Your search keyword '"Krul, C.A.M."' showing total 5 results

1. The in vivo rat skin photomicronucleus assay: Phototoxicity and photogenotoxicity evaluation of six fluoroquinolones

Author

Reus, A.A., Usta, M., Kenny, J.D., Clements, P.J., Pruimboom-Brees, I., Aylott, M., Lynch, A.M., and Krul, C.A.M.

Subjects

skin, in vitro study, Biomedical Innovation, sparfloxacin, animal tissue, epidermis cell, in vivo study, gemifloxacin, phototoxicity, TNO Bedrijven, ciprofloxacin, gatifloxacin, carcinogenicity, quinoline derived antiinfective agent, micronucleus, controlled study, rat, levofloxacin, methoxsalen, nonhuman, Sprague Dawley rat, lomefloxacin, Research, genotoxicity, article, single drug dose, hairless mouse, micronucleus test, female, priority journal, TARA - Toxicology and Risk Assessment, histopathology, Triskelion BV, Healthy Living

Abstract

An in vivo photomicronucleus test (MNT) using rat skin, the target organ for photoirritancy and carcinogenicity, was recently described. The assay was evaluated using fluoroquinolone (FQ) antibiotics with varying degrees of phototoxic potency (i.e. sparflocacin [SPFX], lomefloxacin [LOFX], ciprofloxacin [CIFX], levofloxacin [LEFX], gemifloxacin [GEFX] and gatifloxacin [GAFX]) using a solar simulator producing both UVA and UVB (ratio 23:1). Experiments were performed at The Netherlands Organisation for Applied Scientific Research (TNO) and GlaxoSmithKline (GSK) to investigate interlaboratory variability, including evaluation of phototoxicity (clinical signs), micronucleus induction and histopathology. The potency of micronuclei (MN) formation in rat skin induced by the FQs was SPFX = LOFX > CIFX = LEFX, however, MN induction was only statistically significant for SPFX and LOFX. In both laboratories, GEFX and GAFX did not increase the MN frequencies compared to the irradiated vehicle control. Signs of phototoxicity, including clinical and histopathological changes, were observed with SPFX and LOFX to a similar degree as the positive control, 8-methoxypsoralen. In addition, there were some clinical signs of phototoxicity seen with CIFX, LEFX, GEFX and GAFX, but not always in both laboratories for CIFX, GEFX and GAFX and when observed, these were considered only mild. Of these, only LEFX also showed histopathological changes. In all studies, photogenotoxic potency correlated with photocarcinogenic potential and moreover, photogenotoxicity was not observed in the absence of phototoxicity. The results of the TNO/GSK study indicate that the in vivo rat skin photoMNT may be a promising tool for detection of photoclastogencity and photoirritancy in the skin/eye in the same animal. Given the association between the MNT and cancer, the skin photoMNT may also provide a promising tool for the early detection of photocarcinogenesis and help bridge the gap in the existing photosafety testing paradigm. © The Author 2012. Published by Oxford University Press on behalf of the UK Environmental Mutagen Society. All rights reserved.

Published

2012

2. Formation and removal of genotoxic activity during UV/H2O2-GAC treatment of drinking water

Author

Heringa, M.B., Harmsen, D.J.H., Beerendonk, E.F., Reus, A.A., Krul, C.A.M., Metz, D.H., Ijpelaar, G.F., and TNO Kwaliteit van Leven

Subjects

Biomedical Research, Photolysis, MSB - Microbiology and Systems Biology, Life, Oxidation, Drinking water, Genotoxicity, EELS - Earth, Environmental and Life Sciences, AOP, Nutrition, UV

Abstract

The objective of this study was to determine the genotoxic activity of water after UV/H2O2 oxidation and GAC filtration. Pre-treated surface water from three locations was treated with UV/H2O2 with medium pressure (MP) lamps and passed through granulated activated carbon (GAC). Samples taken before and after each treatment step were extracted and concentrated by solid phase extraction (SPE) and analyzed for genotoxicity using the Comet assay with HepG2 cells and the Ames II assay. The Comet assay showed no genotoxic response in any of the samples. In the Ames II, no genotoxic response was obtained with the TAMix (a mix of six strains), but the TA98 strain showed an increase in genotoxic activity after MP-UV/H2O2 for all three locations. GAC post treatment effectively reduced the activities to control levels at two of the three locations and to below the level of the pre-treated water at one site. The results indicate that UV/H2O2 treatment may lead to the formation of genotoxic by-products, which can be removed by subsequent GAC filtration. © 2010 Elsevier Ltd.

Published

2011

3. Carcinogenicity

Author

Maurici, D., Aardema, M., Corvi, R., Kleber, M., Krul, C.A.M., Laurent, C., Loprieno, N., Pasanen, M., Pfuhler, S., Phillips, B., Prentice, D., Sabbioni, E., Sanner, T., Vanparys, P., and TNO Kwaliteit van Leven

Subjects

Biomedical Research, Carcinogenicity Tests, review, Quantitative Structure-Activity Relationship, cell transformation, Mice, Transgenic, Cosmetics, Animal Testing Alternatives, gap junction, Mice, carcinogenicity, heterozygosity, Animals, Animalia, Mus musculus, European Union, Cells, Cultured, standardization, cell culture, nonhuman, genotoxicity, risk assessment, Gap Junctions, cell communication, Rats, transgenic mouse, animal testing alternative, Cell Transformation, Neoplastic, priority journal, Health, validation process, Consumer Product Safety, Carcinogens, carcinogenesis

Published

2005

4. Genotoxicity and mutagenicity

Author

Maurici, D., Aardema, M., Corvi, R., Kleber, M., Krul, C.A.M., Laurent, C., Loprieno, N., Pasanen, M., Pfuhler, S., Phillips, B., Sabbioni, E., Sanner, T., Vanparys, P., and TNO Kwaliteit van Leven TNO Voeding

Subjects

Consumer product safety, Legal aspects, Cosmetics, Toxicology, Toxicogenetics, In vivo study, Structure-Activity Relationship, Physiological sciences, Mutagenicity, Micronucleus test, Animalia, European Union, Gene mutation, Animal testing alternatives, Comet assay, Sister chromatid exchange, Structure activity relation, DNA synthesis, In vitro study, Carcinogen testing, Toxicokinetics, Chemistry, Toxicological parameters, Animal testing replacement, Mitotic recombination, Toxicity testing, DNA damage, Cell culture, Chromosome aberration, Genotoxicity

Published

2005

5. Formation and removal of genotoxic activity during UV/H2O2–GAC treatment of drinking water

Author

Heringa, M.B., Harmsen, D.J.H., Beerendonk, E.F., Reus, A.A., Krul, C.A.M., Metz, D.H., and IJpelaar, G.F.

Subjects

*GENETIC toxicology, *DRINKING water purification, *ULTRASONICS, *PHOTOCHEMISTRY, *OXIDATION, *PRESSURE, *GRANULATED activated carbon (GAC), *SOLID phase extraction

Abstract

Abstract: The objective of this study was to determine the genotoxic activity of water after UV/H2O2 oxidation and GAC filtration. Pre-treated surface water from three locations was treated with UV/H2O2 with medium pressure (MP) lamps and passed through granulated activated carbon (GAC). Samples taken before and after each treatment step were extracted and concentrated by solid phase extraction (SPE) and analyzed for genotoxicity using the Comet assay with HepG2 cells and the Ames II assay. The Comet assay showed no genotoxic response in any of the samples. In the Ames II, no genotoxic response was obtained with the TAMix (a mix of six strains), but the TA98 strain showed an increase in genotoxic activity after MP-UV/H2O2 for all three locations. GAC post treatment effectively reduced the activities to control levels at two of the three locations and to below the level of the pre-treated water at one site. The results indicate that UV/H2O2 treatment may lead to the formation of genotoxic by-products, which can be removed by subsequent GAC filtration. [ABSTRACT FROM AUTHOR]

Published

2011