ObjectiveTo investigate the association between mTOR pathway and pharmacoresistance of Sprague-Dawley rat epilepsy model kindled by coriaria lactone. MethodsA kindling model of pharmacoresistant temporal lobe epilepsy was developed by injecting Sprague-Dawley (SD) rats with coriaria lactone (CL) (1.75 mg/kg, every 84 h). Normal SD rats were injected with normal sodium (NS) served as control group. Rats with five or more consecutive stage 5 seizures were included in kindled group. Immunohistochemistry was used to detect the levels of P-S6 in both groups. ResultsThe expressions of P-S6 in CA1 and CA3 were significantly higher compared with control group, and were mainly in astrocytes (P < 0.001). In addition, the expression of P-S6 in DG area was significantly higher than that in control group, with more granular cell and neuron (P < 0.001). ConclusionsThe mTOR pathway may be correlated with the drug resistance of refractory lobe epilepsy kindled by coriaria lactone.
Objective To establishadatabase to fully investigate current situation of antiepileptic drugs among pregnant women with epilepsy in West China. Analyzing the epidemiological characteristics and correlated influence factors of anti-epileptic drugs use among women with epilepsy in this area to promote management quality for women with epilepsy. Methods Adigital registration system was established with JAVA andastandard registration procedure was formulated. Standard registration was implemented in different levels of hospital of West China with regular follow-up. Results Registration system about antiepileptic drugs among pregnant women with epilepsy in West China was successfully established, which wasadigital registration within local area network. Information about registration centre and pregnant women with epilepsy was collected in the West China registration network. And elementary database was successfully established. Conclusion This is the first extensive and standard pregnancy register of antiepileptic drugs in China which meet the need of not only patient information management but also the development of academic subject.
ObjectiveThe abnormal autophagy fluxis involved in the pathophysiological process of drug-resistance temporal lobe epilepsy (TLE).Hippocampal sclerosis (HS) is the main pathological type of drug-resistance TLE.Different subtypes of HS have various prognosis, etiology and pathophysiology.However, whether theabnormal block ofautophagy flux involved in this process has not been reported.This study proposed a preliminary comparison of autophagy fluxin typical and atypical HS to investigate the potential pathogenesis and drug-resistance mechanism of atypical HS. MethodsSurgical excision of hippocampal and temporal lobe epilepsy foci were performed in 17 patients with drug-resistance TLE.Patients were grouped according to the HS classification issued by International League Against Epilepsy in 2013.The distribution and expression of LC3B, beclin-1 and P62 were detected by immunohistochemistry and Western blot in each group. ResultsLC3B, beclin-1 and P62 are mainly expressed in neuronal cytoplasm, which is consistent with previous reports.Taking β-actin as internal reference, we found that LC3B and Beclin-1, the downstream products of autophagy flux, have increased significantly (P < 0.01) in the atypical HS group compared to typical HS group.However, the autophagy flux substrate P62 has no difference between the groups.This result suggested that compared with the typical HS group, atypical HS group had autophagy substrate accumulation and autophagy flux abnormal block.Besides, we found that glyceraldehycle-3-phosphate dehydrogenase(GAPDH) was significantly different between the two groups (P=0.003). ConclusionThere is abnormal phenomenon of autophagy flux in atypical HS, and GAPDH elevation may be involved in its mechanism, which might provide new targets and ideas for future treatment of atypical HS.