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Adjusting expected deaths for mortality displacement during the COVID-19 pandemic: a model based counterfactual approach at the level of individuals.
Holleyman, Richard James; Barnard, Sharmani; Bauer-Staeb, Clarissa; Hughes, Andrew; Dunn, Samantha; Fox, Sebastian; Newton, John N; Fitzpatrick, Justine; Waller, Zachary; Deehan, David John; Charlett, Andre; Gregson, Celia L; Wilson, Rebecca; Fryers, Paul; Goldblatt, Peter; Burton, Paul.
Afiliação
  • Holleyman RJ; UK Health Security Agency, Wellington House; 133-155 Waterloo Road, London, SE1 8UG, UK. R.holleyman@googlemail.com.
  • Barnard S; Population Health Sciences Institute, Newcastle University, Newcastle Upon Tyne, NE1 7RU, UK. R.holleyman@googlemail.com.
  • Bauer-Staeb C; School of Population Health, Curtin University, Bentley, WA, 6102, Australia.
  • Hughes A; Office for Health Improvement and Disparities, Department of Health and Social Care, 39 Victoria Street, London, SW1H 0EU, UK.
  • Dunn S; Office for Health Improvement and Disparities, Department of Health and Social Care, 39 Victoria Street, London, SW1H 0EU, UK.
  • Fox S; Office for Health Improvement and Disparities, Department of Health and Social Care, 39 Victoria Street, London, SW1H 0EU, UK.
  • Newton JN; Office for Health Improvement and Disparities, Department of Health and Social Care, 39 Victoria Street, London, SW1H 0EU, UK.
  • Fitzpatrick J; Office for Health Improvement and Disparities, Department of Health and Social Care, 39 Victoria Street, London, SW1H 0EU, UK.
  • Waller Z; Office for Health Improvement and Disparities, Department of Health and Social Care, 39 Victoria Street, London, SW1H 0EU, UK.
  • Deehan DJ; Office for Health Improvement and Disparities, Department of Health and Social Care, 39 Victoria Street, London, SW1H 0EU, UK.
  • Charlett A; Newcastle Upon Tyne Hospitals NHS Foundation Trust, Freeman Road, High Heaton, Newcastle Upon Tyne, NE7 7DN, UK.
  • Gregson CL; UK Health Security Agency, Wellington House; 133-155 Waterloo Road, London, SE1 8UG, UK.
  • Wilson R; Musculoskeletal Research Unit, Translational Health Sciences, Bristol Medical School, University of Bristol, Bristol, BS8 1QU, UK.
  • Fryers P; Department of Public Health, Policy and Systems, University of Liverpool Waterhouse Building, Block B, Brownlow Street, Liverpool, L69 3GL, UK.
  • Goldblatt P; Office for Health Improvement and Disparities, Department of Health and Social Care, 39 Victoria Street, London, SW1H 0EU, UK.
  • Burton P; Office for Health Improvement and Disparities, Department of Health and Social Care, 39 Victoria Street, London, SW1H 0EU, UK.
BMC Med Res Methodol ; 23(1): 241, 2023 10 18.
Article em En | MEDLINE | ID: mdl-37853353
BACKGROUND: Near-real time surveillance of excess mortality has been an essential tool during the COVID-19 pandemic. It remains critical for monitoring mortality as the pandemic wanes, to detect fluctuations in the death rate associated both with the longer-term impact of the pandemic (e.g. infection, containment measures and reduced service provision by the health and other systems) and the responses that followed (e.g. curtailment of containment measures, vaccination and the response of health and other systems to backlogs). Following the relaxing of social distancing regimes and reduction in the availability of testing, across many countries, it becomes critical to measure the impact of COVID-19 infection. However, prolonged periods of mortality in excess of the expected across entire populations has raised doubts over the validity of using unadjusted historic estimates of mortality to calculate the expected numbers of deaths that form the baseline for computing numbers of excess deaths because many individuals died earlier than they would otherwise have done: i.e. their mortality was displaced earlier in time to occur during the pandemic rather than when historic rates predicted. This is also often termed "harvesting" in the literature. METHODS: We present a novel Cox-regression-based methodology using time-dependent covariates to estimate the profile of the increased risk of death across time in individuals who contracted COVID-19 among a population of hip fracture patients in England (N = 98,365). We use these hazards to simulate a distribution of survival times, in the presence of a COVID-19 positive test, and then calculate survival times based on hazard rates without a positive test and use the difference between the medians of these distributions to estimate the number of days a death has been displaced. This methodology is applied at the individual level, rather than the population level to provide a better understanding of the impact of a positive COVID-19 test on the mortality of groups with different vulnerabilities conferred by sociodemographic and health characteristics. Finally, we apply the mortality displacement estimates to adjust estimates of excess mortality using a "ball and urn" model. RESULTS: Among the exemplar population we present an end-to-end application of our methodology to estimate the extent of mortality displacement. A greater proportion of older, male and frailer individuals were subject to significant displacement while the magnitude of displacement was higher in younger females and in individuals with lower frailty: groups who, in the absence of COVID-19, should have had a substantial life expectancy. CONCLUSION: Our results indicate that calculating the expected number of deaths following the first wave of the pandemic in England based solely on historical trends results in an overestimate, and excess mortality will therefore be underestimated. Our findings, using this exemplar dataset are conditional on having experienced a hip fracture, which is not generalisable to the general population. Fractures that impede mobility in the weeks that follow the accident/surgery considerably shorten life expectancy and are in themselves markers of significant frailty. It is therefore important to apply these novel methods to the general population, among whom we anticipate strong patterns in mortality displacement - both in its length and prevalence - by age, sex, frailty and types of comorbidities. This counterfactual method may also be used to investigate a wider range of disruptive population health events. This has important implications for public health monitoring and the interpretation of public health data in England and globally.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Fragilidade / COVID-19 / Fraturas do Quadril Limite: Female / Humans / Male Idioma: En Revista: BMC Med Res Methodol Assunto da revista: MEDICINA Ano de publicação: 2023 Tipo de documento: Article

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Fragilidade / COVID-19 / Fraturas do Quadril Limite: Female / Humans / Male Idioma: En Revista: BMC Med Res Methodol Assunto da revista: MEDICINA Ano de publicação: 2023 Tipo de documento: Article