Korda Rosemary J, Soga Kay, Joshy Grace, Calabria Bianca, Attia John, Wong Deborah, Banks Emily
National Centre for Epidemiology and Population Health, Research School of Population Health, Australian National University, Canberra, ACT, Australia.
National Drug and Alcohol Research Centre, UNSW Australia, Sydney, NSW, Australia.
Int J Equity Health. 2016 Nov 21;15(1):189. doi: 10.1186/s12939-016-0471-0.
Cardiovascular disease (CVD) disproportionately affects disadvantaged people, but reliable quantitative evidence on socioeconomic variation in CVD incidence in Australia is lacking. This study aimed to quantify socioeconomic variation in rates of primary and secondary CVD events in mid-age and older Australians.
Baseline data (2006-2009) from the 45 and Up Study, an Australian cohort involving 267,153 men and women aged ≥ 45, were linked to hospital and death data (to December 2013). Outcomes comprised first event - death or hospital admission - for major CVD combined, as well as myocardial infarction and stroke, in those with and without prior CVD (secondary and primary events, respectively). Cox regression estimated hazard ratios (HRs) for each outcome in relation to education (and income and area-level disadvantage), separately by age group (45-64, 65-79, and ≥ 80 years), adjusting for age and sex, and additional sociodemographic factors.
There were 18,207 primary major CVD events over 1,144,845 years of follow-up (15.9/1000 person-years), and 20,048 secondary events over 260,357 years (77.0/1000 person-years). For both primary and secondary events, incidence increased with decreasing education, with the absolute difference between education groups largest for secondary events. Age-sex adjusted hazard ratios were highest in the 45-64 years group: for major CVDs, HR (no qualifications vs university degree) = 1.62 (95% CI: 1.49-1.77) for primary events, and HR = 1.49 (1.34-1.65) for secondary events; myocardial infarction HR = 2.31 (1.87-2.85) and HR = 2.57 (1.90-3.47) respectively; stroke HR = 1.48 (1.16-1.87) and HR = 1.97 (1.42-2.74) respectively. Similar but attenuated results were seen in older age groups, and with income. For area-level disadvantage, CVD gradients were weak and non-significant in older people (> 64 years).
Individual-level data are important for quantifying socioeconomic variation in CVD incidence, which is shown to be substantial among both those with and without prior CVD. Findings reinforce the opportunity for, and importance of, primary and secondary prevention and treatment in reducing socioeconomic variation in CVD and consequently the overall burden of CVD morbidity and mortality in Australia.
心血管疾病(CVD)对弱势群体的影响尤为严重,但澳大利亚缺乏关于心血管疾病发病率社会经济差异的可靠定量证据。本研究旨在量化澳大利亚中老年人原发性和继发性心血管疾病事件发生率的社会经济差异。
将来自“45岁及以上研究”(一项涉及267153名年龄≥45岁的男性和女性的澳大利亚队列研究)的基线数据(2006 - 2009年)与医院和死亡数据(截至2013年12月)相链接。结局包括首次发生的主要心血管疾病联合事件(死亡或住院),以及既往有心血管疾病和无心血管疾病者(分别为继发性和原发性事件)的心肌梗死和中风。Cox回归分别按年龄组(45 - 64岁、65 - 79岁和≥80岁)估计每种结局与教育程度(以及收入和地区层面的不利因素)相关的风险比(HRs),并对年龄、性别以及其他社会人口学因素进行调整。
在1144845人年的随访中发生了18207例原发性主要心血管疾病事件(15.9/1000人年),在260357人年中发生了20048例继发性事件(77.0/1000人年)。对于原发性和继发性事件,发病率均随教育程度降低而增加,教育程度组之间的绝对差异在继发性事件中最大。年龄 - 性别调整后的风险比在45 - 64岁年龄组中最高:对于主要心血管疾病,原发性事件的风险比(无学历与大学学历相比)= 1.62(95% CI:1.49 - 1.77),继发性事件的风险比 = 1.49(1.34 - 1.65);心肌梗死的风险比分别为2.31(1.87 - 2.85)和2.57(1.90 - 3.47);中风的风险比分别为1.48(1.16 - 1.87)和1.97(1.42 - 2.74)。在老年组以及考虑收入因素时也观察到了类似但减弱的结果。对于地区层面的不利因素,心血管疾病梯度在老年人(>64岁)中较弱且无统计学意义。
个体层面的数据对于量化心血管疾病发病率的社会经济差异很重要,这在既往有心血管疾病和无心血管疾病的人群中均显示出很大差异。研究结果强化了一级和二级预防及治疗在减少澳大利亚心血管疾病社会经济差异以及因此减少心血管疾病发病和死亡总体负担方面的机会和重要性。
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