OBJECTIVE: A standard list for ranking leading causes of death worldwide does not exist. WHO headquarters, regional offices and Member States all use different lists that have varying levels of detail. We sought to derive a standard list to enable countries to identify their leading causes of death and to permit comparison between countries. Our aim is to share the criteria and methodology we used to bring some order to the construction of such a list, to provide a consistent procedure that can be used by others, and to give researchers and data owners an opportunity to utilize the list at national and subnational levels. METHODS: Results were primarily data-driven. Data from individual countries representing different regions of the world were extracted from the WHO Mortality Database. Supplementary information from WHO estimates on mortality was used for regions where data were scarce. In addition, a set of criteria was used to group the candidate causes and to determine other causes that should be included on the list. FINDINGS: A ranking list of the leading causes of death that contains broad cause groupings (such as "all cancers", "all heart diseases" or "all accidents") is not effective and does not identify the leading individual causes within these broad groupings; thus it does not allow policy-makers to generate appropriate health advocacy and cost-effective interventions. Similarly, defining candidate causal groups too narrowly or including diseases that have a low frequency does not meet these objectives. CONCLUSION: For international comparisons, we recommend that countries use this list; it is based on extensive evidence and the application of public health disease-prevention criteria. It is not driven by political or financial motives. This list may be adapted for national statistical purposes.
OBJECTIVE: A standard list for ranking leading causes of death worldwide does not exist. WHO headquarters, regional offices and Member States all use different lists that have varying levels of detail. We sought to derive a standard list to enable countries to identify their leading causes of death and to permit comparison between countries. Our aim is to share the criteria and methodology we used to bring some order to the construction of such a list, to provide a consistent procedure that can be used by others, and to give researchers and data owners an opportunity to utilize the list at national and subnational levels. METHODS: Results were primarily data-driven. Data from individual countries representing different regions of the world were extracted from the WHO Mortality Database. Supplementary information from WHO estimates on mortality was used for regions where data were scarce. In addition, a set of criteria was used to group the candidate causes and to determine other causes that should be included on the list. FINDINGS: A ranking list of the leading causes of death that contains broad cause groupings (such as "all cancers", "all heart diseases" or "all accidents") is not effective and does not identify the leading individual causes within these broad groupings; thus it does not allow policy-makers to generate appropriate health advocacy and cost-effective interventions. Similarly, defining candidate causal groups too narrowly or including diseases that have a low frequency does not meet these objectives. CONCLUSION: For international comparisons, we recommend that countries use this list; it is based on extensive evidence and the application of public health disease-prevention criteria. It is not driven by political or financial motives. This list may be adapted for national statistical purposes.
Authors: Maria de Fatima Marinho de Souza; Marc-Alain Widdowson; Airlane P Alencar; Vilma P Gawryszewski; Eduardo Aziz-Baumgartner; Rakhee Palekar; Joseph Breese; Po-Yung Cheng; Jarbas Barbosa; Ana M Cabrera; Andrea Olea; Arturo B Flores; David K Shay; Anthony Mounts; Otavio P Oliva Journal: Bull World Health Organ Date: 2013-05-31 Impact factor: 9.408
Authors: Kieran L Quinn; Nathan M Stall; Zhan Yao; Therese A Stukel; Peter Cram; Allan S Detsky; Chaim M Bell Journal: CMAJ Date: 2019-12-16 Impact factor: 8.262
Authors: Katherine G Hastings; Karen Eggleston; Derek Boothroyd; Kristopher I Kapphahn; Mark R Cullen; Michele Barry; Latha P Palaniappan Journal: BMJ Open Date: 2016-10-28 Impact factor: 2.692
Authors: Kieran L Quinn; Amy T Hsu; Glenys Smith; Nathan Stall; Allan S Detsky; Dio Kavalieratos; Douglas S Lee; Chaim M Bell; Peter Tanuseputro Journal: J Am Heart Assoc Date: 2020-02-19 Impact factor: 5.501
Authors: Valentina Gallo; Johan P Mackenbach; Majid Ezzati; Gwenn Menvielle; Anton E Kunst; Sabine Rohrmann; Rudolf Kaaks; Birgit Teucher; Heiner Boeing; Manuela M Bergmann; Anne Tjønneland; Susanne O Dalton; Kim Overvad; Maria-Luisa Redondo; Antonio Agudo; Antonio Daponte; Larraitz Arriola; Carmen Navarro; Aurelio Barricante Gurrea; Kay-Tee Khaw; Nick Wareham; Tim Key; Androniki Naska; Antonia Trichopoulou; Dimitrios Trichopoulos; Giovanna Masala; Salvatore Panico; Paolo Contiero; Rosario Tumino; H Bas Bueno-de-Mesquita; Peter D Siersema; Petra P Peeters; Sophia Zackrisson; Martin Almquist; Sture Eriksson; Göran Hallmans; Guri Skeie; Tonje Braaten; Eiliv Lund; Anne-Kathrin Illner; Traci Mouw; Elio Riboli; Paolo Vineis Journal: PLoS One Date: 2012-07-25 Impact factor: 3.240