A Bayesian spatio-temporal analysis of mortality rates in Spain: application to the COVID-19 2020 outbreak.

IF 3.2 2区医学 Q2 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH

Population Health Metrics Pub Date : 2021-05-31 DOI:10.1186/s12963-021-00259-y

Pedro Saavedra, Angelo Santana, Luis Bello, José-Miguel Pacheco, Esther Sanjuán

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引用次数: 6

Abstract

Background: The number of deaths attributable to COVID-19 in Spain has been highly controversial since it is problematic to tell apart deaths having COVID as the main cause from those provoked by the aggravation by the viral infection of other underlying health problems. In addition, overburdening of health system led to an increase in mortality due to the scarcity of adequate medical care, at the same time confinement measures could have contributed to the decrease in mortality from certain causes. Our aim is to compare the number of deaths observed in 2020 with the projection for the same period obtained from a sequence of previous years. Thus, this computed mortality excess could be considered as the real impact of the COVID-19 on the mortality rates.

Methods: The population was split into four age groups, namely: (< 50; 50-64; 65-74; 75 and over). For each one, a projection of the death numbers for the year 2020, based on the interval 2008-2020, was estimated using a Bayesian spatio-temporal model. In each one, spatial, sex, and year effects were included. In addition, a specific effect of the year 2020 was added ("outbreak"). Finally, the excess deaths in year 2020 were estimated as the count of observed deaths minus those projected.

Results: The projected death number for 2020 was 426,970 people, the actual count being 499,104; thus, the total excess of deaths was 72,134. However, this increase was very unequally distributed over the Spanish regions.

Conclusion: Bayesian spatio-temporal models have proved to be a useful tool for estimating the impact of COVID-19 on mortality in Spain in 2020, making it possible to assess how the disease has affected different age groups accounting for effects of sex, spatial variation between regions and time trend over the last few years.

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西班牙死亡率贝叶斯时空分析:在2020年COVID-19疫情中的应用

背景:西班牙因COVID-19导致的死亡人数一直存在很大争议，因为很难将COVID作为主要原因的死亡与其他潜在健康问题的病毒感染加重引起的死亡区分开来。此外，由于缺乏适当的医疗保健，卫生系统负担过重导致死亡率增加，同时限制措施可能有助于减少某些原因造成的死亡率。我们的目的是将2020年观察到的死亡人数与从前几年序列中获得的同期预测进行比较。因此，这一计算出的死亡率超额可被视为COVID-19对死亡率的实际影响。方法:将人群分为4个年龄组，分别为:< 50;50 - 64;65 - 74;75岁及以上)。使用贝叶斯时空模型，根据2008-2020年的时间间隔，对每一种疾病2020年的死亡人数进行了预测。在每个模型中，都包含了空间、性别和年份的影响。此外，还增加了2020年的具体影响("疫情")。最后，以观察到的死亡人数减去预测的死亡人数来估计2020年的超额死亡人数。结果:2020年预计死亡人数为426970人，实际死亡人数为499104人;因此，死亡总人数为72 134人。然而，这一增长在西班牙各地区的分布非常不均匀。结论:贝叶斯时空模型已被证明是估计2019冠状病毒病对西班牙2020年死亡率影响的有用工具，可以评估疾病如何影响不同年龄组，并考虑到过去几年性别、区域间空间差异和时间趋势的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Population Health Metrics PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-

CiteScore

6.50

自引率

0.00%

发文量

审稿时长

29 weeks

期刊介绍： Population Health Metrics aims to advance the science of population health assessment, and welcomes papers relating to concepts, methods, ethics, applications, and summary measures of population health. The journal provides a unique platform for population health researchers to share their findings with the global community. We seek research that addresses the communication of population health measures and policy implications to stakeholders; this includes papers related to burden estimation and risk assessment, and research addressing population health across the full range of development. Population Health Metrics covers a broad range of topics encompassing health state measurement and valuation, summary measures of population health, descriptive epidemiology at the population level, burden of disease and injury analysis, disease and risk factor modeling for populations, and comparative assessment of risks to health at the population level. The journal is also interested in how to use and communicate indicators of population health to reduce disease burden, and the approaches for translating from indicators of population health to health-advancing actions. As a cross-cutting topic of importance, we are particularly interested in inequalities in population health and their measurement.