Acute-care academic hospital. PARTICIPANTS: In total, 52 adult patients with a positive respiratory viral infection test within 3 days of observation participated. Healthcare workers (HCWs) were recruited in staff meetings and at the time of patient care, and 23 wore personal air-sampling devices. METHODS: Viruses were measured in the air at a fixed location and in the personal breathing zone of HCWs. Predetermined environmental surfaces were sampled using premoistened Copan swabs at the beginning and at the end of the 3-hour observation period. Preamplification and quantitative real-time PCR methods were used to quantify viral pathogens. RESULTS: Overall, 43% of stationary and 22% of personal air samples were positive for virus. Positive stationary air samples were associated with ≥5 HCW encounters during the observation period (odds ratio [OR], 5.3; 95% confidence interval [CI], 1.2-37.8). Viruses were frequently detected on all of the surfaces sampled. Virus concentrations on the IV pole hanger and telephone were positively correlated with the number of contacts made by HCWs on those surfaces. The distributions of influenza, rhinoviruses, and other viruses in the environment were similar. CONCLUSIONS: Healthcare workers are at risk of contracting respiratory virus infections when delivering routine care for patients infected with the viruses, and they are at risk of disseminating virus because they touch virus-contaminated fomites.
Authors: Jennifer L Cadnum; Daniel F Li; Lucas D Jones; Sarah N Redmond; Basya Pearlmutter; Brigid M Wilson; Curtis J Donskey Journal: Pathog Immun Date: 2020-05-22
Authors: Anne-Mette Iversen; Marie Stangerup; Michelle From-Hansen; Rosa Hansen; Louise Palasin Sode; Krassimir Kostadinov; Marco Bo Hansen; Henrik Calum; Svend Ellermann-Eriksen; Jenny Dahl Knudsen Journal: Am J Infect Control Date: 2020-11-10 Impact factor: 2.918
Authors: Miguel Ángel Salazar; Leslie Chavez-Galan; Armando Castorena-Maldonado; Maribel Mateo-Alonso; Nadia Otilia Diaz-Vazquez; Ana María Vega-Martínez; José Arturo Martínez-Orozco; Eduardo Becerril-Vargas; Fernando Manuel Sosa-Gómez; Hilda Patiño-Gallegos; Delfino Alonso-Martínez; Enrique López-Segundo; Fernando Vidal; Luis Joan Velasco-González; Silvia Pérez-Pulido; Patricio Santillán-Doherty; Justino Regalado-Pineda; Jorge Salas-Hernández; Ivette Buendía-Roldán Journal: Front Public Health Date: 2021-04-13
Authors: César Pineda-Santoyo; Abraham Campos-Romero; Marco A Luna-Ruiz Esparza; Liliana E López-Luna; Martha E Sánchez-Zarate; Abraham Zepeda-González; Miguel A Fernández-Rojas; Jonathan Alcántar-Fernández Journal: Int J Environ Res Public Health Date: 2021-11-10 Impact factor: 3.390