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Evaluation Of Antioxidant Defense In Patients With Colorectal Carcinoma

100%
Malinowska K., Mik M., Dziki Ł., Dziki A., Majsterek I.
Polish Journal of Surgery
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2015
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vol. 87
|
issue 7
357-361
EN
Cancers are among the most feared diseases of modern civilization. In Poland, colorectal cancer is one of the tumors with the worst prognosis. The ability to cure is primarily dependent on the stage of the disease at the time of diagnosis. The aim of the study was evaluate antioxidant response in patients with colorectal carcinoma. Material and methods. Twenty patients (14 men and 6 women) aged 61.9± 11.1 years with colorectal cancer were included in the study. Twenty healthy subjects (4 men and 16 women) aged 64 ± 15.3 years formed the control group. The erythrocyte activities of antioxidant enzymes, superoxide dismutase (SOD), and glutathione peroxidase (GPx), Results. A significant increase of GPx, and SOD (p < 0.05) were seen in patients compared to healthy controls. Conclusion. The results indicate that the tested antioxidant enzyme activity of glutathione peroxidase and superoxide dismutase is increased in patients diagnosed with colorectal cancer compared to the control group.
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Hyperhomocysteinemia’s effect on antioxidant capacity in rats

88%
Filip C., Albu E., Zamosteanu N., Irina M., Silion M., Jerca L., Gheorghita N., Costel M.
Open Medicine
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2010
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vol. 5
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issue 5
620-626
EN
Hyperhomocysteinemia represents elevated homocysteine (Hcys) concentrations in blood above the normal range. In humans, the normal range of homocysteine is 5.0–15.9 mM/ml. High levels of homocysteine disturb the normal epithelial functions and correlate with cardiovascular diseases even at slightly increased concentrations. In homocysteine metabolism, vitamins play an important role. The mechanism through which homocysteine triggers these effects is not yet elucidated, but the involvement of reactive species may be the answer. It is not known whether the intra- or extracellular antioxidant system is more affected by elevated homocysteine levels. We studied the effects of hyperhomocysteinemia on the intra- and extracellular antioxidant defense systems in two different types of diet in rats. Type I was food with low folic acid and vitamin B12 content and type II was food with normal amounts of these two vitamins. Hyperhomocysteinemia was experimentally induced by oral administration of methionine 2 mg/kg body weight, single daily dose, for a 15-day period. Plasma concentrations of homocysteine were measured using an HPLC method. In the response of the intracellular antioxidant defense system against hyperhomocysteinemia, we determined the activities of superoxide dismutase (SOD) and glutathione peroxidase (GPx) in red blood cells, using RANDOX kits for manual use. For the extracellular response we determined the plasma total antioxidant status (TAS) also using a RANDOX kit for manual use. Our data show that methionine load induces hyperhomocysteinemia despite normal vitamin supply in rats. SOD activity rose with simultaneous decrease in GPx activity independently of diet; this might suggest that the intracellular defense system was disturbed by the rise in homocysteine level. TAS decrease suggests that the extracellular antioxidant defense was also affected. We assume that hyperhomocysteinemia is directly linked to reactive species generation and the intracellular space seems to be more affected than the extracellular one.
3
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Antioxidative system capacity after a 10-day-long intensive training course and one-month-long recovery in military cadets

75%
Plavina L., Kolesova O., Eglite J., Cakstins A., Cakstina S., Kolesovs A.
Physical Activity Review
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2021
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vol. 1
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issue 9
62-69
EN
Optimization of training and minimization of injuries are topical for the physical performance of military personnel. Physical and psycho-emotional load, fatigue, sleep deprivation, and dietary limits can lead to the development of oxidative stress (OS) and injuries in specific military training. This study investigated markers of OS and muscle damage in military cadets after a 10-day-long intensive training course and a one-month-long recovery. The sample included 42 cadets (2 females and 40 males) aged from 22 till 34. Myoglobin, catalase activity (CAT), superoxide dismutase activity (SOD), and total antioxidants capacity (TAC) in plasma were measured. OS was assessed by the glutathione index. The results revealed an increasing level of myoglobin, increasing glutathione index, and no changes in CAT, SOD, and TAC during the intensive training course. After the one-month-long recovery, myoglobin was back to normal, the activity of CAT and TAC was higher than before and after the training course, while SOD did not change after the recovery. The glutathione index decreased after the one-month-long recovery, but it was not reached the initial level before the intensive training. In sum, the observed grade of OS positively affected the capacity of the antioxidative system with some sign of a need for a longer rest.
4
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Effects of hypothermia on skeletal ischemia reperfusion injury in rats

63%
Ekinci Ş., Kaldırım Ü., Akyıldız F., Bilgiç S., Koca K., Poyrazoğlu Y., Uysal O. S., Turğut H., Türkkan S., Erşen Ö., Topal T., Ozkan H.
Open Medicine
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2014
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vol. 10
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issue 1
EN
Objective: The aim of this study was to investigate the effect of hypothermia (H) on skeletal ischemia-reperfusion (IR) injury in rats by measuring malondialdehyde (MDA), superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), nitric oxide (NO), and interleukin-1 beta (IL-1β) in muscle, and measureing immunohistochemical- inducible nitric oxide synthase (iNOS) staining of skeletal muscle. Materials and Methods: Eighteen Wistar Albino rats were divided randomly into three groups (sham, IR, hypothermia) (n=6). The sham group had all procedures without the IR period. The lower right extremity of rats in the IR and hypothermia groups was subjected to 2 hours of ischemia and 22 hours of reperfusion by applying a clamp on the common iliac artery and a rubber-band at the level of the lesser trochanter under general anesthesia. Rats in the hypothermia group underwent 4 hours of hypothermia during the first four hours of reperfusion in addition to a 2-hour ischemia and 22-hour reperfusion period. All rats were sacrificed at end of the IR period using a high dose of anesthesia. The tibialis anterior muscles were preserved. Immunohistochemical iNOS staining was performed, and MDA, SOD, GSH-Px, NO, and IL-1β were measured in the muscle. Results: The level of MDA, NO, and IL-1β in muscle was increased in the IR group compared with that in the sham group, but these parameters were decreased in the hypothermia group compared with the IR group. The activities of SOD and GSH-Px in muscle were decreased in the IR group; however, these parameters were increased in the hypothermia group. The score and intensity of iNOS staining of skeletal muscle was dens in IR group, mild in hypothermia group, and weak in sham group. Conclusion: The present study has shown that hypothermia reduced IR injury in the skeletal muscle by decreasing the levels of MDA, NO, and IL-1β, and increasing the activities of SOD and GSH-Px. In addition, hypothermia attenuated the score and intensity of iNOS staining.
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