Let the sun shine in: effects of ultraviolet radiation on invasive pneumococcal disease risk in Philadelphia, Pennsylvania
Date
2009-12-04
Authors
White, Alexander N. J
Brett (Ng), Victoria
Spain, C Victor
Johnson, Caroline
Kinlin, Laura M
Fisman, David N
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BioMed Central Ltd
Abstract
BACKGROUND: Streptococcus pneumoniae is a common cause of community acquired pneumonia and
bacteremia. Excess wintertime mortality related to pneumonia has been noted for over a century,
but the seasonality of invasive pneumococcal disease (IPD) has been described relatively recently
and is poorly understood. Improved understanding of environmental influence on disease
seasonality has taken on new urgency due to global climate change.
METHODS: We evaluated 602 cases of IPD reported in Philadelphia County, Pennsylvania, from
2002 to 2007. Poisson regression models incorporating seasonal smoothers were used to identify
associations between weekly weather patterns and case counts. Associations between acute (dayto-
day) environmental fluctuations and IPD occurrence were evaluated using a case-crossover
approach. Effect modification across age and sex strata was explored, and meta-regression models
were created using stratum-specific estimates for effect.
RESULTS: IPD incidence was greatest in the wintertime, and spectral decomposition revealed a peak
at 51.0 weeks, consistent with annual periodicity. After adjustment for seasonality, yearly increases
in reporting, and temperature, weekly incidence was found to be associated with clear-sky UV
index (IRR per unit increase in index: 0.70 [95% CI 0.54-0.91]). The effect of UV index was highest
among young strata and decreased with age. At shorter time scales, only an association with
increases in ambient sulphur oxides was linked to disease risk (OR for highest tertile of exposure
0.75, 95% CI 0.60 to 0.93).
CONCLUSION: We confirmed the wintertime predominance of IPD in a major urban center. The
major predictor of IPD in Philadelphia is extended periods of low UV radiation, which may explain
observed wintertime seasonality. The mechanism of action of diminished light exposure on disease
occurrence may be due to direct effects on pathogen survival or host immune function via altered
1,25-(OH)2-vitamin-D metabolism. These findings may suggest less diminution in future IPD risk
with climate change than would be expected if wintertime seasonality was driven by temperature.
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Keywords
Keywords: adolescent; adult; aged; air pollution; article; child; female; human; incidence; infant; male; middle aged; pneumococcal infection; preschool child; regression analysis; risk factor; season; sunlight; temperature; ultraviolet radiation; United States; ag
Citation
BMC Infectious Diseases 9.196 (2009)
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BMC Infectious Diseases
Type
Journal article
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