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1 Species differences in hepatic peroxisome proliferation, cell replication and transforming growth factor-β1 gene expression in the rat, Syrian hamster and guinea pig
article 2000    
Author: Lake, B.G. · Rumsby, P.C. · Price, R.J. · Cunninghame, M.E.
Keywords: Hepatic peroxisome proliferation · Replicative DNA synthesis · Species differences · Syrian hamster · Transforming growth factor-β1 · ciprofibrate · messenger RNA · methylclofenapate · peroxisome proliferator · peroxisome proliferator activated receptor · pirinixic acid · somatomedin B receptor · transforming growth factor beta1 · animal model · animal tissue · cell division · controlled study · DNA synthesis · enzyme activity · fatty acid oxidation · liver weight · nonhuman · species difference · Syrian hamster · Animals · Cell Division · Clofenapate · Clofibric Acid · Cricetinae · DNA · Gene Expression · Guinea Pigs · Liver · Male · Mesocricetus · Molecular Structure · Organ Size · Peroxisome Proliferators · Pyrimidines · Rats · Rats, Sprague-Dawley · Receptor, IGF Type 2 · Species Specificity · Transforming Growth Factor beta · Cavia · Cavia porcellus · Cricetinae · Mesocricetus auratus · Rodentia · Sus scrofa · Zea mays
[Abstract]

2 Repeated exposure to furfural vapour: 13-week study in syrian golden hamsters
article 1979    
Author: Feron, V.J. · Kruysse, A. · Dreef Van Der Meulen, H.C.
Keywords: Furfural · Animal experiment · Cigarette smoking · Drug toxicity · Eye · Histology · Inhalational drug administration · Intoxication · Nose · Nose mucosa · Olfactory epithelium · Olfactory system · Respiratory system · Syrian hamster · Toxicity · Visual system · Animal · Atrophy · Epithelium · Female · Furaldehyde · Hamsters · Male · Mesocricetus · Olfactory Mucosa · Plants, Toxic · Smoke · Smoking · Tobacco · Volatilization
[Abstract]

3 Novel non-systemic inhibitor of ileal apical Na+-dependent bile acid transporter reduces serum cholesterol levels in hamsters and monkeys
article 2006    
Author: Kitayama, K. · Nakai, D. · Kono, K. · Hoop, A.G. van der · Kurata, H. · Wit, E.C. de · Cohen, L.H. · Inaba, T. · Kohama, T.
Keywords: Biology · Apical sodium-dependent bile acid transporter · Cholesterol · Enterohepatic circulation · Hamster · Hypocholesterolemic agent · Monkey · Carbon 14 · Cholesterol · High density lipoprotein cholesterol · Ileum apical bile acid transporter inhibitor · Phospholipid · Piperidine derivative · R 146224 · Taurocholic acid · Triacylglycerol · Tritium · Unclassified drug · Bile acid · Carrier protein · Cotransporter · Organic anion transporter · Quinoline derivative · Sodium · Sodium bile acid cotransporter · Sodium-bile acid cotransporter · Absorption · Animal experiment · Animal tissue · Bile duct fistula · Bile flow · Cholesterol blood level · Cholesterol esterification · Concentration response · Controlled study · Diet · Dose response · Drug mechanism · Embryo · Feeding · Human cell · Hypercholesterolemia · Hypolipemia · Inhibition kinetics · Time · Triacylglycerol blood level · Urinary excretion · Biosynthesis · Blood · Cell line · Drug antagonism · Drug effect · Genetics · In vitro study · Macaca · Metabolism · Physiology · Sprague Dawley rat · Syrian hamster · Animals · Anticholesteremic Agents · Bile Acids and Salts · Cell Line · Cholesterol · Cricetinae · Humans · Ileum · Macaca fascicularis · Male · Membrane Transport Proteins · Mesocricetus · Organic Anion Transporters, Sodium-Dependent · Piperidines · Quinolines · Rats · Rats, Sprague-Dawley · Sodium · Symporters · Taurocholic Acid
[Abstract]

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