Browsing by Author "Vatandas, G"
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Item Association Between Idiopathic Generalized Epilepsy and EFHC1 Gene Mutations of 662 G>A and 685 T>CBüyük, I; Tugrul, B; Yilmaz, H; Onur, E; Vatandas, G; Dogan Bozyigit, FObjective: Idiopathic generalized epilepsy (IGE) is an epilepsy form without an underlying brain lesion or neurological indication or symptom. Recent investigations on the genetic origins of IGE and its subtypes report that certain mutations of various ion and non-ion channel genes in the central nervous system may be associated with IGE. Among these mutations, the ones related to the non-ionic channel gene EFHC1 are controversial (545G>A, 685T>C, 628G>A 757G>T, 229C>A, 662G>A, 520A>G, 776G>A, 829C>T). In this study we investigated the relationship between IGE and 662G>A (R221H) and 685T>C (F229L) mutations in EFHC1 gene in a Turkish population. Material and Methods: The study enrolled 96 healthy volunteers (47 male, 49 female) and 96 IGE patients (41 male, 55 female). IGE diagnosis was confirmed in the neurology department. After venous blood sampling, DNA extractions were performed. The presence of 662G>A (R221H) and 685T>C (F229L) mutations in the exon 4 of EFHC1 gene were analyzed using Real-Time polymerase chain reaction (PCR) (Cobas, Roche Diagnostics, Germany). The results of the control and patient groups were compared statistically. Results: In the patient group there was one heterozygous male with 685T>C mutation. In the control group, there were two subjects with 685T>C mutation; one heterozygous male and one heterozygous female. The control and the patient groups did not have the 662G>A mutation. The difference between the patient and the control groups were not significant (p value for 685 T>C mutation=0.56062; p value for 662G>A mutation=1.00). Conclusion: We found no evidence that EFHC1 is a major genetic factor for the development of IGE in Turkish patients. Our results indicated that 685T>C and 662G>A mutations might not be associated with IJE.Item IS INTRAVENOUS SODIUM VALPROATE AN EFFECTIVE, SAFETY AND WELL-TOLERATED DRUG FOR STATUS EPILEPTICUS?Yilmaz, H; Elmas, Z; Batum, M; Vatandas, G; Dogan, NItem The coexistence of epilepsy and sleep-disordered breathing: a video EEG-polysomnography studyYilmaz, H; Elmas, Z; Batum, M; Vatandas, G; Dogan, NItem Neuroprotective Effects of Oleocanthal, a Compound in Virgin Olive Oil, in a Rat Model of Traumatic Brain InjuryMete, M; Aydemir, I; Unsal, UU; Collu, F; Vatandas, G; Gurcu, B; Duransoy, YK; Taneli, F; Tuglu, MI; Selcuki, MAIM: To evaluate the neuroprotective effects of deocanthal OC in a rat model of traumatic brain injury (TBI). MATERIAL and METHODS: Twenty-six adult male, Wistar albino rats were used. The rats were divided into 4 groups. Group 1 was the sham group (n=5). Group 2 was the trauma group (n=5) where rats were treated with 10 mg/kg saline intraperitoneally (IP) twice a day. Groups 3 and 4, rats were treated with 10 (group 3, n=8) or 30 (group 4, n=8) mg/kg OC IP twice a day. For each group, brain samples were collected 72 hours after injury. Brain samples and blood were evaluated with histopathological and biochemical methods. RESULTS: Histopathological evaluation revealed a significant difference between Group 2 and Group 4. Biochemical findings demonstrated that the oxidative stress index was highest in Group 2 and lowest in Group 4. CONCLUSION: OC has a protective effect on neural cells after TBI. This effect is achieved by reducing oxidative stress and apoptosis.