基于重组小麦面粉蛋白特异性 IgE 的贝克氏过敏的成分诊断。
Component-resolved diagnosis of baker's allergy based on specific IgE to recombinant wheat flour proteins.
机构信息
Institute for Prevention and Occupational Medicine, German Social Accident Insurance, Ruhr University Bochum (IPA), Bochum, Germany.
Institute for Prevention and Occupational Medicine, German Social Accident Insurance, Ruhr University Bochum (IPA), Bochum, Germany.
出版信息
J Allergy Clin Immunol. 2015 Jun;135(6):1529-37. doi: 10.1016/j.jaci.2014.11.021. Epub 2015 Jan 7.
BACKGROUND
Sensitization to wheat flour plays an important role in the development and diagnosis of baker's asthma.
OBJECTIVES
We evaluated wheat allergen components as sensitizers for bakers with work-related complaints, with consideration of cross-reactivity to grass pollen.
METHODS
Nineteen recombinant wheat flour proteins and 2 cross-reactive carbohydrate determinants were tested by using CAP-FEIA in sera of 101 bakers with wheat flour allergy (40 German, 37 Dutch, and 24 Spanish) and 29 pollen-sensitized control subjects with wheat-specific IgE but without occupational exposure. IgE binding to the single components was inhibited with wheat flour, rye flour, and grass pollen. The diagnostic efficiencies of IgE tests with single allergens and combinations were evaluated by assessing their ability to discriminate between patients with baker's allergy and control subjects based on receiver operating characteristic analyses.
RESULTS
Eighty percent of bakers had specific IgE levels of 0.35 kUA/L or greater and 91% had specific IgE levels of 0.1 kUA/L or greater to at least one of the 21 allergens. The highest frequencies of IgE binding were found for thiol reductase (Tri a 27) and the wheat dimeric α-amylase inhibitor 0.19 (Tri a 28). Cross-reactivity to grass pollen was proved for 9 components, and cross-reactivity to rye flour was proved for 18 components. A combination of IgE tests to 5 components, Tri a 27, Tri a 28, tetrameric α-amylase inhibitor CM2 (Tri a 29.02), serine protease inhibitor-like allergen (Tri a 39), and 1-cys-peroxiredoxin (Tri a 32), produced the maximal area under the curve (AUC = 0.84) in receiver operating characteristic analyses, but this was still lower than the AUC for wheat- or rye flour-specific IgE (AUC = 0.89 or 0.88, respectively).
CONCLUSIONS
Component-resolved diagnostics help to distinguish between sensitization caused by occupational flour exposure and wheat seropositivity based on cross-reactivity to grass pollen. For routine diagnosis of baker's allergy, however, allergen-specific IgE tests with whole wheat and rye flour extracts remain mandatory because of superior diagnostic sensitivity.
背景
对面粉的致敏作用在面包师哮喘的发展和诊断中起着重要作用。
目的
我们评估了小麦过敏原成分作为与工作相关的抱怨的面包师的致敏原,并考虑了与草花粉的交叉反应性。
方法
使用 CAP-FEIA 在 101 例对小麦粉过敏的面包师(40 例德国,37 例荷兰和 24 例西班牙)和 29 例花粉致敏但无职业暴露的对照受试者的血清中检测了 19 种重组小麦面粉蛋白和 2 种交叉反应性碳水化合物决定簇。用小麦粉、黑麦粉和草花粉抑制 IgE 与单个成分的结合。通过评估基于接收者操作特征分析的对患者与对照之间的区分能力,评估了使用单个过敏原和组合的 IgE 检测的诊断效率。
结果
80%的面包师的特异性 IgE 水平为 0.35 kUA/L 或更高,91%的特异性 IgE 水平为 0.1 kUA/L 或更高,对至少 21 种过敏原中的一种。发现 IgE 结合的最高频率为硫醇还原酶(Tri a 27)和小麦二聚体α-淀粉酶抑制剂 0.19(Tri a 28)。对 9 种成分证实了与草花粉的交叉反应性,对 18 种成分证实了与黑麦粉的交叉反应性。对 5 种成分的 IgE 检测组合,Tri a 27、Tri a 28、四聚体α-淀粉酶抑制剂 CM2(Tri a 29.02)、丝氨酸蛋白酶抑制剂样过敏原(Tri a 39)和 1-cys-过氧化物酶(Tri a 32),在接收者操作特征分析中产生了最大的曲线下面积(AUC = 0.84),但仍低于小麦或黑麦粉特异性 IgE 的 AUC(AUC = 0.89 或 0.88)。
结论
基于与草花粉的交叉反应性,组分解析诊断有助于区分职业性面粉暴露引起的致敏和小麦血清阳性。然而,对于面包师哮喘的常规诊断,由于诊断敏感性更高,仍需要使用全小麦和黑麦粉提取物进行过敏原特异性 IgE 检测。
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