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Xenobiotica
the fate of foreign compounds in biological systems
Volume 9, 1979 - Issue 2
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Original Article

Metabolism of Chlorodiphenyl Ethers and Irgasan® DP 300

M. Th. M. Tulp Laboratory of Environmental and Toxicological Chemistry, University of Amsterdam, Nieuwe Achtergracht 166, 1018 WV, Amsterdam, the Netherlands
,
G. Sundström Laboratory of Environmental and Toxicological Chemistry, University of Amsterdam, Nieuwe Achtergracht 166, 1018 WV, Amsterdam, the Netherlands; National Swedish Environmental Protection Board, Wallenberg-laboratoriet, Lila Frascati, S104 05, Stockholm, 50, Sweden
,
L. B. J. M. Martron Laboratory of Environmental and Toxicological Chemistry, University of Amsterdam, Nieuwe Achtergracht 166, 1018 WV, Amsterdam, the Netherlands
&
O. Hutzinger Laboratory of Environmental and Toxicological Chemistry, University of Amsterdam, Nieuwe Achtergracht 166, 1018 WV, Amsterdam, the Netherlands
Pages 65-77 | Received 28 Mar 1978, Published online: 30 Sep 2009

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Lisa M. Weatherly & Julie A. Gosse. (2017) Triclosan exposure, transformation, and human health effects. Journal of Toxicology and Environmental Health, Part B 20:8, pages 447-469.
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Rekha E. Thomas & Anne T. Kotchevar. (2010) Comparative in vitro metabolism of chloroxylenol, chlorophene, and triclosan with rat, mouse, and human hepatic microsomes. Toxicological & Environmental Chemistry 92:9, pages 1735-1747.
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JIA-LONG Fang, ROBINL. STINGLEY, FREDERICKA. BELAND, WAFA HARROUK, DEBBIEL. LUMPKINS & PAUL HOWARD. (2010) Occurrence, Efficacy, Metabolism, and Toxicity of Triclosan. Journal of Environmental Science and Health, Part C 28:3, pages 147-171.
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L.-J. Chen, E. H. Lebetkin, J. M. Sanders & L. T. Burka. (2006) Metabolism and disposition of 2,2′,4,4′,5-pentabromodiphenyl ether (BDE99) following a single or repeated administration to rats or mice. Xenobiotica 36:6, pages 515-534.
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J. Koistinen. (1998) PCDES: Sources and environmental fate. Toxicological & Environmental Chemistry 66:1-4, pages 27-35.
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KimberlyL. Rosiak, Byung‐Woun Seo, Ih Chu & B. Magnus Francis. (1997) Effects of maternal exposure to chlorinated diphenyl ethers on thyroid hormone concentrations in maternal and juvenile rats. Journal of Environmental Science and Health, Part B 32:3, pages 377-393.
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M. Becker, T. Phillips & S. Safe. (1991) Polychlorinated diphenyl ethers—A review. Toxicological & Environmental Chemistry 33:3-4, pages 189-200.
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TerryL. Miller, DavidJ. Lorusso, MarilynL. Walsh & MaxL. Deinzer. (1983) The acute toxicity of penta‐, hexa‐, and heptachlorohydroxydiphenyl ethers in mice. Journal of Toxicology and Environmental Health 12:2-3, pages 245-253.
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F. C. P. Law & S. Chakrabarti. (1983) Irreversible Binding of 14C-Diphenyl Ether-Derived Radioactivity to Liver Microsomes in vitro and Tissoe Proteins in vivo. Drug and Chemical Toxicology 6:3, pages 285-294.
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F. C. P. Law, Y. Y. Song & S. Chakrabarti. (1983) Disposition and metabolism of diphenyl ether in rats. Xenobiotica 13:10, pages 627-633.
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TerryL. Miller, DavidJ. Lorusso & MaxL. Deinzer. (1982) The acute toxicity of nonachloropredioxin and 3‐ and 4‐hydroxynonachlorodiphenyl ether in mice. Journal of Toxicology and Environmental Health 10:4-5, pages 699-707.
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DavidJ. Lorusso, TerryL. Miller & MaxL. Deinzer. (1981) Effect of hydroxychlorodiphenyl ethers (chlorinated pre‐and isopredioxins) on erythrocyte membrane adenosinetriphosphatase activity. Journal of Toxicology and Environmental Health 8:1-2, pages 215-223.
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TerryL. Miller & MaxL. Deinzer. (1980) Effects of nonachloropredioxin and other hydroxychlorodiphenyl ethers on biological membranes. Journal of Toxicology and Environmental Health 6:1, pages 11-25.
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Yubin Yang, Jingyu Ding, Xuanyan Zhu, Zilu Tian & Song Zhu. (2023) Triclosan to Improve the Antimicrobial Performance of Universal Adhesives. Polymers 15:2, pages 304.
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Shengtao Ma, Guofa Ren, Kewen Zheng, Juntao Cui, Pei Li, Xiaomei Huang, Meiqing Lin, Ranran Liu, Jing Yuan, Wenjun Yin, Ping’an Peng, Guoying Sheng & Zhiqiang Yu. (2022) New Insights into Human Biotransformation of BDE-209: Unique Occurrence of Metabolites of Ortho-Substituted Hydroxylated Higher Brominated Diphenyl Ethers in the Serum of e-Waste Dismantlers. Environmental Science & Technology 56:14, pages 10239-10248.
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Oscar González-Davis, Kanchan Chauhan, Santino-Jesuín Zapian-Merino & Rafael Vazquez-Duhalt. (2020) Bi-enzymatic virus-like bionanoreactors for the transformation of endocrine disruptor compounds. International Journal of Biological Macromolecules 146, pages 415-421.
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Andreia Bolzan de Paula, Jesus Roberto Taparelli, Roberta Caroline Bruschi Alonso, Lúcia Helena Innocentini-Mei & Regina M. Puppin-Rontani. (2018) Synthesis and application of triclosan methacrylate monomer in resin composites. Clinical Oral Investigations 23:2, pages 965-974.
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Linyan Zhu, Ying Shao, Hongxia Xiao, Beatrix Santiago-Schübel, Henriette Meyer-Alert, Sabrina Schiwy, Daqiang Yin, Henner Hollert & Stephan Küppers. (2018) Electrochemical simulation of triclosan metabolism and toxicological evaluation. Science of The Total Environment 622-623, pages 1193-1201.
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Yuanfeng Wu, Priyanka Chitranshi, Lucie Loukotková, Gonçalo Gamboa da Costa, Frederick A. Beland, Jie Zhang & Jia-Long Fang. (2016) Cytochrome P450-mediated metabolism of triclosan attenuates its cytotoxicity in hepatic cells. Archives of Toxicology 91:6, pages 2405-2423.
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Anjali A. Tiwari & Niraj Ghnawate. (2017) Detection of Biofilm Forming Bacterial Communities from Urinary Catheter of Patients with Change in Its Antibiotic Susceptibility Pattern and Triclosan Effect from Different Hospitals of Amravati City Maharashtra, India. Open Journal of Medical Microbiology 07:03, pages 51-66.
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