Resit Coskun scite author profile

Resit Coskun

5Publications

50Citation Statements Received

146Citation Statements Given

How they've been cited

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183

143

Affiliations

Erzincan University, Ankara Numune Eğitim ve Araştırma Hastanesi, Bayburt State Hospital

Publications

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The protective effect of thiamine pyrophosphate, but not thiamine, against cardiotoxicity induced with cisplatin in rats

Coskun

Turan

et al. 2013

Drug and Chemical Toxicology

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This study investigated the effect of thiamine pyrophosphate on oxidative damage associated with cardiotoxicity caused by cisplatin (CIS), an antineoplastic agent, in rats, and compared this with thiamine. Animals used in the study were divided into four groups of 6 rats each. These represented a control group receiving 5 mg/kg of CIS, study groups receiving 20 mg/kg of thiamine pyrophosphate plus 5 mg/kg of cisplatin (CTPG) or 20 mg/kg of thiamine plus 5 mg/kg of cisplatin and a healthy (H) group. All doses were administered intraperitoneally once a day for 14 days. Malondialdehyde, total glutathione and products of DNA injury results were similar in the CTPG and H groups (p > 0.05). Creatinine kinase, creatine kinase MB and troponin 1 levels were similar in the CTPG and H groups (p > 0.05). Thiamine pyrophosphate prevented CIS-associated oxidative stress and heart injury, whereas thiamine did not prevent these.

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The effects of ketamine and thiopental used alone or in combination on the brain, heart, and bronchial tissues of rats

Ahıskalıoğlu¹,

Aydin²,

Ahıskalıoğlu³

et al. 2018

aoms

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IntroductionWe compared the side effects of ketamine and thiopental used alone and of a ketamine/thiopental combination dose on the brain,heart, and bronchial tissues of rats.Material and methodsThree groups received intraperitoneal injections of 30 mg/kg ketamine (K-30); 15 mg/kg thiopental (T-15); or of both in combination (KTSA). These doses were doubled in another set of study groups (K-60, T-30, and KTA groups, respectively). Optimal anesthesia duration was examined in all groups.ResultsAnesthesia did not occur with 30 mg/kg ketamine or 15 mg/kg thiopental. However, when used alone ketamine and thiopental led to oxidative stress in the striatum, heart, and bronchial tissues. Conversely, combined administration of anesthetics and subanesthetic doses were found not to create oxidative stress in any of these areas. The highest level of adrenaline in blood samples collected from the tail veins was measured in the KTA-60, and the lowest amount in the T-30. Creatine kinase activity was highest in the KTA-60 group (p < 0.001). When we compared for all 5 groups to untreated control group; the creatine kinase-MB activities were significiantly different in K-30, T-15 and T-30 (p < 0.001).ConclusionsThe studied doses of ketamine led to oxidative stress by increasing the amount of adrenaline. Thiopental increased oxidative stress with decreases in adrenaline. A longer anesthetic effect with minimal adverse events may be achieved by ketamine and thiopental in combination.

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Comparative Investigation of Protective Effects of Metyrosine and Metoprolol Against Ketamine Cardiotoxicity in Rats

et al. 2014

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This study investigated the effect of metyrosine against ketamine-induced cardiotoxicity in rats and compared the results with the effect of metoprolol. In this study, rats were divided into groups A, B and C. In group A, we investigated the effects of a single dose of metyrosine (150 mg/kg) and metoprolol (20 mg/kg) on single dose ketamine (60 mg/kg)-induced cardiotoxicity. In group B, we investigated the effect of metyrosine and metoprolol, which were given together with ketamine for 30 days. In group C, we investigated the effect of metyrosine and metoprolol given 15 days before ketamine and 30 days together with ketamine on ketamine cardiotoxicity. By the end of this process, we evaluated the effects of the levels of oxidant-antioxidant parameters such as MDA, MPO, 8-OHGua, tGSH, and SOD in addition to CK-MB and TP I on cardiotoxicity in rat heart tissue. The experimental results show that metyrosine prevented ketamine cardiotoxicity in groups A, B and C and metoprolol prevented it in only group C.

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The effect of adenosine triphosphate on sunitinib-induced cardiac injury in rats

et al. 2020

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In this study, we aimed to show the effect of adenosine 5′-triphosphate (ATP) on sunitinib-induced cardiac injury in rats. The rats ( n = 30) were divided equally into three groups as sunitinib group (SG), sunitinib plus ATP group (SAG), and healthy group (HG); 2 mg/kg ATP was injected intraperitoneally (ip) to the SAG group. Same volume normal saline as solvent was administered ip to the other two groups. After 1 h, 25 mg/kg sunitinib was applied orally via catheter to stomach in the SAG and SG groups. This procedure was repeated once daily for 5 weeks. At the end of this period, all animals were sacrificed and their cardiac tissue was removed. Malondialdehyde (MDA), total glutathione (tGSH), tumor necrosis factor α (TNF- α), and nuclear factor κB (NF- κB) levels in rats’ cardiac tissues and troponin I (Tp-I) levels in rats’ blood samples were evaluated. Histopathological analysis was also performed in cardiac tissues of the animals. MDA, TNF- α, NF- κB, and Tp-I levels were higher in the SG group compared to the SAG and HG groups ( p < 0.001). tGSH levels of the SG group were lower than the SAG and HG groups ( p < 0.001). The structure and morphology of cardiac muscle fibers and blood vessels were normal in the control group. In the SG group, obvious cardiac muscle tissue damage with dilated myofibers, locally atrophic myofibers, and congested blood vessels were observed. In the SAG group, marked amelioration in these findings was observed. We showed this for the first time that ATP administration exerts a protective effect against cardiac effects of sunitinib.

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Protective effect of adenosine triphosphate and benidipine separately or together against cardiotoxicity caused by bevacizumab

Yıldırım

Cengiz

et al. 2022

Biotechnic & Histochemistry

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Resit Coskun

The protective effect of thiamine pyrophosphate, but not thiamine, against cardiotoxicity induced with cisplatin in rats

The effects of ketamine and thiopental used alone or in combination on the brain, heart, and bronchial tissues of rats

Comparative Investigation of Protective Effects of Metyrosine and Metoprolol Against Ketamine Cardiotoxicity in Rats

The effect of adenosine triphosphate on sunitinib-induced cardiac injury in rats

Protective effect of adenosine triphosphate and benidipine separately or together against cardiotoxicity caused by bevacizumab

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