1. Minjarez B, Camarena HO, Haramati J, Rodríguez-Yañez Y, Mena-Munguía S, Buriticá J, et al. Behavioral changes in models of chemoconvulsant-induced epilepsy: A review. Neurosci Biobehav Rev 2017; 83: 373-80. 2. Ullah G, Schiff SJ. Models of epilepsy. Scholarpedia 2009; 4(7): 1409. 3. Ludmyla K, Priscila AB, Cleiton L, Rafael NR, Eduardo HU, Norberto GC, et al. Animal models of epilepsy: use and limitations. Neuropsychiatr Dis Treat 2014; 10: 1693. 4. Rubio C, Rubio-Osornio M, Retana-Márquez S, Verónica Custodio ML, Paz C. In vivo experimental models of epilepsy. Cent Nerv Syst Agents Med Chem 2010; 10(4): 298-309. 5. Sarkisian MR. Overview of the current animal models for human seizure and epileptic disorders. Epilepsy Behav 2001; 2(3): 201-16. 6. Wasterlain CG, Farber DB. Fairchild D. Cholinergic kindling: What has it taught us about epilepsy? J Neural Transm 1985; 63(2): 119-32. 7. Bausch SB. Axonal sprouting of GABAergic interneurons in temporal lobe epilepsy. Epilepsy Behav 2005; 7(3): 390-400. 8. Zhong XL, Yu JT, Zhang Q, Wang N, Tan L. Deep brain stimulation for epilepsy in clinical practice and in animal models. Brain Res Bull 2011; 85(3-4): 81-8. 9. Tedeschi DH, Benigni JP, Elder CJ, Yeager JC, Flanigan JV. Effects of various phenothiazines on minimal electroshock seizure threshold and spontaneous motor activity of mice. J Pharmacol Exp Ther 1958; 123(1): 35-8. 10. Ehlers CL, Koob GF. Locomotor behavior following kindling in three different brain sites. Brain Res 1985; 326(1): 71-9. 11. Srivastava AK, Alex AB, Wilcox KS, White HS. Rapid loss of efficacy to the antiseizure drugs lamotrigine and carbamazepine: a novel experimental model of pharmacoresistant epilepsy. Epilepsia 2013; 54(7): 1186-94. 12. Albertson TR, Joy RM, Stark LG. A pharmacological study in the kindling model of epilepsy. Neuropharmacology 1984; 23(10): 1117-23. 13. Albensi BC, Oliver DR, Toupin J,Odero G. Electrical stimulation protocols for hippocampal synaptic plasticity and neuronal hyper-excitability: are they effective or relevant? Exp Neurol 2007; 204(1): 1-13. 14. Lopez-Meraz M, Neri-Bazan L, Rocha L. Low frequency stimulation modifies receptor binding in rat brain. Epilepsy Res 2004; 59(2-3): 95-105. 15. Albensi BC, Gabrielle A, Erin W, Joseph D, Janigro D. Activation of long-term synaptic plasticity causes suppression of epileptiform activity in rat hippocampal slices. Brain Res 2004; 998(1): 56-64. 16. McNamara JO, Byrne MC, Dasheiff RM, Fitz J. Pursuit of the mechanisms of kindling. Trends Neurosci 1988; 11(1): 33-36. 17. Racine R, Rose PA, Burnham WM. Afterdischarge thresholds and kindling rates in dorsal and ventral hippocampus and dentate gyrus. Can J Neurol Sci 1977; 4(4): 273-8. 18. Ghotbedin Z, Janahmadi M, Mirnajafi-Zadeh J, Behzadi G, Semnanian S. Electrical low frequency stimulation of the kindling site preserves the electrophysiological properties of the rat hippocampal CA1 pyramidal neurons from the destructive effects of amygdala kindling: the basis for a possible promising epilepsy therapy. Brain Stimul 2013; 6(4): 515-23. 19. Sohrabi asadabad J, Ghotbeddin Z, Tabandeh MR. study the effect of crocin on avoidance memory and motor activity impairment induced by doxorubicin administration in adult male rats. J Arak Uni Med Sci 2017; 20(9): 45-56. 20. Walsh RN, Cummins RA. The open-field test: a critical review. Res bull 1976; 83(3): 482. 21. Hannesson DK, Howland J, Michael M, Paul W, Amy E, Corcoran ME. Dorsal hippocampal kindling produces a selective and enduring disruption of hippocampally mediated behavior. J Neurosci 2001; 21(12): 4443-50. 22. Lado FA, Sperber EF, Moshe SL. Anticonvulsant efficacy of gabapentin on kindling in the immature brain. Epilepsia 2001; 42(4): 458-63. 23. Subedee L, Suresha RN, Sibgatullah MD, Siddamma A, Brahadeesh M. Role of multiple ion channel blocker-amiodarone in model of convulsion, locomotor activity and cognition in albino rats. Intl J Pharm Pharm Sci 2014; 6: 690-2. 24. Ghafouri S, Fathollahi Y, Semnanian S, Shojaei A, Mirnajafi-Zadeh J. Effects of Low Frequency Stimulation on Spontaneous Inhibitory and Excitatory Post-Synaptic Currents in Hippocampal CA1 Pyramidal Cells of Kindled Rats. Cell J (Yakhteh) 2017; 18(4): 547. 25. Midzyanovskaya IS, Shatskova AB, Sarkisova K, Luijtelaar G, Tuomisto L, Kuznetsova GD. Convulsive and nonconvulsive epilepsy in rats: effects on behavioral response to novelty stress. Epilepsy Behav 2005; 6(4): 543-51. 26. De Bruin N, Van Luijtelaar E, Cools AR, Ellenbroek BA. Dopamine characteristics in rat genotypes with distinct susceptibility to epileptic activity: apomorphine‐induced stereotyped gnawing and novelty/amphetamine‐induced locomotor stimulation. Behav Pharmacol 2001; 12(6-7): 517-25. 27. Vreugdenhil M, Wadman WJ. Enhancement of calcium currents in rat hippocampal CA1 neurons induced by kindling epileptogenesis. Neurosci 1992; 49(2): 373-81. 28. Kaido T, Otsuki T, Kaneko Y, Takahashi A, Kakita A, Takahashi H, et al. Anterior striatum with dysmorphic neurons associated with the epileptogenesis of focal cortical dysplasia. Seizure Europ J Epilepsy 2010; 19(4): 256-9. 29. Dehorter N, Michel FJ, Marissal T, Rotrou Y, Matrot B, Lopez C, et al.Constance Onset of pup locomotion coincides with loss of NR2C/D-mediated cortico-striatal EPSCs and dampening of striatal network immature activity. Front Cell neurosci 2011; 5: 24. 30. Bikson M, Lian J, Hahn PJ, Stacey WC, Sciortino C, Durand D. Suppression of epileptiform activity by high frequency sinusoidal fields in rat hippocampal slices. J Physiol 2001; 531(1): 181-91. 31. Velı́šek L, Velı́šková J, Stanton PK. Low-frequency stimulation of the kindling focus delays basolateral amygdala kindling in immature rats. Neurosci Lett 2002; 326(1): 61-3. 32. Wu DC, Xu ZH, Wang SH, Fang QI, Hu D, Li Q, et al. Time-dependent effect of low-frequency stimulation on amygdaloid-kindling seizures in rats. Neurobiol Dis 2008; 31(1): 74-9.
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