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Background & objectives: Caffeine can affect many physiological functions of the body. The aim of this study was to investigate the response of aerobic function, blood pressure and some immune system factors of trained men to acute caffeine consumption in dehydrated condition and warm and humid environment.
Methods: Thirty male athletes with a mean age of 26.6±3.9 years in dehydrated conditions voluntarily participated in this study, which was performed in a double-blind manner. Subjects were divided into three groups: caffeine consumption group (n=10), placebo group (n=10) and control group (n=10). The Caffeine group consumed 6 mg/kg body weight of caffeine. Sixty minutes later, the subjects performed an increasingly exhausting exercise. Blood samples collecting and blood pressure measuring took place before, immediately after and 24 hours after exercise. Analysis of variance with repeated measures (group * time) and one-way analysis of variance were used for statistical calculations.
Results: The duration of the exhaustion test in the caffeine consumption group was significantly longer than the control (p≤0.01) and placebo (p≤0.05) groups. In the blood sampling immediately after exercise, the level of leukocytes, neutrophils and lymphocytes in the exercise groups were significantly higher than the control group (p≤0.001). Also, the caffeine group experienced a lower increase in leukocytes and neutrophils compared to the placebo group (p≤0.001). Blood pressure values ​​in the exercise groups were significantly higher than the control group (p≤0.001). Also, the caffeine group experienced a greater increase in systolic blood pressure at baseline and immediately after exercise compared to the placebo group (p≤0.001).
Conclusion: In general, exhausting exercise in a warm environment and dehydrated condition increases the number of immune system cells and blood pressure. In addition to improving aerobic function, caffeine seems to prevent further increases in the number of immune system cells, while increasing blood pressure in the normal range in warm and humid environment.

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Background & Objectives: Cold Plasma is an emerging non-thermal, chemical-free, environmentally friendly disinfection technology. Plasma-activated water has received considerable attention from researchers in recent years. Despite extensive studies on the antibacterial effects of plasma-activated water, its anti-eukaryotic effects have not been identified. In humans, Acanthamoeba causes granulomatous encephalitis, skin ulcers, and Acanthamoeba keratitis. Considering the health importance of Acanthamoeba, this study investigated the anti-amoeba  effect of plasma-activated water on trophozoites and cysts of Acanthamoeba castellanii.
Methods: In this study, plasma-activated water prepared by the cold atmospheric plasma method.Physicochemical properties of produced water were evaluated by measuring pH, hydrogen peroxide, nitrite, and nitrate. To assess the effect of plasma-activated water on A. castellanii, trophozoites and cysts were exposed to plasma-activated water for 0.5, 1, 2, 3, 4, and 5 hours. Three replicates were examined each time. At the mentioned times, cell viability was calculated by trypan-blue staining and counting on a hemocytometer, and the results were statistically analyzed.
Results: Based on the physicochemical results, the mean pH of plasma-activated water in this study was about 3.4, and the amount of hydrogen peroxide, nitrate, and nitrite were 102, 737, and 36.94 μM, respectively. The present study showed that plasma-activated water killed A. castellanii trophozoites after three hours of exposure and A. castellanii cysts after four hours of exposure. On the other hand, some trophozoites gradually became cysts after exposure to plasma-activated water. These cysts became more resistant to plasma-activated water and inactivated after five hours of exposure.
Conclusion: In this study, for the first time, the effect of plasma-activated water on A. castellanii was investigated. The results of the present study showed that plasma-activated water is able to inactivate A. castellanii trophozoites and cysts. Therefore, plasma-activated water can be used to disinfect and inactivate A. castellanii.