Katikireddi Srinivasa Vittal, Leyland Alastair H, McKee Martin, Ralston Kevin, Stuckler David
MRC/CSO Social and Public Health Sciences Unit, University of Glasgow, Glasgow, UK.
London School of Hygiene & Tropical Medicine, London, UK.
Lancet Public Health. 2017 Oct 23;2(11):e501-e512. doi: 10.1016/S2468-2667(17)30193-7. eCollection 2017 Nov.
Detailed assessments of mortality by occupation are scarce. We aimed to assess mortality by occupation in the UK, differences in rates between England and Wales and Scotland, and changes over time in Scotland.
We analysed adults of working age (20-59 years) using linked census and death records. Main occupation was coded into more than 60 groups in the 2001 census, with mortality follow-up until Dec 31, 2011. Comparable occupation data were available for Scotland in 1991, allowing assessment of trends over time. We calculated age-standardised all-cause mortality rates (per 100 000 person-years), stratified by sex. We used Monte Carlo simulation to derive p values and 95% CIs for the difference in mortality over time and between England and Wales and Scotland.
During 4·51 million person-years of follow-up, mortality rates by occupation differed by more than three times between the lowest and highest observed rates in both men and women. Among men in England and Wales, health professionals had the lowest mortality (225 deaths per 100 000 person-years [95% CI 145-304]), with low rates also shown in managers and teachers. The highest mortality rates were in elementary construction (701 deaths per 100 000 person-years [95% CI 593-809]), and housekeeping and factory workers. Among women, teachers and business professionals had low mortality, and factory workers and garment trade workers had high rates. Mortality rates have generally fallen, but have stagnated or even increased among women in some occupations, such as cleaners (337 deaths per 100 000 person years [95% CI 292-382] in 1991, rising to 426 deaths per 100 000 person years in 2001 [371-481]). Findings from simulation models suggested that if mortality rates by occupation in England and Wales applied to Scotland, 631 fewer men (95% CI 285-979; a 9·7% decrease) and 273 fewer women (26-513; 6·7% decrease) of working age would die in Scotland every year. Excess deaths in Scotland were concentrated among lower skilled occupations (eg, female cleaners).
Mortality rates differ greatly by occupation. The excess mortality in Scotland is concentrated among low-skilled workers and, although mortality has improved in men and women in most occupational groups, some groups have experienced increased rates. Future research investigating the specific causes of death at the detailed occupational level will be valuable, particularly with a view to understanding the health implications of precarious employment and the need to improve working conditions in very specific occupational groups.
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按职业对死亡率进行的详细评估很少见。我们旨在评估英国按职业划分的死亡率、英格兰和威尔士与苏格兰之间的死亡率差异以及苏格兰随时间的变化情况。
我们使用关联的人口普查和死亡记录分析了工作年龄(20 - 59岁)的成年人。在2001年人口普查中,主要职业被编码为60多个类别,并对死亡率进行随访直至2011年12月31日。1991年苏格兰有可比的职业数据,从而能够评估随时间的趋势。我们计算了按性别分层的年龄标准化全因死亡率(每10万人年)。我们使用蒙特卡罗模拟得出死亡率随时间以及英格兰和威尔士与苏格兰之间差异的p值和95%置信区间。
在451万人年的随访期间,男性和女性中按职业划分的死亡率在观察到的最低和最高率之间相差三倍以上。在英格兰和威尔士的男性中,卫生专业人员的死亡率最低(每10万人年225例死亡[95%置信区间145 - 304]),经理和教师的死亡率也较低。死亡率最高的是基础建筑行业(每10万人年701例死亡[95%置信区间593 - 809])以及家政和工厂工人。在女性中,教师和商业专业人员的死亡率较低,而工厂工人和服装贸易工人的死亡率较高。死亡率总体上有所下降,但在一些职业的女性中停滞甚至上升,例如清洁工(1991年每10万人年337例死亡[95%置信区间292 - 382],2001年升至每10万人年426例死亡[371 - 481])。模拟模型的结果表明,如果将英格兰和威尔士按职业划分的死亡率应用于苏格兰,苏格兰每年工作年龄的男性死亡人数将减少631人(95%置信区间285 - 979;减少9.7%),女性死亡人数将减少273人(26 - 513;减少6.7%)。苏格兰的超额死亡集中在低技能职业(例如女性清洁工)中。
死亡率因职业差异很大。苏格兰的超额死亡率集中在低技能工人中,尽管大多数职业群体的男性和女性死亡率都有所改善,但一些群体的死亡率却有所上升。未来在详细职业层面调查具体死因的研究将很有价值,特别是为了了解不稳定就业对健康的影响以及改善非常特定职业群体工作条件的必要性。
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