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A study of indoor carbon dioxide levels and sick leave among office workers.

Authors
Myatt-TA; Staudenmayer-J; Adams-K; Walters-M; Rudnick-SN; Milton-DK
Source
Environ Health Glob Access Sci Source 2002 Oct; 1(1):3
NIOSHTIC No.
20038646
Abstract
BACKGROUND: A previous observational study detected a strong positive relationship between sick leave absences and carbon dioxide (CO2) concentrations in office buildings in the Boston area. The authors speculated that the observed association was due to a causal effect associated with low dilution ventilation, perhaps increased airborne transmission of respiratory infections. This study was undertaken to explore this association. METHODS: We conducted an intervention study of indoor CO2 levels and sick leave among hourly office workers employed by a large corporation. Outdoor air supply rates were adjusted periodically to increase the range of CO2 concentrations. We recorded indoor CO2 concentrations every 10 minutes and calculated a CO2 concentration differential as a measure of outdoor air supply per person by subtracting the 1-3 a.m. average CO2 concentration from the same-day 9 a.m.- 5 a.m. average concentration. The metric of CO2 differential was used as a surrogate for the concentration of exhaled breath and for potential exposure to human source airborne respiratory pathogens. RESULTS: The weekly mean, workday, CO2 concentration differential ranged from 37 to 250 ppm with a peak CO2 concentration above background of 312 ppm as compared with the American Society of Heating, Refrigeration and Air-conditioning Engineers (ASHRAE) recommended maximum differential of 700 ppm. We determined the frequency of sick leave among 294 hourly workers scheduled to work approximately 49,804.2 days in the study areas using company records. We found no association between sick leave and CO2 differential CONCLUSIONS: The CO2 differential was in the range of very low values, as compared with the ASHRAE recommended maximum differential of 700 ppm. Although no effect was found, this study was unable to test whether higher CO2 differentials may be associated with increased sick leave
Keywords
Indoor-air-pollution; Air-contamination; Infectious-diseases; Lost-work-days; Work-environment; Worker-health; Disease-transmission; Ventilation; Air-flow; Respiratory-system-disorders; Office-workers; Exposure-assessment; Respiratory-infections; Breathing; Breathing-zone; Pathogens
Contact
Department of Environmental Health, Harvard School of Public Health, 665 Huntington Ave, Boston, MA 02115, USA
CAS No.
124-38-9
Publication Date
20021001
Document Type
Journal Article
Email Address
tmyatt@hsph.harvard.edu
Funding Amount
850954
Funding Type
Grant
Fiscal Year
2003
NTIS Accession No.
NTIS Price
Identifying No.
Grant-Number-R01-OH-003694
Issue of Publication
1
ISSN
1476-069X
Priority Area
Work Environment and Workforce: Indoor Environment
Source Name
Environmental Health: A Global Access Science Source
State
MA
Performing Organization
Harvard School of Public Health, Boston, Massachusetts
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