Nasibeh Akbari; Mahmoud Allahdadi Dalmani; Taghi Lashkar Blouki; Mehdi Godarzvand
Volume 23, Issue 1 , May and June 2016, , Pages 66-74
Abstract
Purpose: Epilepsy, as a plastic change lead to hyperexcitability and structural change. Kindling is the process of repetitive subconvulsive electrical or chemical stimulation induced synaptic and circuit alterations. Lateral hypothalamus (LH) contains the main constellation of orexinergic neurons involved ...
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Purpose: Epilepsy, as a plastic change lead to hyperexcitability and structural change. Kindling is the process of repetitive subconvulsive electrical or chemical stimulation induced synaptic and circuit alterations. Lateral hypothalamus (LH) contains the main constellation of orexinergic neurons involved in sleep and waking and even excitability with high numbers of receptors in hippocampus. Thus, we investigate the effect of LH inactivation on kindling development and kindling induced hippocampal neuronal population. Method: Pentylenetetrazol (PTZ; 45 mg/kg) was used to induce chemical kindling every 48 h up to 13 injections, intraperitoneally. Three consecutive 4 or 5 seizure stages were criteria for kindling. Lidocaine (2%) was injected stereotaxically into right LH, 0.5 h prior to PTZ administration. Nissl staining was used to demonstrate neuronal population survival in CA3 and hilar regions of hippocampus. Results: LH inactivation prevented PTZ kindling development. Although kindling increased neuronal dispersion in CA3 and hilar regions, LH inactivation was unable to reduce the dispersion. Moreover, kindling did not affect neuronal survival in CA3 and hilus, qualitatively. Conclusion: It is concluded that kindling induced structural changes is to some extent independent of kindling development and it is not prevented by kindling inhibition through LH inactivation.
Hossein Piri; Benyamin Alimohammadi; Fatemeh Saeedi; Firoozeh Naderi; Hasan Azhdari-Zarmehri
Volume 23, Issue 1 , May and June 2016, , Pages 151-160
Abstract
Background and Objectives: About half to one percent of the world population suffer from epilepsy.Seizure is the most common symptoms of epilepsy due to abnormal electrical discharge of neurons in the brain. Due to side effects of chemical drugs, herbal plants are widely used to control seizures. In ...
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Background and Objectives: About half to one percent of the world population suffer from epilepsy.Seizure is the most common symptoms of epilepsy due to abnormal electrical discharge of neurons in the brain. Due to side effects of chemical drugs, herbal plants are widely used to control seizures. In this study, Anticonvulsant activity of hydro-alcoholicextract of (Ziziphoratenuior L.) was investigated in mice. Materials and Methods: In this study, 40 male mice (25-30 g) were randomly selected and divided into five groups of 8, that included a control group (receiving saline and PTZ) and 4 treatment groups (receiving the extract doses of 150, 300, 600, 900 mg / kg). 30 minutes after IP administration with saline (in control group) and different doses of extract (in treatment groups), PTZ (80 mg/kg) were injectedAnd were transferred to a special cage immediately and convulsive behaviors were recorded by a camera during the 20 minutes. Then, the different phases of seizure were evaluated. Results: Extract injection in all doses by dose- dependently delayed the onset time of clonic, tonic and tonic-clonic seizures, but doses of 600 and 900 mg/kg had showed the greatest effect on onset time. The duration time of tonic, clonic and tonic-clonic seizures in animals that received extract also reduced. Extract injection also dose-dependently decreased the rate of mortality and the number of suddenly jumping during seizures, these effects in doses of 600 and 900 mg/kg was significant. Conclusion: Our study showed that, the hydro-alcoholicextract of (Ziziphoratenuior L.) had an appropriate anticonvulsant activity and it seems the future studies will be necessary to separate its ingredients and understand its mechanism of action.