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蜂类毒液过敏个体的成分分辨诊断:磷脂酶和抗原 5s 对于鉴定胡蜂或马蜂致敏原是必要的。

Component-resolved diagnosis of vespid venom-allergic individuals: phospholipases and antigen 5s are necessary to identify Vespula or Polistes sensitization.

机构信息

R & D, ALK-Abelló, Madrid, Spain.

出版信息

Allergy. 2012 Apr;67(4):528-36. doi: 10.1111/j.1398-9995.2011.02781.x. Epub 2012 Jan 9.

DOI:10.1111/j.1398-9995.2011.02781.x
PMID:22229815
Abstract

BACKGROUND

Cross-reactivity between hymenoptera species varies according to the different allergenic components of the venom. The true source of sensitization must therefore be established to ensure the efficacy of venom immunotherapy.

OBJECTIVE

In the Mediterranean region, Polistes dominulus and Vespula spp. are clinically relevant cohabitating wasps. A panel of major vespid venom allergens was used to investigate whether serum-specific IgE (sIgE) could be used to distinguish sensitization to either vespid.

METHODS

Fifty-nine individuals with allergic reactions to vespid stings and positive ImmunoCAP and/or intradermal tests to vespid venoms were studied. sIgE against recombinant and natural venom components from each wasp species was determined using the ADVIA Centaur(®) system.

RESULTS

sIgE against recombinant antigen 5s sensitization to be detected in 52% of the patients tested (13/25). The sensitivity increased to 80% (20/25), when using natural antigen 5s, and to 100% with the complete panel of purified natural components, because the sIgE was positive to either the antigen 5s (Pol d 5/Ves v 5) or to the phospholipases (Pol d 1/Ves v 1) of the two vespids, or to both components at the same time. In 69% of cases, it was possible to define the most probable sensitizing insect, and in the rest, possible double sensitization could not be excluded. Vespula hyaluronidase was shown to have no additional value as regards the specificity of the assay.

CONCLUSIONS

The major allergens of P. dominulus' and Vespula vulgaris' venom, namely phoshpholipases and antigen 5s, are required to discriminate the probable sensitizing species in vespid-allergic patients.

摘要

背景

蜂种之间的交叉反应性因毒液的不同过敏原成分而异。因此,必须确定致敏的真正来源,以确保毒液免疫疗法的疗效。

目的

在地中海地区,Polistes dominulus 和 Vespula spp. 是临床上相关的共同居住的黄蜂。使用一组主要的黄蜂毒液过敏原来研究血清特异性 IgE(sIgE)是否可用于区分对任何一种黄蜂的致敏。

方法

研究了 59 名对黄蜂蜇伤过敏且 ImmunoCAP 和/或黄蜂毒液皮试阳性的个体。使用 ADVIA Centaur(®)系统测定针对每种黄蜂的重组和天然毒液成分的 sIgE。

结果

在接受测试的 52%(13/25)患者中检测到针对重组抗原 5s 的 sIgE 致敏。当使用天然抗原 5s 时,敏感性增加到 80%(20/25),当使用纯化天然成分的完整组时,敏感性增加到 100%,因为 sIgE 对两种黄蜂的抗原 5s(Pol d 5/Ves v 5)或磷脂酶(Pol d 1/Ves v 1)中的任一种呈阳性,或者同时对这两种成分呈阳性。在 69%的情况下,可以确定最可能的致敏昆虫,而在其余情况下,不能排除可能的双重致敏。Vespula hyaluronidase 显示在该测定的特异性方面没有额外的价值。

结论

P. dominulus 和 Vespula vulgaris 毒液的主要过敏原,即磷脂酶和抗原 5s,是区分黄蜂过敏患者中可能致敏的物种所必需的。

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