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Showing 2 results for Mirzaii Dizgah
The effects of intra-locus coeruleus injection of dopamine D2 receptor agents on Naloxone withdrawal signs in Morphine-dependent rats
Mirzaii Dizgah I, Karimian M, Zarrindast M.r, Sohanaki H,
Volume 65, Issue 3 (2 2007)
Abstract
Background: Opiate-induced addiction is a main social problem in Iran. As treatment of this problem is a health priority among the medical community, studies on this topic are very crucial. The exact mechanism of dependence on opiates and their withdrawal syndrome remain unclear. It seems that dopaminergic system and locus coeruleus (LC) have an important role in the expression of somatic signs during opioids withdrawal. The LC has been shown to contain significant levels of dopamine (DA). In the present study, the effects of different D2 dopaminergic receptor agonist and antagonist administration in the LC on withdrawal sign expression in morphine dependence is investigated in rats.
Methods: Adult male Wistar rats, weighing 220–280 g were divided into eight groups (n=8). Two cannulae were stereotaxically implanted bilaterally into the LC of each rat. After a one-week recovery, seven groups were rendered dependent on morphine by subcutaneous injection during a seven-day period. Non-dependent control animals received saline according to the same protocol. Animals received bilateral intra-LC injections of saline (1 μg/site) and quinpirole (0.1, 0.3 and 0.5 μg/site, a D2 agonist) 15 min and sulpiride (5, 15 and 30 μg/site, a D2 antagonist) 30 min prior to naloxone injection about 24 hours after the last dose of morphine or saline according to their respective group. To calculate the total withdrawal score, as an index of withdrawal syndrome, 20 different withdrawal signs were assessed and the scores of the intensity of these withdrawal signs were added.
Results: Total withdrawal scores were significantly decreased by quinpirole (0.1µg/site) and sulpiride (15 and 30 µg/site).
Conclusion: The D2 dopaminergic system in the LC may be involved in the morphine-induced dependency in rats. Further studies are needed to define the mechanism of this dependency in order to improve methods for the rehabilitation of addicts.
The effect of simulated weightlessness and short-term light-dark cycle on retinoic acid levels in serum and hippocampus of rats
Mohammad Hossein Mirzaii Dizgah, Mohammad Reza Mirzaii Dizgah, Iraj Mirzaii Dizgah ,
Volume 79, Issue 3 (june 2021)
Abstract
Background: spacecrafts rotate around the Earth every 90 minutes, so the 24-hour cycle turns to 90 minutes. Retinoic acid, an active metabolite of vitamin A, plays a role in regulating the circadian rhythm and its deficiency can impair the biological clock function and consequently impair the circadian rhythm of locomotor activity. The goal of the study was to assay the effects of simulated spaceship conditions on serum and hippocampal retinoic acid levels in rats.
Methods: The tail-hanging, hindleg-weightlessness rat model was applied to mimic the microgravity conditions from June to September 2017 in the zoo of the Aja University of Medical Sciences. Thirty-two male Wistar rats weighing 200-250 gr/in an experimental study were randomly assigned into 4 groups (n=8): 1) control animals with 12/12 h day-night rotation, 2) animals with 12/12 h day-night rotation under 14 days unloading, 3) control animals with 45/45 min day-night cycle, and 4) animals with 45/45 min day-night cycle under 14 days unloading. At the termination of the simulation step, rats were anesthetized, and blood samples were collected and the entire brain was removed and each brain was segmented into Hippocampus. ELISA assays were used to detect retinoic acid in the serum and homogenized hippocampus. Data were statistically assayed using two-way ANOVA and Bonferroni as a post hoc test. P<0.05 was considered significant.
Results: The circadian cycle of 45/45 min compared to the 12/12 h dark cycle increased the levels of retinoic acid in serum (F=4.901, P=0.037) and hippocampus (F=5.793, P=0.029) in rats. But simulated weightlessness had no effect on retinoic acid content in serum (F=0.149, P=0.703) and hippocampus (F=0.004, P=0.952).
Conclusion: It seems that retinoic acid content in serum and hippocampus is affected by circadian cycle change, and weightlessness has not affect.

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