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Your search keyword '"S. Hornhardt"' showing total 3 results
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3 results on '"S. Hornhardt"'

1. Lifetime study in mice after acute low-dose ionizing radiation: a multifactorial study with special focus on cataract risk.

Author

Dalke C, Neff F, Bains SK, Bright S, Lord D, Reitmeir P, Rößler U, Samaga D, Unger K, Braselmann H, Wagner F, Greiter M, Gomolka M, Hornhardt S, Kunze S, Kempf SJ, Garrett L, Hölter SM, Wurst W, Rosemann M, Azimzadeh O, Tapio S, Aubele M, Theis F, Hoeschen C, Slijepcevic P, Kadhim M, Atkinson M, Zitzelsberger H, Kulka U, and Graw J

Subjects
Animals, Cataract etiology, Chromosome Aberrations radiation effects, Dose-Response Relationship, Radiation, Female, Kaplan-Meier Estimate, Male, Mice, Radiation Injuries, Experimental etiology, Radiation Protection, Risk Assessment, Telomere radiation effects, Time Factors, Cataract genetics, Radiation Injuries, Experimental genetics
Abstract

Because of the increasing application of ionizing radiation in medicine, quantitative data on effects of low-dose radiation are needed to optimize radiation protection, particularly with respect to cataract development. Using mice as mammalian animal model, we applied a single dose of 0, 0.063, 0.125 and 0.5 Gy at 10 weeks of age, determined lens opacities for up to 2 years and compared it with overall survival, cytogenetic alterations and cancer development. The highest dose was significantly associated with increased body weight and reduced survival rate. Chromosomal aberrations in bone marrow cells showed a dose-dependent increase 12 months after irradiation. Pathological screening indicated a dose-dependent risk for several types of tumors. Scheimpflug imaging of the lens revealed a significant dose-dependent effect of 1% of lens opacity. Comparison of different biological end points demonstrated long-term effects of low-dose irradiation for several biological end points.

Published
2018
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2. Are mouse lens epithelial cells more sensitive to γ-irradiation than lymphocytes?

Author

Bannik K, Rössler U, Faus-Kessler T, Gomolka M, Hornhardt S, Dalke C, Klymenko O, Rosemann M, Trott KR, Atkinson M, Kulka U, and Graw J

Subjects
Animals, Comet Assay, DNA Damage, Epithelial Cells metabolism, Histones metabolism, Lens, Crystalline cytology, Lymphocytes metabolism, Male, Mice, Mice, Inbred C57BL, Epithelial Cells radiation effects, Gamma Rays, Lymphocytes radiation effects
Abstract

In this pilot study we compared for the first time the radiation sensitivity of mouse lens epithelial cells (LECs) and mouse lymphocytes. We freshly prepared LECs and lymphocytes and irradiated them with γ-rays ((137)Cs; doses ranging from 0.25 to 2 Gy). DNA damage and repair were evaluated by alkaline comet assay and γH2AX foci assay. Using the comet assay, we observed a dose-dependent increase in DNA damage in both cell types. The faster formation of single- and double-strand breaks in LECs of C57BL/6 mice at doses below 1 Gy needs to be confirmed in other mouse strains. Immunofluorescence for γH2AX foci showed a higher degree of lesions in LECs from C57BL/6J mice compared to those of JF1 mice and to lymphocytes of both strains. Correspondingly, repair of DNA damage proceeded faster in LECs of C57BL/6J mice compared to LECs of JF1 mice and lymphocytes of both strains. It is obvious that the lymphocytes of both strains repaired DNA lesions more slowly than the corresponding LECs. In conclusion, our results demonstrate that LECs of C57Bl/6 mice show a steeper dose-response than lymphocytes in both types of experiments. It shows that both test systems are able to be used also at doses below 0.25 Gy. The observed difference in DNA repair between the LECs from C57BL/6J mice compared to the LECs from JF1 mice and to the lymphocytes of both strains warrants further experiments to identify the underlying molecular mechanisms.

Published
2013
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