Gülnur Take Kaplanoğlu scite author profile

Object. The object of this study was to conduct a prospective, randomized, laboratory investigation of the neuroprotective effects of curcumin functionally, biochemically, and histologically in an experimental acute spinal cord ischemia-reperfusion injury on rabbits.Methods. Eighteen rabbits were randomly assigned to 1 of 3 groups: the sham group, the ischemia-reperfusion group, or the curcumin group. Spinal cord ischemia was induced by applying an infrarenal aortic cross-clamp for 30 minutes. At 48 hours after ischemia, neurological function was evaluated with modified Tarlov criteria. Biochemical changes in the spinal cord and plasma were observed by measuring levels of malondialdehyde (MDA), advanced oxidation protein products (AOPP), glutathione (GSH), superoxide dismutase (SOD), catalase (CAT), nitrite/nitrate, and tumor necrosis factor-a (TNF-a). Histological changes were examined with H & E staining. Immunohistochemical staining with antibodies against caspase-3 was performed to evaluate cell apoptosis after ischemia.Results. In the curcumin group, neurological outcome scores were statistically significantly better compared with the ischemia-reperfusion group. In the ischemia-reperfusion group, MDA, AOPP, and nitrite/nitrate levels were significantly elevated in the spinal cord tissue and the plasma by the induction of ischemia-reperfusion. The curcumin treatment significantly prevented the ischemia-reperfusion-induced elevation of nitrite/nitrate and TNF-a. In addition, the spinal cord tissue and the plasma SOD, GSH, and CAT levels were found to be preserved in the curcumin group and not statistically different from those of the sham group. Histological evaluation of the tissues also demonstrated a decrease in axonal damage, neuronal degeneration, and glial cell infiltration after curcumin administration.Conclusions. Although further studies including different dose regimens and time intervals are required, curcumin could attenuate a spinal cord ischemia-reperfusion injury in rabbits via reducing oxidative products and proinflammatory cytokines, as well as increasing activities of antioxidant enzymes and preventing apoptotic cell death. (http://thejns.org/doi/abs/10.3171/2013 keY WorDs • antioxidant • curcumin • ischemia-reperfusion injury • neuroprotection • oxidative stress • spinal cord injuryAbbreviations used in this paper: AOPP = advanced oxidation protein products; CAT = catalase; GSH = glutathione; MDA = malondialdehyde; SOD = superoxide dismutase; TBARS = thiobarbituric acid reactive substances; TNF = tumor necrosis factor.

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Is there crosstalk between subchondral bone, cartilage, and meniscus in the pathogenesis of osteoarthritis?

Atik

Erdoğan

Seymen

et al. 2016

Eklem Hastalik Cerrahisi

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Can quercetin be an option for treatment of spinal cord injury?: an experimental study

Öcal

Börcek²,

Paşaoğlu³

et al. 2018

Turkish Neurosurgery

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Melatonin modulates nmda-receptor 2b/calpain-1/caspase-12 pathways in rat brain after long time exposure to gsm radiation

Seymen

Ilgaz²,

Erdoğan³

et al. 2019

Turkish Neurosurgery

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AIM: To investigate the potential protective effects of melatonin on the chronic radiation emitted by third generation mobile phones on the brain. MATERIAL and METHODS: A total of 24 male Wistar albino rats were divided into four equal groups. Throughout a 90-day experiment, no application was performed on the control group. The second group was exposed to 2100 MHz radiation for 30 minutes. Subcutaneous melatonin was injected into the third group. Subcutaneous melatonin injection was applied 40 minutes before radiation and then the fourth group was exposed to radiation for 30 minutes. At the end of the experiment, brain (cerebrum and cerebellum) tissues were taken from the subjects. Histochemical, immunohistochemical, ultrastructural and western blot analyses were applied. In addition to brain weight, Purkinje cells' number, immunohistochemical H Score analyses and the results of the Western blot were examined statistically. RESULTS: With the application of radiation, neuronal edema, relatively-decreased numbers of neurons on hippocampal CA1 and CA3 regions, displacement of the Purkinje neurons and dark neurons findings were observed as a result of histochemical stainings. Radiation also activated the NMDA-receptor 2B/Calpain-1/Caspase-12 pathway, NMDA-receptor 2B and Calpain-1 with the findings being supported by western blot analyses. Pre-increased protein synthesis before apoptosis was identified by electron microscopy. CONCLUSION: Mobile phone radiation caused certain (ultra) structural changes on the brain and activated the NMDA-receptor 2B/ Calpain-1/Caspase-12 pathway; in addition, melatonin was found to be effective, but insufficient in demonstrating the protective effects.

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Does Pattern Scan Laser (PASCAL) photocoagulation really induce less VEGF expression in murine retina than conventional laser treatment?

Konac

Sönmez

Bahçelioğlu

et al. 2014

Gene

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Sutureless approach with vein grafts and mesenchymal stem cells in primary nerve repair: Functional and immunohistological results

et al. 2018

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Does Exposure of Smart Phones during Pregnancy Affect the Offspring’s Ovarian Reserve? A Rat Model Study

Çalış

Seymen

Soykan

et al. 2019

Fetal and Pediatric Pathology

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