[Effect of tobacco smoke on permeability of capillary of pregnant and non-pregnant rats].

From among 4200 chemical compounds contained in the tobacco smoke, nicotine and carbon monoxide are responsible for changes in the heart-vessel system to the greatest extent. Additionally, other toxic compounds, including the carcinogenic ones, have a significant impact on the biological activity in the tissues of blood vessels. A particularly complex picture of the detrimental impact of the tobacco smoke is presented in case of pregnant women, fetuses and newborns.

Effect of rutin on total antioxidant status of rats exposed to cigarette smoke.

Exposure to tobacco smoke impairs the antioxidant defense mechanisms. In female Wistar rats fed on regular rodent chow and supplemented with a flavonoids rutin, Trolox Equivalent Antioxidant Capacity (TEAC) was measured as an ABTS-radical cation reduction power in plasma, lungs, liver, brain and kidneys. Exposure to smoke reduced the TEAC values in the liver, brain and kidneys and enhanced antioxidant potential in lungs in comparison to control animals.

[Tobacco smoke effects the activity of superoxide dismutase, glutathione peroxidase and total antioxidant status in pregnant and non-pregnant animals].

Total antioxidant status was measured as the reduction of the ABTS radical cation as well as the activities of SOD and GPx in female rats exposed and non-exposed to the cigarette smoke, pregnant and non-pregnant. The assessment was done in lungs, plasma, kidneys, liver and placenta of Wistar rats exposed to the cigarette smoke (1500 mg CO/m3 air) for 21 days. Total antioxidant status was significantly elevated in lungs and plasma of smoke-exposed animals, pregnant and non-pregnant, when compared to the matched controls.

[Experimental assessment of exposure to the tobacco smoke and its effect on superoxide dismutase and glutathione peroxidase activities].

Activities of two antioxidant enzymes, superoxide dismutase (SOD) and glutathione peroxidase (GPx) were determined in plasma of rats exposed to tobacco smoke (500, 1000 and 1500 mg CO/m3 air in 5 days) and to 1000 mg CO/m3 in 1, 2 and 3 weeks. When compared to controls, the SOD activity was decreased in the exposed animals, the lowest smoke dose gave the most pronounced effect and the highest dose revealed the least diminution. GPx activity was statistically higher in the rats inhaled with the highest smoke dose.

Relationship between the level and time of exposure to tobacco smoke and urine nicotine and cotinine concentration.

The study attempts to evaluate whether it is possible to determine time and level of exposure of rats to tobacco smoke based on nicotine and cotinine content in urine. The animals were exposed to tobacco smoke by inhalation in a specially designed experimental chambers. The exposure to three different tobacco smoke levels (500, 1000 and 1500 mg CO/m3 of air) lasted 6 h per day, for one, three and five days.