危地马拉学童血清 C-反应蛋白与血清锌、铁蛋白和铜之间的关联。
Associations between serum C-reactive protein and serum zinc, ferritin, and copper in Guatemalan school children.
机构信息
Nutrition and Health Sciences Program, Graduate Division of Biological and Biomedical Sciences, Laney Graduate School, Emory University, Atlanta, GA, USA.
出版信息
Biol Trace Elem Res. 2012 Aug;148(2):154-60. doi: 10.1007/s12011-012-9358-0. Epub 2012 Feb 22.
Inflammation affects trace nutrient concentrations, but research on copper and particularly in children is limited. We assessed associations between serum C-reactive protein (CRP) and zinc, iron, copper, and other biomarkers (alkaline phosphatase, hemoglobin, and albumin), in 634 healthy 6- to 11-year-old Guatemalan schoolchildren. CRP was measured by a standardized, high-sensitive method. For significant associations with CRP, we stratified nutrient concentrations across categories of CRP and compared concentrations above and below several CRP cutoff points (0.5, 1, 3, 5, and 10 mg/L), and then adjusted values using correction factors (ratios of geometric means of the nutrients in the low and high groups). Prevalence of serum zinc (<65 μg/dL0, ferritin (<15 μg/L), and copper (<90 μg/dL) deficiency were 21%, 2.1%, and 23.8%, respectively. Median (25th and 75th percentiles) CRP was 0.56 (0.26 and 1.54) mg/L. CRP concentration was positively associated with ferritin and copper concentrations (r = 0.23 and 0.29, respectively; P < 0.0001) but not with zinc and other biomarkers (P > 0.05). Regardless of CRP cutoffs, high (> cutoff) vs. low (≤ cutoff) CRP levels had higher ferritin and copper concentrations and lower prevalence of copper deficiency of <90 μg/dL (P < 0.05). Adjustment for inflammation had the greatest influence on recalculated prevalence for the CRP 0.5 mg/L cutoff. The low ferritin prevalence hardly changed (from 2.1% to 2.5%) while the low copper prevalence changed appreciably (from 23.8% to 31.2%). In conclusion, CRP was positively associated with ferritin and copper but not with zinc concentrations. Adjustment for inflammation had little effect on low ferritin prevalence, low to begin with, and a large impact on low copper prevalence. High-sensitive CRP methods and the use of very low CRP cutoffs may be more accurate than traditional CRP methods in the adjustment of serum copper concentrations for inflammation in healthy school children.
炎症会影响痕量营养素的浓度,但有关铜的研究,尤其是针对儿童的研究十分有限。我们评估了血清 C 反应蛋白 (CRP) 与锌、铁、铜和其他生物标志物(碱性磷酸酶、血红蛋白和白蛋白)之间的关系,研究对象为 634 名 6 至 11 岁的健康危地马拉学童。CRP 采用标准化的高敏方法进行测量。对于与 CRP 显著相关的营养素,我们按照 CRP 分类对其浓度进行分层,并比较 CRP 截断值(0.5、1、3、5 和 10 mg/L)上下的浓度,然后使用校正因子(低值和高值组营养素的几何均数之比)调整值。血清锌(<65 μg/dL0)、铁蛋白(<15 μg/L)和铜(<90 μg/dL)缺乏的患病率分别为 21%、2.1%和 23.8%。中位数(25%和 75%分位数)CRP 为 0.56(0.26 和 1.54)mg/L。CRP 浓度与铁蛋白和铜浓度呈正相关(r = 0.23 和 0.29,P<0.0001),但与锌和其他生物标志物无关(P>0.05)。无论 CRP 截断值如何,高(>截断值)与低(≤截断值)CRP 水平均具有更高的铁蛋白和铜浓度,且铜缺乏症(<90 μg/dL)的患病率更低(P<0.05)。对炎症进行调整对 CRP 0.5 mg/L 截断值的重新计算患病率影响最大。低铁蛋白的患病率几乎没有变化(从 2.1%增加到 2.5%),而低铜的患病率变化显著(从 23.8%增加到 31.2%)。结论:CRP 与铁蛋白和铜呈正相关,但与锌浓度无关。对炎症进行调整对本来就很低的低铁蛋白患病率影响不大,但对低铜患病率影响较大。高敏 CRP 方法和使用非常低的 CRP 截断值可能比传统 CRP 方法更准确地调整健康学童血清铜浓度对炎症的影响。
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