加拿大人口铁状况:来自 2012-2019 年加拿大健康测量调查的结果。
Population Iron Status in Canada: Results from the Canadian Health Measures Survey 2012-2019.
机构信息
Nutrition Research Division, Bureau of Nutritional Sciences, Food Directorate, Health Products and Food Branch, Health Canada, Ottawa, Ontario, Canada.
Nutrition Research Division, Bureau of Nutritional Sciences, Food Directorate, Health Products and Food Branch, Health Canada, Ottawa, Ontario, Canada; Department of Biochemistry, Microbiology and Immunology, University of Ottawa, Ottawa, Ontario, Canada.
出版信息
J Nutr. 2023 May;153(5):1534-1543. doi: 10.1016/j.tjnut.2023.03.012. Epub 2023 Mar 12.
BACKGROUND
In Canada, population iron status estimates are dated (2009-2011) and did not consider the presence of inflammation.
OBJECTIVES
This study aimed to update iron status estimates in Canada using serum ferrin (SF) and evaluate different correction methods for inflammation based on c-reactive protein (CRP).
METHODS
Data from the Canadian Health Measures Survey cycles 3-6 (2012-2019) formed a multiyear, cross-sectional, nationally representative sample (3-79 y) (n = 21,453). WHO cutoffs for SF and hemoglobin were used to estimate iron deficiency (ID), iron deficiency anemia (IDA), anemia, and elevated iron stores. ID was first estimated without considering inflammation. Correction approaches evaluated were excluding individuals with CRP >5 mg/L, using modified SF cutoffs, and regression correction.
RESULTS
Total population uncorrected prevalence estimates were 7% (95% CI: 6.2, 7.9) ID, 6.1% (95% CI: 5.2, 7.0) anemia, and 2.0% (95% CI: 1.6, 2.4) IDA. The uncorrected prevalence of ID was the highest among females of reproductive age with 21.3% (95% CI: 17.6, 25.0) and 18.2% (95% CI: 15.4, 21.1) in 14-18 y and 19-50 y, respectively. Corrected ID estimates were higher than the uncorrected values, independent of the correction approach. Regression correction led to a moderate increase in the prevalence to 10.5% for the total population, whereas applying the higher modified SF cutoffs (70 μg/L for those older than 5 y) led to the largest increases in the prevalence, to 12.6%. Applying modified cutoffs led to implausibly high ID estimates among those with inflammation. Elevated iron stores were identified in 17.2% (95% CI: 16.2, 18.2) of the population, mostly in adult males.
CONCLUSIONS
Correction methods for estimating population iron status need further research. Considering the fundamental drawbacks of each method, uncorrected and regression-corrected estimates provide a reasonable range for ID in the Canadian population. Important sex-based differences in iron status and a public health ID problem of moderate magnitude among females of reproductive age are evident in Canada.
背景
在加拿大,人群铁状态的估计数据已经过时(2009-2011 年),且没有考虑炎症的存在。
目的
本研究旨在使用血清铁蛋白(SF)更新加拿大的铁状态估计值,并基于 C 反应蛋白(CRP)评估不同的炎症校正方法。
方法
加拿大健康测量调查周期 3-6 期(2012-2019 年)的数据构成了一个多年、横断面、全国代表性样本(3-79 岁)(n=21453)。使用 SF 和血红蛋白的世卫组织截断值来估计缺铁(ID)、缺铁性贫血(IDA)、贫血和铁储存升高。首先不考虑炎症来估计 ID。评估的校正方法包括排除 CRP>5mg/L 的个体、使用改良 SF 截断值和回归校正。
结果
总人口未经校正的患病率估计值分别为 7%(95%CI:6.2,7.9)ID、6.1%(95%CI:5.2,7.0)贫血和 2.0%(95%CI:1.6,2.4)IDA。在生殖年龄的女性中,未经校正的 ID 患病率最高,分别为 14-18 岁和 19-50 岁的 21.3%(95%CI:17.6,25.0)和 18.2%(95%CI:15.4,21.1)。校正后的 ID 估计值高于未校正值,且与校正方法无关。回归校正导致总人群的患病率适度增加至 10.5%,而应用较高的改良 SF 截断值(>5 岁者为 70μg/L)导致患病率最大增加,达到 12.6%。应用改良截断值会导致 ID 估计值在有炎症的人群中出现不合理的升高。铁储存升高见于 17.2%(95%CI:16.2,18.2)的人群,主要见于成年男性。
结论
用于估计人群铁状态的校正方法需要进一步研究。考虑到每种方法的基本缺陷,未校正和回归校正的估计值为加拿大人群的 ID 提供了一个合理的范围。在加拿大,铁状态的重要性别差异以及生殖年龄女性中度 ID 的公共卫生问题显而易见。
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