1990-2021 年全球细菌抗菌药耐药性负担:系统分析及对 2050 年的预测。

IF 98.4 1区 医学 Q1 MEDICINE, GENERAL & INTERNAL The Lancet Pub Date : 2024-09-28 Epub Date: 2024-09-16 DOI:10.1016/S0140-6736(24)01867-1
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We collected and used multiple cause of death data, hospital discharge data, microbiology data, literature studies, single drug resistance profiles, pharmaceutical sales, antibiotic use surveys, mortality surveillance, linkage data, outpatient and inpatient insurance claims data, and previously published data, covering 520 million individual records or isolates and 19 513 study-location-years. We used statistical modelling to produce estimates of AMR burden for all locations, including those with no data. Our approach leverages the estimation of five broad component quantities: the number of deaths involving sepsis; the proportion of infectious deaths attributable to a given infectious syndrome; the proportion of infectious syndrome deaths attributable to a given pathogen; the percentage of a given pathogen resistant to an antibiotic of interest; and the excess risk of death or duration of an infection associated with this resistance. Using these components, we estimated disease burden attributable to and associated with AMR, which we define based on two counterfactuals; respectively, an alternative scenario in which all drug-resistant infections are replaced by drug-susceptible infections, and an alternative scenario in which all drug-resistant infections were replaced by no infection. Additionally, we produced global and regional forecasts of AMR burden until 2050 for three scenarios: a reference scenario that is a probabilistic forecast of the most likely future; a Gram-negative drug scenario that assumes future drug development that targets Gram-negative pathogens; and a better care scenario that assumes future improvements in health-care quality and access to appropriate antimicrobials. 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For both deaths associated with and deaths attributable to AMR, meticillin-resistant Staphylococcus aureus increased the most globally (from 261 000 associated deaths [95% UI 150 000-372 000] and 57 200 attributable deaths [34 100-80 300] in 1990, to 550 000 associated deaths [500 000-600 000] and 130 000 attributable deaths [113 000-146 000] in 2021). Among Gram-negative bacteria, resistance to carbapenems increased more than any other antibiotic class, rising from 619 000 associated deaths (405 000-834 000) in 1990, to 1·03 million associated deaths (909 000-1·16 million) in 2021, and from 127 000 attributable deaths (82 100-171 000) in 1990, to 216 000 (168 000-264 000) attributable deaths in 2021. There was a notable decrease in non-COVID-related infectious disease in 2020 and 2021. Our forecasts show that an estimated 1·91 million (1·56-2·26) deaths attributable to AMR and 8·22 million (6·85-9·65) deaths associated with AMR could occur globally in 2050. Super-regions with the highest all-age AMR mortality rate in 2050 are forecasted to be south Asia and Latin America and the Caribbean. Increases in deaths attributable to AMR will be largest among those 70 years and older (65·9% [61·2-69·8] of all-age deaths attributable to AMR in 2050). In stark contrast to the strong increase in number of deaths due to AMR of 69·6% (51·5-89·2) from 2022 to 2050, the number of DALYs showed a much smaller increase of 9·4% (-6·9 to 29·0) to 46·5 million (37·7 to 57·3) in 2050. Under the better care scenario, across all age groups, 92·0 million deaths (82·8-102·0) could be cumulatively averted between 2025 and 2050, through better care of severe infections and improved access to antibiotics, and under the Gram-negative drug scenario, 11·1 million AMR deaths (9·08-13·2) could be averted through the development of a Gram-negative drug pipeline to prevent AMR deaths.</p><p><strong>Interpretation: </strong>This study presents the first comprehensive assessment of the global burden of AMR from 1990 to 2021, with results forecasted until 2050. Evaluating changing trends in AMR mortality across time and location is necessary to understand how this important global health threat is developing and prepares us to make informed decisions regarding interventions. Our findings show the importance of infection prevention, as shown by the reduction of AMR deaths in those younger than 5 years. 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We collected and used multiple cause of death data, hospital discharge data, microbiology data, literature studies, single drug resistance profiles, pharmaceutical sales, antibiotic use surveys, mortality surveillance, linkage data, outpatient and inpatient insurance claims data, and previously published data, covering 520 million individual records or isolates and 19 513 study-location-years. We used statistical modelling to produce estimates of AMR burden for all locations, including those with no data. Our approach leverages the estimation of five broad component quantities: the number of deaths involving sepsis; the proportion of infectious deaths attributable to a given infectious syndrome; the proportion of infectious syndrome deaths attributable to a given pathogen; the percentage of a given pathogen resistant to an antibiotic of interest; and the excess risk of death or duration of an infection associated with this resistance. 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引用次数: 0

摘要

背景:抗菌素耐药性(AMR)是 21 世纪全球健康面临的一项重要挑战。之前的一项研究对 2019 年全球和地区的 AMR 负担进行了量化,随后又有其他出版物按国家对世卫组织的几个地区进行了更详细的估算。迄今为止,还没有任何研究对各地的 AMR 负担进行全面估算,其中包括历史趋势和未来预测:我们估算了 1990 年至 2021 年期间 204 个国家和地区的 22 种病原体、84 种病原体-药物组合和 11 种感染综合征中可归因于细菌 AMR 或与之相关的全年龄段和特定年龄段死亡人数和残疾调整生命年数(DALYs)。我们收集并使用了多种死因数据、医院出院数据、微生物学数据、文献研究、单一耐药性概况、药品销售、抗生素使用调查、死亡率监测、关联数据、门诊和住院病人保险理赔数据以及之前公布的数据,涵盖了 5.2 亿份个人记录或分离物和 19 513 个研究地点年。我们使用统计建模来估算所有地点的 AMR 负担,包括那些没有数据的地点。我们的方法利用了对五大组成部分数量的估算:涉及败血症的死亡人数;可归因于特定感染综合征的感染性死亡人数比例;可归因于特定病原体的感染性综合征死亡人数比例;特定病原体对相关抗生素产生耐药性的百分比;以及与这种耐药性相关的超额死亡风险或感染持续时间。利用这些组成部分,我们估算了可归因于 AMR 的疾病负担和与 AMR 相关的疾病负担,我们根据两种反事实情况对其进行了定义;分别是所有耐药感染被药物易感性感染所取代的另一种情况,以及所有耐药感染被无感染所取代的另一种情况。此外,我们还针对三种情景对 2050 年前全球和地区的 AMR 负担进行了预测:参考情景是对最有可能发生的未来的概率预测;革兰氏阴性药物情景是假定未来会开发出针对革兰氏阴性病原体的药物;更好的护理情景是假定未来会提高医疗质量并提供适当的抗菌药物。我们将最终估算结果汇总到全球、超地区和地区层面:2021 年,我们估计有 4-71 万人(95% UI 4-23-5-19)的死亡与细菌性 AMR 有关,其中有 1-14 万人(1-00-1-28)的死亡与细菌性 AMR 有关。在过去 31 年中,AMR 死亡率的变化趋势因年龄和地区的不同而有很大差异。从 1990 年到 2021 年,5 岁以下儿童死于 AMR 的人数减少了 50%以上,但 70 岁及以上成年人的 AMR 死亡率却增加了 80% 以上。在所有超级地区,5 岁以下儿童的急性呼吸道感染死亡率都有所下降,而在所有超级地区,5 岁及以上人群的急性呼吸道感染死亡率都有所上升。就与AMR相关的死亡和可归因于AMR的死亡而言,耐甲氧西林金黄色葡萄球菌在全球的增幅最大(从1990年的261 000例相关死亡[95% UI 150 000-372 000]和57 200例可归因死亡[34 100-80 300],增至2021年的550 000例相关死亡[500 000-600 000]和130 000例可归因死亡[113 000-146 000])。在革兰氏阴性菌中,对碳青霉烯类抗生素耐药性的增加超过了任何其他抗生素类别,从 1990 年的 619 000 例相关死亡(405 000-834 000 例)增加到 2021 年的 1-03 万例相关死亡(909 000-11600 万例),从 1990 年的 127 000 例相关死亡(82 100-171 000 例)增加到 2021 年的 216 000 例相关死亡(168 000-264 000 例)。2020 年和 2021 年,与 COVID 无关的传染病明显减少。我们的预测显示,到 2050 年,全球估计有 1-9100 万(1-56-2-26)人死于 AMR,800-2200 万(6-85-9-65)人死于与 AMR 相关的疾病。据预测,2050 年全年龄段 AMR 死亡率最高的超级地区是南亚以及拉丁美洲和加勒比地区。70岁及以上人群因AMR导致的死亡增幅最大(2050年因AMR导致的全年龄段死亡占65-9% [61-2-69-8])。从 2022 年到 2050 年,AMR 导致的死亡人数增幅高达 69-6%(51-5-89-2),与此形成鲜明对比的是,残疾调整寿命年数的增幅要小得多,仅为 9-4%(-6-9 至 29-0),到 2050 年为 4600 万(37-7 至 57-3)。
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Global burden of bacterial antimicrobial resistance 1990-2021: a systematic analysis with forecasts to 2050.

Background: Antimicrobial resistance (AMR) poses an important global health challenge in the 21st century. A previous study has quantified the global and regional burden of AMR for 2019, followed with additional publications that provided more detailed estimates for several WHO regions by country. To date, there have been no studies that produce comprehensive estimates of AMR burden across locations that encompass historical trends and future forecasts.

Methods: We estimated all-age and age-specific deaths and disability-adjusted life-years (DALYs) attributable to and associated with bacterial AMR for 22 pathogens, 84 pathogen-drug combinations, and 11 infectious syndromes in 204 countries and territories from 1990 to 2021. We collected and used multiple cause of death data, hospital discharge data, microbiology data, literature studies, single drug resistance profiles, pharmaceutical sales, antibiotic use surveys, mortality surveillance, linkage data, outpatient and inpatient insurance claims data, and previously published data, covering 520 million individual records or isolates and 19 513 study-location-years. We used statistical modelling to produce estimates of AMR burden for all locations, including those with no data. Our approach leverages the estimation of five broad component quantities: the number of deaths involving sepsis; the proportion of infectious deaths attributable to a given infectious syndrome; the proportion of infectious syndrome deaths attributable to a given pathogen; the percentage of a given pathogen resistant to an antibiotic of interest; and the excess risk of death or duration of an infection associated with this resistance. Using these components, we estimated disease burden attributable to and associated with AMR, which we define based on two counterfactuals; respectively, an alternative scenario in which all drug-resistant infections are replaced by drug-susceptible infections, and an alternative scenario in which all drug-resistant infections were replaced by no infection. Additionally, we produced global and regional forecasts of AMR burden until 2050 for three scenarios: a reference scenario that is a probabilistic forecast of the most likely future; a Gram-negative drug scenario that assumes future drug development that targets Gram-negative pathogens; and a better care scenario that assumes future improvements in health-care quality and access to appropriate antimicrobials. We present final estimates aggregated to the global, super-regional, and regional level.

Findings: In 2021, we estimated 4·71 million (95% UI 4·23-5·19) deaths were associated with bacterial AMR, including 1·14 million (1·00-1·28) deaths attributable to bacterial AMR. Trends in AMR mortality over the past 31 years varied substantially by age and location. From 1990 to 2021, deaths from AMR decreased by more than 50% among children younger than 5 years yet increased by over 80% for adults 70 years and older. AMR mortality decreased for children younger than 5 years in all super-regions, whereas AMR mortality in people 5 years and older increased in all super-regions. For both deaths associated with and deaths attributable to AMR, meticillin-resistant Staphylococcus aureus increased the most globally (from 261 000 associated deaths [95% UI 150 000-372 000] and 57 200 attributable deaths [34 100-80 300] in 1990, to 550 000 associated deaths [500 000-600 000] and 130 000 attributable deaths [113 000-146 000] in 2021). Among Gram-negative bacteria, resistance to carbapenems increased more than any other antibiotic class, rising from 619 000 associated deaths (405 000-834 000) in 1990, to 1·03 million associated deaths (909 000-1·16 million) in 2021, and from 127 000 attributable deaths (82 100-171 000) in 1990, to 216 000 (168 000-264 000) attributable deaths in 2021. There was a notable decrease in non-COVID-related infectious disease in 2020 and 2021. Our forecasts show that an estimated 1·91 million (1·56-2·26) deaths attributable to AMR and 8·22 million (6·85-9·65) deaths associated with AMR could occur globally in 2050. Super-regions with the highest all-age AMR mortality rate in 2050 are forecasted to be south Asia and Latin America and the Caribbean. Increases in deaths attributable to AMR will be largest among those 70 years and older (65·9% [61·2-69·8] of all-age deaths attributable to AMR in 2050). In stark contrast to the strong increase in number of deaths due to AMR of 69·6% (51·5-89·2) from 2022 to 2050, the number of DALYs showed a much smaller increase of 9·4% (-6·9 to 29·0) to 46·5 million (37·7 to 57·3) in 2050. Under the better care scenario, across all age groups, 92·0 million deaths (82·8-102·0) could be cumulatively averted between 2025 and 2050, through better care of severe infections and improved access to antibiotics, and under the Gram-negative drug scenario, 11·1 million AMR deaths (9·08-13·2) could be averted through the development of a Gram-negative drug pipeline to prevent AMR deaths.

Interpretation: This study presents the first comprehensive assessment of the global burden of AMR from 1990 to 2021, with results forecasted until 2050. Evaluating changing trends in AMR mortality across time and location is necessary to understand how this important global health threat is developing and prepares us to make informed decisions regarding interventions. Our findings show the importance of infection prevention, as shown by the reduction of AMR deaths in those younger than 5 years. Simultaneously, our results underscore the concerning trend of AMR burden among those older than 70 years, alongside a rapidly ageing global community. The opposing trends in the burden of AMR deaths between younger and older individuals explains the moderate future increase in global number of DALYs versus number of deaths. Given the high variability of AMR burden by location and age, it is important that interventions combine infection prevention, vaccination, minimisation of inappropriate antibiotic use in farming and humans, and research into new antibiotics to mitigate the number of AMR deaths that are forecasted for 2050.

Funding: UK Department of Health and Social Care's Fleming Fund using UK aid, and the Wellcome Trust.

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来源期刊
The Lancet
The Lancet 医学-医学:内科
CiteScore
148.10
自引率
0.70%
发文量
2220
审稿时长
3 months
期刊介绍: The Lancet is a world-leading source of clinical, public health, and global health knowledge. It was founded in 1823 by Thomas Wakley and has been an independent, international weekly general medical journal since then. The journal has an Impact Factor of 168.9, ranking first among 167 general and internal medicine journals globally. It also has a Scopus CiteScore of 133·2, ranking it second among 830 general medicine journals. The Lancet's mission is to make science widely available to serve and transform society, positively impacting people's lives. Throughout its history, The Lancet has been dedicated to addressing urgent topics, initiating debate, providing context for scientific research, and influencing decision makers worldwide.
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