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Test for human bioopløselighed af jordforureninger

10 Referencer

/1/ Grøn, C. and Andersen, L. Human bioaccessibility of heavy metals and PAH from soil. 2003. Miljøstyrelsen.

/2/ Ruby,MV, Davis,A, Schoof,R, Eberle,S, Sellstone,CM: Estimation of Lead and Arsenic Bioavailability Using a Physiologically Based Extraction Test. Environmental Science & Technology 30:422-430, 1996

/3/ Kelley,NE, Brauning,SE, Schoof,RA, Ruby,MV: Assessing Oral Bioavailability of Metals in Soil. Journal of Hazardous Materials 95:331-334, 2002

/4/ Drexler, J. The In-Vitro Method. 26-4-2005.

/5/ Schroeder,JL, Basta,NT, Casteel,SW, Evans,T, Payton,M, Si,J: Validation of the In Vitro Gastrointestinal (IVG) Method to Estimate Relative Bioavailable Lead in Contaminated Soils. Journal of Environmental Quality 33:513-521, 2004

/6/ Schroeder,JL, Basta,NT, Si,J, Casteel,SW, Evans,T, Payton,M: In Vitro Gastrointestinal Method to Estimate Relative Bioavailable Cadmium in Contaminted Soil. Environmental Science & Technology 37:1365-1370, 2003

/7/ Ellickson,KM, Meeker,RJ, Gallo,MA, Buckley,B, Lioy,PJ: Oral Bioavailability of Lead and Arsenic from a NIST Standard Reference Soil Material. Archives of Environmental Contamination and Toxicology 40:128-135, 2001

/8/ Oomen, A. G., Rompelberg, C J M, Bruil, M. A., Dobbe, C. J. G., Pereboom, D. P. K. H., and Sips, A. J. A. M. Development of an in vitro digestion model for estimating the bioaccessibility of soil contaminants. Archives of Environmental Contamination and Toxicology 44, 281-287. 2003.

/9/ Versantvoort,CHM, Oomen,AG, van de Kamp,E, Rompelberg,CJM, Sips,AJAM: Application of an in vitro digestion model in assessing the bioaccessibility of mycotoxins in food. Food and Chemistry Toxicology 43:31-40, 2005

/10/ Deutches Institut für Normung. Resorptionsverfügbarkeit von organischen und anorganischen Schadstoffen aus kontaminierten Bodenmaterial. (DIN 19738). 2000. Berlin, DIN.

/11/ van de Wiele, T., Oomen, A. G., Wragg, J., Cave, M. R., Minekus, M., Hack, A., Cornelis, C., Rompelberg, C J M, Zwart, L. de, Klinck, B. A., Wijnen, J. van, Verstraete, W., and Sips, A. J. A. M. Comparison of five in vitro digestion models with in vivo data: lead bioaccessibility in the human gastrointestinal tract. Draft manuscript . 2004.

/12/ Oomen,AG, Hack,A, Minekus,M, Zeijdner,E, Cornelis,C, Schoeters,G, Verstraete,W, van de Wiele,T, Wragg,J, Rompelberg,CJM, Sips,AJAM, van Wijnen,JH: Comparison of Five In Vitro Digestion Models To Study the Bioaccessibility of Soil Contaminants. Environmental Science & Technology 36:3326-3334, 2002

/13/ Casteel,SW, Cowart,RP, Weis,CP, Henningsen,GM, Hoffman,E, Brattin,WJ, Guzman,RE, Starost,MF, Payne,JT, Stockham,WJ, Becker,SV, Drexler,JW, Turk,JR: Bioavailability of Lead to Juvenile Swine Dosed with Soil from the Smuggler Mountain NPL Site of Aspen, Colorado. Fundamental and Applied Toxicology 36:177-187, 1997

/14/ Hack, A., Welge, P., Wittsiepe, J., and Wilhelm, M. Aufnahme und Bilanzierung (Bioverf¨gbarkeit) ausgewählter Bodenkontaminanten im Tiermodel (Minischwein). 2002. Bochum, Ruhr-Universität Bochums.

/15/ Hettiarachchi,GM, Pierzynski,GM, Oehme,FW, Ryan,JA: Treatment of contaminated soil with phosphorous and manganese oxide reduces lead absorption by Sprague-Dawley rats. Journal of Environmental Quality 32:1335-1345, 2003

/16/ Ruby,MV, Davis,A, Link,TE, Schoof,R, Chaney,RL, Freeman,GB, Bergstrom,PD: Development of an in Vitro Screening Test to Evaluate the in Vivo Bioaccessibility of Ingested Mine-Waste Lead. Environmental Science & Technology 27:2870-2877, 1993

/17/ Maddaloni,M, Lolacono,N, Manton,W, Blum,C, Drexler,J, Graziano,J: Bioavailability of Soilborne Lead in Adults, by Stable Isotope Dilution. Environmental Health Perspectives 106, supplement 6:1589-1594, 1998

/18/ Koganti,A, Spina,DA, Rozett,K, Ma,B-L, Weyand,EH, Taylor,BB, Mauro,DM: Studies on the Applicability of Biomarkers in Estimating the Systemic Bioavailability of Polynuclear Aromatic Hydrocarbons from Manufactured Gas Plant Tar-Contaminated Soils. Environmental Science & Technology 32:3104-3112, 1998

/19/ Magee,B, Dolan,DG, Paley,DA, Weyand,EH: Benzo(a)pyrene bioavailability frorm residential soils. Toxicological Sciences 48:11, 1999

/20/ Ruby,MV, Schoof,R, Brattin,WJ, Coldade,M, Post,G, Harnois,M, Mosby,DE, Casteel,SW, Berti,W, Carpenter,M, Edwards,D, Cragin,D, Chappell,W: Advances in Evaluating the Oral Bioavailability of Inorganics in Soil for Use in Human Health Risk Assessment. Environmental Science & Technology 33:3697-3705, 1999

/21/ Ryan,JA, Scheckel,KG, Berti,W, Brown,SL, Casteel,SW, Chaney,RL, Hallfrisch,J, Doolan,M, Grevatt,P, Maddaloni,M, Mosby,DE: Reducing CHildren's Risk from Lead in Soil. Environmental Science & Technology 38:18A-24A, 2004

/22/ Henningsen, G. M., Weis, Chr. P., Casteel, S. W., Brown, S. L., Hoffman, E., Brattin, W. J., Drexler, J., and Christensen, S. Differential absorption of lead in 20 soils from superfund mine-waste sites. 15-4-1999.

/23/ Polák, J., O'Flaherty, E. J., Freeman, G., Johnson, J. D., Liao, S. C., and Bergstrom, P. D. Evaluating Lead Bioavailability Data by Means of a Physiologically Based Lead Kinetic Model. Fundamental and Applied Toxicology 29, 63-70. 1996.

/24/ Grøn, C. and Andersen, L. Human bioaccessibility of heavy metals and PAH from soil. 2003. Miljøstyrelsen.

/25/ Miljøstyrelsen. Afskæringskriterier for forurenet jord. 425. 1998. København, Miljøstyrelsen. Miljøprojekt.

/26/ Miljøstyrelsen. Toksikologiske kvalitetskriterier for jord og drikkevand. 12, 91. 1995. Miljøstyrelsen. Projekt om jord og grundvand.

/27/ Miljøstyrelsen. Rådgivning af beboere i lettere forurenede områder. 2000.

/28/ Miljøstyrelsen. Datablad vedrørende jordkvalitetskriterium for PAH forbindelser. 1999.

/29/ Nielsen, E., Østergaard, G., Larsen, J. C., and Ladefoged, O. Principper for sundhedsmæssig vurdering af kemiske stoffer med henblik på fastsættelse af kvalitetskriterier for luft, jord og vand. 974. 2004. Miljøstyrelsen. Miljøprojekt.

/30/ Kriteriegruppen. Særlig vurdering af bly og PAH. 2004. Miljøstyrelsen.

/31/ Ruy,JE, Ziegler,EE, Nelson,SE, Fomon,SJ: Dietary intake of lead and blood lead concentration in early infancy. Am.J.Dis.Child. 137:886-891, 1983

/32/ Sherlock,JC, Quinn,MJ: Relationship between blood lead concentrations and dietary lead intake in infants; The Glasgow Duplicate Diet Study 1979-1980. Food Additives and Contaminants 3:167-176, 1986

/33/ WHO. Cadmium. In Toxicological evaluation of certain food additives and contaminants. 33rd meeting. World Health Organisation. WHO food additive series. 1989. Geneve.

/34/ ECB. Risk Assessment Cadmium Oxide. http://ecb.jrc.it/php-bin/searchv6.php# Draft. 2003.

/35/ Rahola T, Aran RK, Miettenen JK: Half-time studies of mercury and cadmium by whole-body counting. In Assessment of radioactive contamination in man. New York, 1972,

/36/ Kitamura, M. Absorption and deposition of cadmium, especially in human subjects. 11, 420-445. 1972. Tokyo, Japan Public Health Association.

/37/ Yamagata, H., Iwashima, K., and Nagai, T. Gastro-intestinal absorption of cadmium in normal humans. Japan Public Health Association. Kankyo Hoken Report No. 31 (in Japanese), 84-85. 1974.

/38/ Flanagan,PR, McLellan,JS, Haist,J, Cherian,MF, Chamberlain,MJ, & Valberg,LS: Increased dietary cadmium absorption in mice and human subjects with iron deficiency. Gastroenterology 74:841-846, 1978

/39/ Shaikh ZA, Smith JC: Metabolism of orally ingested cadmium in humans. In Mechanisms of toxicity and hazard evaluation. Elsevier/North Holland, Ed. Amsterdam, 1980, p. 569-574

/40/ Larsen, P. B. Evaluation of health hazards by exposure to nickel and estimation of quality criterion in soil. Miljøstyrelsen. 1997.

/41/ WHO. Nickel. 108, 383. 1991. Geneve, World Health Organisation. Environmental Health Criteria.

/42/ Sunderman, F.W.Jr., Hopfer, S. M., Sweeney, K. C., Marcus, A. H., Most, B. M., and Creason, J. Nickel absorption and kinetics in human volunteers. 191(Proc. Soc. exp. Biol. Med.), 5-11. 1989.

/43/ Solomons,MW, Vieteri,F, Shuler,TR, Nielsen,FH: Bioavailability of nickel in man: Effects of foods and chemically-defined constituents on the absorption of inorganic nickel. Nutr. 112:39-50, 1982

/44/ WHO. Guidelines for drinking-water quality. Vol 2 Health criteria and other supporting information. World Health Organisation. International Programme on Chemical Safety, Geneve, 973. 1996.

/45/ Neal, J. and Rigdon, R. H. Gastric tomours in mice fed benzo(a)pyrene: a quantitative study. Texas reports on biology and medicine. 25, 553-557. 1967.

/46/ Neal, J. and Rigdon, R. H. Absorption and excretion of benzpyrene when fed to mice. Texas reports on biology and medicine. 22, 156-164. 1964.

/47/ Kelley,NE, Brauning,SE, Schoof,RA, Ruby,MV: Assessing Oral Bioavailability of Metals in Soil. Journal of Hazardous Materials 95:331-334, 2002

/48/ Deutches Institut für Normung. Resorptionsverfügbarkeit von organischen und anorganischen Schadstoffen aus kontaminierten Bodenmaterial. (DIN 19738). 2000. Berlin, DIN.

/49/ Oomen, A. G., Rompelberg, C J M, Bruil, M. A., Dobbe, C. J. G., Pereboom, D. P. K. H., and Sips, A. J. A. M. Development of an in vitro digestion model for estimating the bioaccessibility of soil contaminants. Archives of Environmental Contamination and Toxicology 44, 281-287. 2003.

/50/ Oomen, A. G. RIVM. 2003.

/51/ Wittsiepe,J, Schrey,P, Hack,A, Selenka,F, Wilhelm,M: Comparison of different digestive tract models for estimating bioaccessibility of polychlorinated dipenzo-p-dioxins and dibenzofurans (PCDD/F) from red slag "Kieselrot". International Journal of Hygiene and Environmental Health 203:263-273, 2001

/52/ Kelley ME, Brauning SE, Schoof RA, Ruby MV: Assessing Oral Bioavailability of Metals in Soil. 2002,

/53/ Hack,A, Selenka,F: Mobilization of PAH and PCB from contaminated soil using a digestive tract model. Toxicology Letters 88:199-210, 1996

/54/ Hack,A, Selenka,F, Wilhelm,M: Mobilisierung von PAK durch synthetische Verdauungssäfte aus dem kontaminierten Bodenmaterial einer Altlastenfläche. Umweltmedizin in Forschung und Praxis 3:275-280, 1998

/55/ Rotard, W., Christmann, W., Knoth, W, and Mailahn, W. Bestimmung der resorptionsverfüghbaren PCDD/PCDF aus Kieselrot. UWSF-Z Umweltchem Ökotox 7, 3-9. 1995.

/56/ Ruby,MV, Fehling,KA, Paustenbach,DJ, Landenberger,BD, Holsapple,MP: Oral Bioaccessibility of Dioxins/Furans at Low Concentrations (50-350 ppt Toxicity Equivalent) in Soil. Environmental Science & Technology 36:4905-4911, 2002

/57/ Versantvoort, C. H. M., van de Kamp, E., and Rompelberg, C. J. M. Development and applicability of an in vitro digestion model in assessing the bioaccessibility of contaminants from food. 320102002. 2004. Bilthoven, The Netherlands, RIVM. RIVM report.

/58/ Miljøstyrelsen. Prøvetagning og analyse af jord. 13. 1998. København, Miljøstyrelsen. Vejledninger.

/59/ Miljø- og Energiministeriet. Bekendtgørelse om kvalitetskrav til miljømålinger udført af akkrediterede laboratorier, certificerede personer m.v. Bekendtgørelse 637. 30-6-1997.

/60/ Oomen,AG, Hack,A, Minekus,M, Zeijdner,E, Cornelis,C, Schoeters,G, Verstraete,W, van de Wiele,T, Wragg,J, Rompelberg,CJM, Sips,AJAM, van Wijnen,JH: Comparison of Five In Vitro Digestion Models To Study the Bioaccessibility of Soil Contaminants. Environmental Science & Technology 36:3326-3334, 2002

/61/ Hack, A., Welge, P., Wittsiepe, J., and Wilhelm, M. Aufnahme und Bilanzierung (Bioverf¨gbarkeit) ausgewählter Bodenkontaminanten im Tiermodel (Minischwein). 2002. Bochum, Ruhr-Universität Bochums.

/62/ Stuckert, K. and Grøn, C. Håndbog i analysekvalitet for laboratoriebrugere. 2001-4. 2001. København, Denmark, Amternes Videncenter for Jordforurening. Teknik og Administration.

/63/ Oomen, A. G. RIVM. 2003.

/64/ Kelley ME, Brauning SE, Schoof RA, Ruby MV: Assessing Oral Bioavailability of Metals in Soil. 2002,

/65/ Green-Pedersen, H. and Andersen, K. J. Homogenisering og delprøvetagning af jordprøver til sporelementanalyse. 2002. Miljøstyrelsens Referencelaboratorium for Miljøkemiske Analyser.

/66/ ISO. Soil Quality - Pretreatment of Samples for Physico - Chemical Analysis. ISO 11464.

/67/ Lund, U. O., Andersen, K. J., and Sørensen, P. S. Håndbog i metodevalidering for miljølaboratorier. 29-12-1994.

/68/ Grøn, C., Asmussen, O. W., and Samsøe-Petersen, L. Human bioopløselighed af jordforureninger. 1-6-2004. Miljøstyrelsen.

/69/ Liu,Q, Liu,Y: Distribution of Pb(II) species in aqueous solution. Journal of Colloid and Interfase Science 268:266-269, 2003

/70/ Versantvoort, C. H. M., van de Kamp, E., and Rompelberg, C. J. M. Development and applicability of an in vitro digestion model in assessing the bioaccessibility of contaminants from food. 320102002. 2004. Bilthoven, The Netherlands, RIVM. RIVM report.

/71/ Plantedirektoratet. Fælles arbejdsmetoder for jordbundsanalyser. 1994. Landbrugsministeriet.

/72/ Hansen, H. C. B. Environmental Soil Chemistry. 1998. Royal Veterinary and Agricultural University.

/73/ Alexander,M: How Toxic are Toxic Chemicals in Soil? Environmental Science & Technology 29:2713-2717, 1995

/74/ Alexander,M: Aging, Bioavailability, and Overestimation of Risk from Environmental Pollutants. Environmental Science & Technology 34:4259-4265, 2000

/75/ Alexander, M. and Kottler, B. D. Relationship of properties of polycyclic aromatic hydrocarbons to sequestration in soil. Environmental Pollution 113(3), 293-298. 2001.

/76/ Alexander,RR, Alexander,M: Bioavailability of Genotoxic Compounds in Soils. Environmental Science & Technology 34:1589-1593, 2000

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Version 1.0 Maj 2006, © Miljøstyrelsen.