Abstract
If the incidence of VTE varies by season, then the etiology of VTE could be related to seasonal exposures. However, the few studies that estimated VTE incidence by season reached conflicting conclusions.
Objective: To estimate the incidence of VTE by month and by season of the year.
Methods: Using the resources of the Rochester Epidemiology Project, we identified the inception cohort of Olmsted County, MN, residents with a first lifetime VTE over the 30-year period, 1966–1995 (n=2761). For each case, we reviewed the complete medical records in the community for the date of VTE onset, date of birth, gender and 48 baseline clinical characteristics commonly accepted as risk factors for VTE. We categorized cases as idiopathic (n=305) if no such characteristics were present; remaining cases were categorized as secondary. Incidence rates were calculated using the number of overall, idiopathic or secondary VTE cases by month of onset as the numerator, and age- and sex-specific estimates of the monthly population of Olmsted County as the denominator (yearly population estimates divided by 12).
Results: The incidence of VTE did not vary appreciably by month of the year for overall, idiopathic or secondary VTE (all p-values >0.2). However, the overall incidence of VTE was higher in the 3 summer months (June, July, August) compared to the 3 winter months (December, January, February; 132.6 vs. 116.9 per 100,000 person-years, respectively, both age- and sex-adjusted to year 2000 U.S. Whites; p-value = 0.026). The same general pattern was true for both idiopathic and secondary VTE, but separately neither was statistically significant (p-value=0.48 and 0.15, respectively).
Conclusions: The incidence of VTE is higher in the summer compared to the winter months, suggesting the hypothesis that vector-borne (e.g., mosquito, tick) and/or enteroviral infection may play a role in the etiology of VTE.
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