Tıp Fakültesi

Permanent URI for this communityhttps://hdl.handle.net/20.500.12514/3075

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Ameliorating effects of low-dose ketamine administrations on opioid-induced memory impairments and neurodegeneration in mice
(İnönü Üniversitesi Tıp Fakültesi, 2023) Şeker, Uğur
Aim: Opioids have indispensable roles in pain management. A strong link exists between opioid use and memory impairments, mainly with continuous use. This study investigated the effects of two opioid drugs, meperidine and fentanyl, on emotional memory functions, brain morphology, and the possible protective effects of low-dose ketamine in mice. Materials and Methods: A passive avoidance (PA) test was used to measure emotional memory functions following seven daily drug applications in 48 male Balb/C mice (30-35 g). Meperidine (10 mg/kg), fentanyl (0.3 mg/kg), ketamine (5 mg/kg), and combinations of ketamine with the opioids were intraperitoneally injected daily. No drugs were utilized during the testing days. Brain tissues were obtained after sacrification and put into diluted formalin solution for histopathological analysis. Results: Transfer latencies of the meperidine and fentanyl-treated groups in the PA test were lower than in the vehicle-treated group (p<0.01, p<0.05, respectively). Ketamine combined with meperidine had higher latencies than in the meperidine-treated group (p<0.05). The augmenting effects of ketamine were evident against fentanyl and meperidine-induced neurotoxicity as morphologic alterations were reduced. Conclusion: Low-dose ketamine may fend against opioid-induced neurotoxicity and emotional memory impairments, especially against meperidine, which can be a practical alternative to fentanyl in clinical settings.
The effect of radiofrequency electromagnetic radiation on rat liver tissue and serum paraoxonase (PON1)
(Annals of Medical Research, 2023) Yavaş, Mehmet Cihan; Kilitçi, Asuman
Aim: The development of technology increases the rate of everyone having a smartphone. Therefore, the possible biological effects of these devices are of concern. In this study, we aimed to investigate the effect of 2100 MHz radiofrequency electromagnetic radiation on rat liver tissue and serum paraoxonase 1 level. Materials and Methods: Within the scope of the study, a 2100 MHz radiofrequency electromagnetic radiation model was created. In our study, we used Sprague Dawley male rats. Two groups were made as sham-control and exposure group (5 h a day for 2 weeks). Liver tissue and serum paraoxonase were studied. Results: The paraoxonase 1 value of the exposure group was higher than the sham control group, and did not have statistically important difference in the comparison of exposure and sham control groups (p>0.05). Did not have important difference in histopathological parameters of rat liver tissue (p>0.05). Conclusion: Although it seems that radiofrequency radiation does not cause liver dam age, more detailed studies with short- and long-term exposure are needed

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