克拉科夫空气中桦树（桦木属）花粉粒及过敏原的定量分析。

Quantification of airborne birch (Betula sp.) pollen grains and allergens in Krakow.

作者信息

Madeja Jacek, Wypasek Ewa, Plytycz Barbara, Sarapata Krzysztof, Harmata Krystyna

机构信息

Institute of Botany, Jagiellonian University, Krakow, Poland.

出版信息

Arch Immunol Ther Exp (Warsz). 2005 Mar-Apr;53(2):169-74.

PMID:15928586

Abstract

INTRODUCTION

Birch (Betula sp.) pollen grains are the main cause of seasonal allergies in northern and central Europe. The allergen particles released from the grains are often well distributed in the air. Due to their size, airborne protein particles can easily penetrate into the lower parts of the respiratory airways and may lead to symptoms of asthma. The purpose of this paper was to quantify both Betula sp. pollen grains and allergens in the air.

MATERIAL/METHODS: Materials for the investigation were collected in the spring of 2003 with two Hirst-type pollen volumetric traps. Tapes from one trap served for routine birch pollen grain counts, while those from the second for the immunodetection of birch allergens. As birch pollen allergen concentration is seen as dark spots on X-ray films densitometric measurements of the spots were used to quantify birch-pollen antigen concentrations in the air.

RESULTS

In most instances, birch pollen counts corresponded with birch pollen allergen levels. However, on several occasions outside the pollen season, only grains or only allergens were detected. Apart from sampling variability, this could be due to faulty/dead pollen grains or submicronic airborne allergen particles.

CONCLUSIONS

Counting intact pollen grains and antibody-based detection of allergen molecules are efficient tools in controlled allergen avoidance.

摘要

引言

桦树（Betula sp.）花粉粒是北欧和中欧季节性过敏的主要原因。花粉粒释放出的过敏原颗粒通常在空气中分布良好。由于其大小，空气中的蛋白质颗粒能够轻易穿透呼吸道的下部，可能导致哮喘症状。本文的目的是对空气中的桦树花粉粒和过敏原进行定量。

材料/方法：2003年春季，使用两个赫斯特型花粉体积捕集器收集调查材料。一个捕集器的胶带用于常规桦树花粉粒计数，另一个的胶带用于桦树过敏原的免疫检测。由于桦树花粉过敏原浓度在X射线胶片上表现为黑点，因此通过对这些黑点进行光密度测量来定量空气中的桦树花粉抗原浓度。

结果

在大多数情况下，桦树花粉计数与桦树花粉过敏原水平相符。然而，在花粉季节之外的几次检测中，只检测到了花粉粒或只检测到了过敏原。除了采样变异性外，这可能是由于有缺陷/死亡的花粉粒或亚微米级空气中的过敏原颗粒造成的。

结论

计数完整的花粉粒和基于抗体的过敏原分子检测是控制过敏原避免的有效工具。

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克拉科夫空气中桦树（桦木属）花粉粒及过敏原的定量分析。

Quantification of airborne birch (Betula sp.) pollen grains and allergens in Krakow.

作者信息

机构信息

出版信息

INTRODUCTION

RESULTS

CONCLUSIONS

引言

结果

结论

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