Evaluation of a Low-Cost Electrostatic Dust Fall Collector for Indoor Air Endotoxin Exposure Assessment

Exposure to endotoxin in home environments has become a key issue in asthma and allergy research. Most studies have analyzed floor or mattress dust endotoxin, but its validity as a proxy for airborne exposure is unknown, while active airborne dust sampling is not feasible in large-scale population s...

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Veröffentlicht in:	Applied and Environmental Microbiology 2008-09, Vol.74 (18), p.5621-5627
Hauptverfasser:	Noss, Ilka, Wouters, Inge M, Visser, Maaike, Heederik, Dick J.J, Thorne, Peter S, Brunekreef, Bert, Doekes, Gert
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Sprache:	eng
Schlagworte:	Air Pollution, Indoor - analysis Airborne particulates Animals Asthma Biological and medical sciences Dust Dust - analysis Endotoxins - analysis Environmental Monitoring - methods Floors and Floorcoverings Fundamental and applied biological sciences. Psychology Housing Housing, Animal Human exposure Humans Microbiology Public Health Microbiology Regression Analysis Sampling Specimen Handling - methods Static Electricity Textiles Toxins
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container_end_page	5627
container_issue	18
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container_title	Applied and Environmental Microbiology
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creator	Noss, Ilka Wouters, Inge M Visser, Maaike Heederik, Dick J.J Thorne, Peter S Brunekreef, Bert Doekes, Gert
description	Exposure to endotoxin in home environments has become a key issue in asthma and allergy research. Most studies have analyzed floor or mattress dust endotoxin, but its validity as a proxy for airborne exposure is unknown, while active airborne dust sampling is not feasible in large-scale population studies because of logistic and financial limitations. We therefore developed and evaluated a simple passive airborne dust collection method for airborne endotoxin exposure assessment. We explored an electrostatic dust fall collector (EDC), consisting of a 42- by 29.6-cm-sized folder with four electrostatic cloths exposed to the air. The EDC was tested during two 14-day periods in seven nonfarm and nine farm homes and in farm stables. In parallel, active airborne dust sampling was performed with Harvard impactors and floor dust collected by vacuuming, using nylon sampling socks. The endotoxin levels could be measured in all EDC cloth extracts. The levels (in EU/m²) between EDCs used simultaneously or in different sampling periods in the same home correlated strongly (r > 0.8). EDC endotoxin also correlated moderately to strongly (r = 0.6 to 0.8) with the endotoxin measured by active airborne dust sampling and living room floor dust sampling and--in farm homes--with the endotoxin captured by the EDC in stables. In contrast, endotoxin levels measured by floor dust sampling showed only a poor correlation with the levels measured by active airborne dust sampling. We therefore conclude that measuring endotoxin levels with the EDC is a valid measure of average airborne endotoxin exposure, while reproducibility over time is at least equivalent to that of reservoir dust analyses.
doi_str_mv	10.1128/AEM.00619-08
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EDC endotoxin also correlated moderately to strongly (r = 0.6 to 0.8) with the endotoxin measured by active airborne dust sampling and living room floor dust sampling and--in farm homes--with the endotoxin captured by the EDC in stables. In contrast, endotoxin levels measured by floor dust sampling showed only a poor correlation with the levels measured by active airborne dust sampling. 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EDC endotoxin also correlated moderately to strongly (r = 0.6 to 0.8) with the endotoxin measured by active airborne dust sampling and living room floor dust sampling and--in farm homes--with the endotoxin captured by the EDC in stables. In contrast, endotoxin levels measured by floor dust sampling showed only a poor correlation with the levels measured by active airborne dust sampling. 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EDC endotoxin also correlated moderately to strongly (r = 0.6 to 0.8) with the endotoxin measured by active airborne dust sampling and living room floor dust sampling and--in farm homes--with the endotoxin captured by the EDC in stables. In contrast, endotoxin levels measured by floor dust sampling showed only a poor correlation with the levels measured by active airborne dust sampling. We therefore conclude that measuring endotoxin levels with the EDC is a valid measure of average airborne endotoxin exposure, while reproducibility over time is at least equivalent to that of reservoir dust analyses.</abstract><cop>Washington, DC</cop><pub>American Society for Microbiology</pub><pmid>18676704</pmid><doi>10.1128/AEM.00619-08</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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source	MEDLINE; American Society for Microbiology Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; PubMed Central; Alma/SFX Local Collection
subjects	Air Pollution, Indoor - analysis Airborne particulates Animals Asthma Biological and medical sciences Dust Dust - analysis Endotoxins - analysis Environmental Monitoring - methods Floors and Floorcoverings Fundamental and applied biological sciences. Psychology Housing Housing, Animal Human exposure Humans Microbiology Public Health Microbiology Regression Analysis Sampling Specimen Handling - methods Static Electricity Textiles Toxins
title	Evaluation of a Low-Cost Electrostatic Dust Fall Collector for Indoor Air Endotoxin Exposure Assessment
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