Barnes C, Schreiber K, Pacheco F, Landuyt J, Hu F, Portnoy J
The Children's Mercy Hospital, Kansas City, Missouri 64108, USA.
Ann Allergy Asthma Immunol. 2000 Jan;84(1):47-54. doi: 10.1016/S1081-1206(10)62740-8.
Spore and pollen counts have been used traditionally to determine aeroallergen exposure. Using a liquid based collector and enzyme immunoassays, we have developed methods for measuring airborne allergen concentrations. In this work we test the hypothesis that airborne allergen concentrations are directly related to spore and pollen counts.
Test samplers used included a high-volume cyclonic liquid impinger (SpinCon) and a standard spore trap (Burkard). Samples were collected on a weekly basis from May to October and were analyzed microscopically for spores and pollen grains. The liquid samples were analyzed by enzyme-linked immunoassay for the presence of allergens from Alternaria, Cladosporium, Aspergillus, oak, fescue, ragweed, and plantain. Specific Alternaria allergens Alt al and GP70 also were measured.
Pollen counts for the SpinCon and Burkard collectors were similar, though spore counts were lower with the SpinCon. Detectable amounts of three of the seven allergenic species including fescue, ragweed, and Alternaria were present in air samples. Concentrations of pollens were seen in their respective seasons while fungal allergen levels varied throughout the period. Allergen levels generally agreed with particle counts, however peak allergen levels and peak particle counts for individual species did not correlate well.
At flow rates of 236 L/min, the SpinCon is comparable to the Burkard for counting airborne pollen and spores. Samples collected by the SpinCon permit quantitative determination of allergen levels in outdoor air. The poor correlation between measured airborne allergen and related particles indicates the potential for significant allergen exposure in the absence of identifiable particles in air.
传统上,孢子和花粉计数用于确定空气变应原暴露情况。我们使用基于液体的收集器和酶免疫测定法,开发了测量空气中变应原浓度的方法。在这项研究中,我们检验了空气中变应原浓度与孢子和花粉计数直接相关的假设。
使用的测试采样器包括大容量旋风式液体撞击器(SpinCon)和标准孢子捕捉器(Burkard)。从5月至10月每周收集样本,并通过显微镜分析孢子和花粉粒。通过酶联免疫测定法分析液体样本中链格孢属、枝孢属、曲霉属、橡树、羊茅、豚草和车前草变应原的存在情况。还测量了链格孢属特异性变应原Alt al和GP70。
SpinCon和Burkard收集器的花粉计数相似,不过SpinCon的孢子计数较低。空气样本中存在七种变应原物种中的三种可检测量,包括羊茅、豚草和链格孢属。花粉浓度在各自季节出现,而真菌变应原水平在整个期间有所变化。变应原水平总体上与颗粒计数一致,然而单个物种的变应原峰值水平和颗粒峰值计数相关性不佳。
在流速为236升/分钟时,SpinCon在计数空气中花粉和孢子方面与Burkard相当。SpinCon收集的样本允许定量测定室外空气中的变应原水平。测量的空气中变应原与相关颗粒之间的不良相关性表明,在空气中没有可识别颗粒的情况下,存在显著变应原暴露的可能性。