Analysis of intra-annual mortality fluctuations by cause of death

Isabella Marinetti , Max Planck Institute for Demographic Research
Dmitri Jdanov, Max Planck Institute for Demographic Research
France Meslé, Institut National d'Etudes Demographiques (INED)
Domantas Jasilionis, Max Planck Institute for Demographic Research
Fanny Janssen, Netherlands Interdisciplinary Demographic Institute - KNAW/University of Groningen

Seasonal fluctuations in mortality significantly affect population health and remain an important public health challenge. As climate change increases temperature extremes and ageing populations heighten vulnerability, understanding the cause-specific drivers of these mortality fluctuations is increasingly urgent. Yet, detailed evidence on how different causes of death shape these mortality patterns remains limited. We analysed monthly mortality data from the Italian National Institute of Statistics, disaggregated by cause of death, sex, and 5-year age groups, 2004-2019. Excess mortality for 17 major causes of death was quantified by comparing the observed age-standardised death rate (SDR) with the baseline SDR, defined as the average of the three months with the lowest mortality each year. We estimated both the absolute and relative impact of cause-specific mortality on overall seasonal mortality. Heart and respiratory diseases were the leading contributors to excess mortality, accounting for approximately 40% and 15% of the intra-annual burden, respectively. The summer months exhibited significantly smaller excess mortality. Respiratory diseases showed the highest relative impact compared to the other causes of death. While baseline mortality decreased over time, the relative intra-annual burden remained stable or increased for specific causes, indicating persistent or growing seasonal vulnerabilities. Intra-annual mortality fluctuations in Italy were mainly driven by cardiovascular and respiratory diseases and have remained stable over time despite improvements in overall mortality. These persistent patterns highlight unmet seasonal vulnerabilities and the importance of integrating cause-specific seasonality into health planning, particularly in light of ageing populations and climate change challenges.

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 Presented in Session 102. Flash Session Seasonal, Climate- and COVID-19-Related Mortality