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Xenobiotica
the fate of foreign compounds in biological systems
Volume 19, 1989 - Issue 11
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Research Article

The use of porcine hepatocytes for biotransformation studies of veterinary drugs

L. A. P. Hoogenboom State Institute for Quality Control of Agricultural Products (RIKILT), PO Box 230, 6700AE, Wageningen, The Netherlands
,
F. J. H. Pastoor State Institute for Quality Control of Agricultural Products (RIKILT), PO Box 230, 6700AE, Wageningen, The Netherlands
,
W. E. Clous State Institute for Quality Control of Agricultural Products (RIKILT), PO Box 230, 6700AE, Wageningen, The Netherlands
,
S. E. Hesse State Institute for Quality Control of Agricultural Products (RIKILT), PO Box 230, 6700AE, Wageningen, The Netherlands
&
H. A. Kuiper State Institute for Quality Control of Agricultural Products (RIKILT), PO Box 230, 6700AE, Wageningen, The Netherlands
Pages 1207-1219 | Received 25 Sep 1988, Accepted 01 Jun 1989, Published online: 22 Sep 2008

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Ali Acikgöz, Shibashish Giri & Augustinus Bader. (2012) Detection of nanolevel drug metabolites in an organotypic culture of primary human hepatocytes and porcine hepatocytes with special reference to a two-compartment model. International Journal of Nanomedicine 7, pages 5859-5872.
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Jiin-Ju Guo, Hong-Nong Chou & I. Chiu Liao. (2003) Disposition of 3-(4-cyano-2-oxobutylidene amino)-2-oxazolidone, a cyano-metabolite of furazolidone, in furazolidone-treated grouper. Food Additives & Contaminants 20:3, pages 229-236.
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Koebe Hg, Mueller-Hoecker J, Koebe S & Schildberg Fw. (1995) Viable Porcine Hepatocytes from Slaughterhouse Organs. Artificial Cells, Blood Substitutes, and Biotechnology 23:5, pages 613-626.
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L. A. P. Hoogenboom, Th. H. G. Polman, A. Lommen, M. B. M. Huveneers & J. Van Rhijn. (1994) Biotransformation of furaltadone by pig hepatocytes and Salmonella typhimurium TA 100 bacteria, and the formation of protein-bound metabolites. Xenobiotica 24:8, pages 713-727.
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G. A. E. Van't Klooster, F. M. A. Woutersen-Van Nijnanten, B. J. Blaauboer, J. Noordhoek & A. S. J. P. A. M. Van Miert. (1994) Applicability of cultured hepatocytes derived from goat, sheep and cattle in comparative drug metabolism studies. Xenobiotica 24:5, pages 417-428.
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G. A. E. Van ‘t Klooster, F. M. A. Woutersen-Van Nijnanten, W. R. Klein, B. J. Blaauboer, J. Noordhoek & A. S. J. P. A. M. Van Miert. (1992) Effects of various medium formulations and attachment substrata on the performance of cultured ruminant hepatocytes in biotransformation studies. Xenobiotica 22:5, pages 523-534.
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Articles from other publishers (25)

Martin Krøyer Rasmussen, Galia Zamaratskaia & Bo Ekstrand. (2014) Comparable constitutive expression and activity of cytochrome P450 between the lobes of the porcine liver. Toxicology in Vitro 28:7, pages 1190-1195.
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Michael Maringka, Shibashish Giri & Augustinus Bader. (2010) Preclinical characterization of primary porcine hepatocytes in a clinically relevant flat membrane bioreactor. Biomaterials 31:1, pages 156-172.
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Angelika Langsch, Shibashish Giri, Ali Acikgöz, Inka Jasmund, Bernd Frericks & Augustinus Bader. (2009) Interspecies difference in liver-specific functions and biotransformation of testosterone of primary rat, porcine and human hepatocyte in an organotypical sandwich culture. Toxicology Letters 188:3, pages 173-179.
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C. Montesissa, F. Capolongo, A. Santi, G. Biancotto & M. Dacasto. (2004) Metabolism of tilmicosin by rabbit liver microsomes and hepatocytes. The Veterinary Journal 167:1, pages 87-94.
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S.L. Abrahamse, M.-P. Van De Kerkhove, M.N. Sosef, R. Hartman, R.A.F.M. Chamuleau & T.M. Van Gulik. (2018) Treatment of Acute Liver Failure in Pigs Reduces Hepatocyte Function in a Bioartificial Liver Support System. The International Journal of Artificial Organs 25:10, pages 966-974.
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C Eeckhoutte, A Giuliano Albo, M Carletti, A Rossetto Giaccherino, P Galtier, C Nebbia & M Dacasto. (2002) Time-dependent variations of drug-metabolising enzyme activities (DMEs) in primary cultures of rabbit hepatocytes. Toxicology in Vitro 16:4, pages 375-382.
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Laurentius A.P Hoogenboom, Gerard D van Bruchem, Kim Sonne, Ilona C Enninga, Johannes A van Rhijn, Henri Heskamp, Margot B.M Huveneers-Oorsprong, Jan C.M van der Hoeven & Harry A Kuiper. (2002) Absorption of a mutagenic metabolite released from protein-bound residues of furazolidone. Environmental Toxicology and Pharmacology 11:3-4, pages 273-287.
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Inka Jasmund & Augustinus Bader. 2002. Tools and Applications of Biochemical Engineering Science. Tools and Applications of Biochemical Engineering Science 99 109 .
Angelika Langsch & Augustinus Bader. (2001) Longterm stability of phase I and phase II enzymes of porcine liver cells in flat membrane bioreactors. Biotechnology and Bioengineering 76:2, pages 115-125.
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Martínez‐Larrañaga, Anadón, Fernandez‐Cruz, Díaz, Martinez, Frejo, Martínez & Tafur. (2008) Cytotoxicity in pig hepatocytes induced by 8‐quinolinol, chloramine‐T and natamycin. Journal of Veterinary Pharmacology and Therapeutics 23:1, pages 37-44.
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John M. Brameld, R. Stewart Gilmour & Peter J. Buttery. (1999) Glucose and Amino Acids Interact with Hormones to Control Expression of Insulin-Like Growth Factor-I and Growth Hormone Receptor mRNA in Cultured Pig Hepatocytes. The Journal of Nutrition 129:7, pages 1298-1306.
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M. Monshouwer, G.A.E. van't Klooster, S.M. Nijmeijer, R.F. Witkamp & A.S.J.P.A.M. van Miert. (1998) Characterization of cytochrome P450 isoenzymes in primary cultures of pig hepatocytes. Toxicology in Vitro 12:6, pages 715-723.
Crossref
M.B.M. Huveneers-Oorsprong, L.A.P. Hoogenboom & H.A. Kuiper. (1997) The use of the MTT test for determining the cytotoxicity of veterinary drugs in pig hepatocytes. Toxicology in Vitro 11:4, pages 385-392.
Crossref
L.A.P. Hoogenboom & H.A. Kuiper. (1997) The use of in vitro models for assessing the presence and safety of residues of xenobiotics in food. Trends in Food Science & Technology 8:5, pages 157-166.
Crossref
Elisabeth G. Jensen, Rune Thauland & Nils E. Soli. (2020) Measurement of Xenobiotic Metabolising Enzyme Activities in Primary Monolayer Cultures of Immature Rainbow Trout Hepatocytes at Two Acclimatisation Temperatures. Alternatives to Laboratory Animals 24:5, pages 727-740.
Crossref
H.G. Koebe & F.W. Schildberg. (2018) Isolation of Porcine Hepatocytes from Slaughterhouse Organs. The International Journal of Artificial Organs 19:1, pages 53-60.
Crossref
C. Montesissa, P. Anfossi, G. Van't Klooster & M. Mengelers. (1996) The use of cultured hepatocytes from goats and cattle to investigate xenobiotic oxidative metabolism. Veterinary Research Communications 20:5, pages 449-460.
Crossref
Anje A te Velde, Nita C.J.J. Ladiges, Leonard M. Flendrig & Robert A.F.M. Chamuleau. (1995) Functional activity of isolated pig hepatocytes attached to different extracellular matrix substrates. Implication for application of pig hepatocytes in a bioartificial liver. Journal of Hepatology 23:2, pages 184-192.
Crossref
I. De Angelis, L.A.P. Hoogenboom, M.B.M. Huveneers-Oorsprong, F. Zucco & A. Stammati. (1994) Established cell lines for safety assessment of food contaminants: Differing furazolidone toxicity to V 79, HEp-2 and Caco-2 cells. Food and Chemical Toxicology 32:5, pages 481-488.
Crossref
C. Montesissa, M.B.M. Huveneers, L.A.P. Hoogenboom, M. Amorena, M. De Liguoro & A. Lucisano. (1994) THE OXIDATIVE METABOLISM OF ALDICARB IN PIGS: IN VIVO - IN VITRO COMPARISON. Drug Metabolism and Drug Interactions 11:2.
Crossref
G. A. E. VAN T KLOOSTER, B.J. BLAAUBOER, J‐ NOORDHOEK & A. S.J. P. A. M. VAN MIERT. (2008) Sulfadimidine metabolism in vitro: II. comparative studies in cultured rat, goat, sheep and cattle hepatocytes. Journal of Veterinary Pharmacology and Therapeutics 16:4, pages 454-461.
Crossref
L.A.P. Hoogenboom, M. van Kammen, M.B.M. Huveneers-Oorsprong & H.A. Kuiper. (1992) Study on the role of glutathione in the biotransformation and toxicity of furazolidone using pig hepatocytes. Toxicology in Vitro 6:3, pages 227-237.
Crossref
L.A.P. Hoogenboom, M.B.M. Oorsprong, T. van Vliet & H.A. Kuiper. (1991) The use of pig hepatocytes for cytotoxicity studies of veterinary drugs: A comparative study with furazolidone and other nitrofurans. Toxicology in Vitro 5:1, pages 31-38.
Crossref
L.A.P. Hoogenboom, M. van Kammen, M.C.J. Berghmans, J.H. Koeman & H.A. Kuiper. (1991) The use of pig hepatocytes to study the nature of protein-bound metabolites of furazolidone: a new analytical method for their detection. Food and Chemical Toxicology 29:5, pages 321-328.
Crossref
L.A.P. Hoogenboom, O. Tomassini, M.B.M. Oorsprong & H.A. Kuiper. (1991) Use of pig hepatocytes to study the inhibition of monoamine oxidase by furazolidone. Food and Chemical Toxicology 29:3, pages 185-191.
Crossref

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