Our study aimed to investigate subacute exposure to alcohol in relation to bone microstructure of mice. Animals from experimental (E) group drank a solution composed of 15 % ethanol and water for 14 days (one remodeling cycle), while those from control (C) group drank only water. In the compact bone of E group, decreased bone formation and increased porosity were observed which corresponds with lower levels of serum alkaline phosphatase and glutathione. Alcohol significantly increased sizes of primary osteon's vascular canals and decreased those of secondary osteons, Haversian canals. Relative bone volume, bone mineral density (BMD), relative bone volume without marrow cavity were also lower in E group. On the contrary, trabecular bone microstructure did not differ significantly between E and C groups. Liver function test showed higher levels of alanine aminotransferase, aspartate aminotransferase in alcohol-fed mice. Serum calcium, phosphate were significantly lower in E group. According to our study, only changes in compact bone microstructure of mice following one remodeling cycle were observed due to both direct and indirect effects of alcohol., A. Sarocka, V. Kovacova, R. Omelka, M. Bauerova, E. Kapusta, Z. Goc, G. Formicki, M. Martiniakova., and Obsahuje bibliografii
Experiments were conducted to study the effect of goldthioglucose (GTG) upon the processes associated with lipid peroxidation. The glucose-6-phosphate dehydrogenase activity (G6PD; E.C.1.1.1.49) in red blood cells (RBC) and the amount of malonaldehyde precursors (MDA) per gram of brain, liver and kidney were determined. Adult mice received i.p. injections for three consecutive days of either saline (controls) or GTG dissolved in saline, in a dose of 0.10 mg.g-1 or 0.15 mg.g-1 b.w. In mice receiving higher dose of GTG the G6PD activity was significantly increased (349.38± 17.46 mU.10-9 RBC compared to 258.2± 14.46 mU.10-9 RBC in control animals). The content of MDA precursors rose significantly from 4.8± 0.81 m mol.g-1 of the liver in controls to 8.12± 1.41 m mol.g -1 and 7.88± 0.51 m mol.g-1 and from 18.71± 1.01 m mol.g-1 of the kidneys in controls to 24.25± 1.25 m mol.g-1 and 24.88± 1.7 m mol.g-1 respectively. The GTG-induced higher levels of MDA precursors and increased G6PD activity in RBC corresponds to the rise in lipid peroxidation and its participation in producing the lesions after experimental and therapeutic use of gold-containing substances seems possible., D. Košťová, E. Michnová., and Obsahuje bibliografii