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September 24, 1997, Vol 278, No. 12 >
ARTICLE | September 24, 1997

Changing Seasonality of Mortality From Coronary Heart Disease FREE

Dimitrios Seretakis; Pagona Lagiou, MD; Loren Lipworth, DSc; Lisa B. Signorello, MSc; Kenneth J. Rothman, DrPH; Dimitrios Trichopoulos, MD
[+] Author Affiliations

Reprints: Dimitrios Trichopoulos, MD, Department of Epidemiology, Harvard School of Public Health, 677 Huntington Ave, Boston, MA 02115.


JAMA. 1997;278(12):1012-1014. doi:10.1001/jama.1997.03550120072036
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Context.  —Coronary heart disease is the major cause of mortality in the United States. Factors associated with coronary risk are important to identify. Coronary mortality is greater during the winter months.

Objective.  —To investigate whether declining coronary mortality has been accompanied by a change in the seasonal pattern and to investigate the hypothesis that diminishing exposures to environmental cold and heat have affected the seasonal pattern.

Design.  —We used published data on coronary mortality by year to evaluate the time trend in the seasonal pattern. We fit a sine curve to the monthly frequency of deaths in each year and examined the trend over time in the ratio of the peak to the trough of the curve.

Setting.  —We used monthly coronary deaths in the United States from 1937 through 1991. Deaths by cause and month were not available by geographic area within the United States, but we were able to examine total monthly deaths in 2 regions with contrasting climates, New England and the South.

Outcome Measures.  —We used the yearly peak-to-trough ratio as our primary outcome and assessed its trend over time by linear regression. We also depicted the time trends using polynomial smoothing.

Results.  —The peak-to-trough ratio diminished by about 2% per year until around 1970, when the trend reversed. In New England, the decline was steeper than in the South, as measured from all deaths.

Conclusion.  —Seasonal patterns in coronary mortality in the United States have changed with time. These changes are compatible with the gradual expansion of adequate heating and the subsequent increased use of air-conditioning. Microclimatic influences on coronary mortality could explain in part the socioeconomic gradient of cardiovascular mortality.

REFERENCES

1 +
Goldman L, Cook EF.  The decline in ischaemic heart disease mortality rates: an analysis of the comparative effects of medical interventions and changes in lifestyle . Ann Intern Med . 1984;;101:825-836.
2 +
Heller RF, Chinn S, Tunstall-Pedoe HD, Rose G.  How well can we predict coronary disease? findings in the United Kingdom Heart Disease Prevention Project . BMJ . 1984;;208:1409-1411.
3 +
Wilmshurst P.  Temperature and cardiovascular mortality . BMJ . 1994;;309:1029-1030.
4 +
Katsouyanni K, Trichopoulos D, Zavitsanos X, Touloumi G.  The 1987 Athens heatwave . Lancet . 1988;;2:573.
5 +
National Center for Health Statistics. Vital Statistics of the United States . Washington, DC: National Center for Health Statistics; 1937-1991;.
6 +
Edwards JH.  The recognition and estimation of cyclic trends . Ann Hum Genet . 1961;;25:8387.
7 +
Savitzky A, Golay MJE.  Smoothing and differentiation of data by simplified least squares procedures . Anal Chem . 1964;;36:1627-1639.
8 +
US Bureau of the Census. Statistical Abstract of the United States . Washington, DC: US Bureau of the Census; 1996;.
9 +
Marmot MG.  Mortality decline and widening social inequalities . Lancet . 1986;;2:274-276.
10 +
Pappas G, Queen S, Hadden W, Fisher G.  The increasing disparity in mortality between socioeconomic groups in the United States, 1960 and 1986 . N Engl J Med . 1993;;329:103-109.
11 +
Lloyd EL.  Temperature and cardiovascular mortality . BMJ . 1995;;310:467.
12 +
The Eurowinter Group.  Cold exposure and winter mortality from ischaemic heart disease, cerebrovascular disease, respiratory disease, and all causes in warm and cold regions of Europe . Lancet . 1997;;349:1341-1346.

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Country-Specific Mortality and Growth Failure in Infancy and Yound Children and Association With Material Stature

Use interactive graphics and maps to view and sort country-specific infant and early dhildhood mortality and growth failure data and their association with maternal

1 +
Goldman L, Cook EF.  The decline in ischaemic heart disease mortality rates: an analysis of the comparative effects of medical interventions and changes in lifestyle . Ann Intern Med . 1984;;101:825-836.
2 +
Heller RF, Chinn S, Tunstall-Pedoe HD, Rose G.  How well can we predict coronary disease? findings in the United Kingdom Heart Disease Prevention Project . BMJ . 1984;;208:1409-1411.
3 +
Wilmshurst P.  Temperature and cardiovascular mortality . BMJ . 1994;;309:1029-1030.
4 +
Katsouyanni K, Trichopoulos D, Zavitsanos X, Touloumi G.  The 1987 Athens heatwave . Lancet . 1988;;2:573.
5 +
National Center for Health Statistics. Vital Statistics of the United States . Washington, DC: National Center for Health Statistics; 1937-1991;.
6 +
Edwards JH.  The recognition and estimation of cyclic trends . Ann Hum Genet . 1961;;25:8387.
7 +
Savitzky A, Golay MJE.  Smoothing and differentiation of data by simplified least squares procedures . Anal Chem . 1964;;36:1627-1639.
8 +
US Bureau of the Census. Statistical Abstract of the United States . Washington, DC: US Bureau of the Census; 1996;.
9 +
Marmot MG.  Mortality decline and widening social inequalities . Lancet . 1986;;2:274-276.
10 +
Pappas G, Queen S, Hadden W, Fisher G.  The increasing disparity in mortality between socioeconomic groups in the United States, 1960 and 1986 . N Engl J Med . 1993;;329:103-109.
11 +
Lloyd EL.  Temperature and cardiovascular mortality . BMJ . 1995;;310:467.
12 +
The Eurowinter Group.  Cold exposure and winter mortality from ischaemic heart disease, cerebrovascular disease, respiratory disease, and all causes in warm and cold regions of Europe . Lancet . 1997;;349:1341-1346.

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