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Brominated flame retardants in office dust samples

Brominated flame retardants in office dust samples. Objectives. Materials and methods.

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Brominated flame retardants in office dust samples

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  1. Brominated flame retardants in office dust samples Objectives Materials and methods The main aim of this study was to investigate the occurrence of brominated flame retardants (PBDEs, PBBs and HBCD) in office dusts and contribute to the understanding of the human exposure pathways for these compounds. Samples of dusts were collected in Parliament buildings in a total of 8 countries (Austria, Denmark, Finland, Germany, Italy, Netherlands, Sweden and UK), and at one large internet/computer provider in The Netherlands during the year 2000. In all cases, samples of dust were obtained from the bags of vacuum cleaners in regular use for the purpose of cleaning the buildings in question. Samples were sieved (1.0 mm) to remove fibrous material and other large pieces. Dust was extracted with a Soxhlet apparatus, and the extracts were cleaned with GPC, silica gel and sulphuric acid, and finally analysed with GC-MS in the NCI mode. µg/kg dust 8000 7000 6000 5000 4000 3000 2000 1000 0 BDE-209 HBCD Results and Discussion Concentrations of the predominant brominated flame retardants are presented in table 1 (Figure 1). PBDEs were found in all samples. Residues of BDE-47 (9 – 320 µg/kg dust), BDE-99 (10 – 170 µg/kg dust), BDE-100 (2.5 – 36 µg/kg dust), and BDE-153 (5 – 59 µg/kg dust) were found, and BDE-209 was predominant in all samples (260 – 6900 µg/kg dust). The highest levels were found in dust samples collected from Italy. The lowest levels of BDE-99 Figure 1: Levels (µg/kg dust) of BDE-209 and HBCD in office dust. unknown Br-comp. BDE-47 PBDEs were reported in the three samples from offices of the internet provider in The Netherlands (Table 1, Figure 2). In offices with computers Sjodin et al. (2001) found predominantly congener BDE-209. The presence of BDE-209 in air (particle associated) and dust are probably the most important human exposure pathways, as BDE-209 is unlikely to be taken up by food as the levels in e.g. fish are mainly below the limit of detection. In spite of the low bioaccumulation potential of BDE-209, the presence of this compound in the particulate fraction in air and dust can probably further explain why BDE-209 has been reported in the blood of humans (Sjodin et al., 1999). A noteworthy finding was the relatively high levels of HBCD in some dust samples. In 15 of 18 samples HBCD was detected, and the levels varied from <3 to 3700 µg/kg dust. In addition, a number of unknown brominated compounds were detected (Figure 3). In conclusion, this study showed that brominated flame retardants (PBDEs and HBCD) were present in office dust.The results demonstrate that the possibility of continuous exposure of these compounds via inhalation of particles in offices is potentially an important route of human exposure. BDE-100 BDE-153 HBCD BDE-154 unknown Br-comp. unknown Br-comp. BDE-85 BDE-138 15.00 20.00 25.00 30.00 35.00 40.00 45.00 50.00 55.00 Figure 3: Analysis by gas chromatography/mass spectrometry (GC-MS) of a dust sample collected at the Parliament in the Netherlands, yielding an ion mass chromatogram of selected bromine ion isotopes (m/z 79 and 81). Table 1: Levels of PBDEs and HBCD (µg/kg dust) in samples of dust. P= Parliament building, I= internet/computer provider. Country Type BDE-47 BDE-85 BDE-99 BDE-100 BDE-138 BDE-153 BDE-154+ BDE-209 HBCD BB-153 Netherlands, Den Haag P 97 7.4 130 30 3.5 48 11 800 300 Finland, Helsinki P 180 7.5 160 36 1.9 22 9.4 1100 <13 Sweden, Stockholm P 78 3.1 68 19 <0.4 9.8 5.0 700 45 Italy, Rome P 89 3.3 59 15 2.3 21 5.4 6900 8.6 Italy, Rome P 110 11.2 170 23 4.7 59 9.2 4600 <4 Denmark, Copenhagen P 21 1.6 27 5.0 <0.3 6.1 5.2 470 20 Denmark, Copenhagen P 39 2.2 40 8.3 0.76 8.5 3.0 330 19 UK, London P 47 5.1 62 15 2.3 23 8.0 820 540 UK, London P 74 8.4 97 25 <0.04 48 13 1100 1650 UK, London P 320 6.6 92 22 <0.09 31 8.9 4500 3700 UK, London P 19 2.2 29 8.2 <0.08 11 <0.19 550 980 Austria, Vienna P 66 5.5 68 26 1.6 26 11 340 1800 Austria, Vienna P 64 5.4 72 23 <0.04 18 9.4 510 1800 Germany, Berlin P 80 2.9 50 14 <0.04 17 6.3 1500 940 Germany, Berlin P 8.6 0.87 12 3.4 <0.03 4.8 <0.07 290 820 Netherlands I 15 0.90 15 3.9 0.89 17 2.3 490 840 Netherlands I 10 <0.06 10 2.5 <0.2 6.3 <0.4 330 1400 Netherlands I 17 0.99 14 3.4 0.5 13 1.0 260 <3 1600 BDE-209 1400 HBCD 1200 1000 µg/kg dust 800 600 400 200 0 Sales Helpdesk Server room Figure 2: Levels of BDE-209 and HBCD in office dust of an internet provider from The Netherlands. Greenpeace Research Laboratories D. Santillo, K. Brigden and P. Johnston Department of Biological Sciences University of Exeter, Exeter EX4 4 PS, United Kingdom, email: D.Santillo@exeter.ac.uk Netherlands Institute for Fisheries Research (RIVO) P.E.G. Leonards, I. van der Veen, J. v. Hesselingen and J. de Boer P.O.Box 68, 1970 AB IJmuiden The Netherlands email: P.E.G.Leonards@rivo.wag-ur.nl References Sjodin et al. Environ. Sci. Techn. 2001, 35(3), 448-454. Sjodin et al. Environ. Health Persp., 1999, 107 (8), 643-648.

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