癫痫的发病机制研究_Journal of Epilepsy

Authors：

杨华俊 , 郭安臣 ,  王群

首都医科大学附属北京天坛医院神经病学中心, 北京脑重大疾病研究院, 国家神经系统疾病临床医学研究中心 (北京 100050);

Corresponding author：

王群, Email: wangq@ccmu.edu.cn

Keywords：

癫痫; 发病机制; 离子通道; 神经递质; 突触连接

DOI：

10.7507/2096-0247.20170019

Video：

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癫痫是神经系统的常见疾病之一，其发病机制十分复杂，目前尚未完全阐明。近年来关于癫痫发病机制的研究表明，癫痫的发生与离子通道、神经递质、突触连接、神经血管单元以及神经胶质细胞等均存在密切联系。为深入理解癫痫发病机制，为癫痫的诊断、预防与治疗提供必要的理论依据，文章将从以上方面对癫痫发生机制的研究作一综述。

Citation： 杨华俊, 郭安臣, 王群. 癫痫的发病机制研究. Journal of Epilepsy, 2017, 3(2): 132-136. doi: 10.7507/2096-0247.20170019 Copy

1.	Ngugi AK, Bottomley C, Fegan G, et al. Premature mortality in active convulsive epilepsy in rural Kenya: causes and associated factors. Neurology, 2014, 82(7): 582-589.
2.	Catterall WA, Chengo E, Odhiambo R. From ionic currents to molecular mechanisms: the structure and function of voltage-gated sodium channels. Neuron, 2000, 26(1): 13-25.
3.	赵霞, 操德智.离子通道基因与特发性癫痫.国外医学遗传学分册, 2003, 10 (4): 232-235.
4.	肖波, 江利敏.癫痫的发病机制.临床内科杂志, 2004, 28 (09): 577-580.
5.	Wallace RH, Bauni E, Neville B, et al. Generalized epilepsy with febrile seizures plus: mutation of the sodium channel subunit SCN1B. Neurology, 2002, 58(9): 1426-1429.
6.	Baulac S, Kleinschmidt I, Sander JW, et al. A second locus for familial generalized epilepsy with febrile seizures plus maps to chromosome 2q21-q33. Am J Hum Genet, 1999, 65(4): 1078-1085.
7.	Hartmann HA. Selective localization of cardiac SCN5A sodium channels in limbic regions of rat brain. Nat Neurosci, 1999, 2(7): 593-595.
8.	Singh NA. A novel potassium channel gene, KCNQ2, is mutated in an inherited epilepsy of newborns. Nat Genet, 1998, 18(1): 25-29.
9.	Heilstedt HA. Loss of the potassium channel beta-subunit gene, KCNAB2, is associated with epilepsy in patients with 1p36 deletion syndrome. Epilepsia, 2001, 42(9): 1103-1111.
10.	Berdyyeva TK. Direct imaging of hippocampal epileptiform calcium motifs following kainic acid administration in freely behaving mice. Front Neurosci, 2016, 10(4): 53.
11.	Deleuze C, Role LW, Beaudet AL, et al. T-type calcium channels consolidate tonic action potential output of thalamic neurons to neocortex. J Neurosci, 2012, 32(35): 12228-12236.
12.	姚君茹.慢性癫痫模型大鼠脑谷氨酸神经元的变化.解剖科学进展, 2004, 5(1): 26-29.
13.	Chen Q, Armstrong D, Patrick JW, et al. Differential roles of NR2A-and NR2B-containing NMDA receptors in activity-dependent brain-derived neurotrophic factor gene regulation and limbic epileptogenesis. J Neurosci, 2007, 27(3): 542-552.
14.	Aujla PK, MR Fetell, FE Jensen. Talampanel suppresses the acute and chronic effects of seizures in a rodent neonatal seizure model. Epilepsia, 2009, 50(4): 694-701.
15.	邱文娟, 胡小伟, 张正春.癫痫发病机制及治疗的研究进展.中华临床医师杂志 (电子版), 2014, 17 (10): 1920-1924.
16.	Wang Y, Gelber S, Sutcliffe CB, et al. Downregulation of hippocampal GABA after hypoxia-induced seizures in neonatal rats. Neurochem Res, 2011, 36(12): 2409-2416.
17.	Xu W, Orr-Urtreger A, Nigro F, et al. Multiorgan autonomic dysfunction in mice lacking the beta2 and the beta4 subunits of neuronal nicotinic acetylcholine receptors. J Neurosci, 1999, 19(21): 9298-9305.
18.	Kadam SD, Dubeau F, Gotman J, et al. Functional integration of new neurons into hippocampal networks and poststroke comorbidities following neonatal stroke in mice. Epilepsy Behav, 2010, 18(4): 344-357.
19.	Hawco CS, Bagshaw AP, Lu Y, et al. BOLD changes occur prior to epileptic spikes seen on scalp EEG. Neuroimage, 2007, 35(4): 1450-1458.
20.	Wiest R, Kaufer D, Friedman A, et al. Detection of regional blood perfusion changes in epileptic seizures with dynamic brain perfusion CT-a pilot study. Epilepsy Res, 2006, 72(2-3): 102-110.
21.	De Reuck, G Van Maele. Acute ischemic stroke treatment and the occurrence of seizures. Clin Neurol Neurosurg, 2010, 112(4): 328-331.
22.	Sun DA, Sombati S, DeLorenzo RJ. Glutamate injury-induced epileptogenesis in hippocampal neurons: an in vitro model of stroke-induced "epilepsy". Stroke, 2001, 32(10): 2344-2350.
23.	Seiffert E, Lapilover E, Heinemann U, et al. Lasting blood-brain barrier disruption induces epileptic focus in the rat somatosensory cortex. J Neurosci, 2004, 24(36): 7829-7836.
24.	David Y, Cacheaux LP, Ivens S, et al. Astrocytic dysfunction in epileptogenesis: consequence of altered potassium and glutamate homeostasis?. J Neurosci, 2009, 29(34): 10588-10599.
25.	Vezzani A, Friedman A, Dingledine RJ. The role of inflammation in epileptogenesis. Neuropharmacology, 2013, 69(2): 16-24.

1. Ngugi AK, Bottomley C, Fegan G, et al. Premature mortality in active convulsive epilepsy in rural Kenya: causes and associated factors. Neurology, 2014, 82(7): 582-589.
2. Catterall WA, Chengo E, Odhiambo R. From ionic currents to molecular mechanisms: the structure and function of voltage-gated sodium channels. Neuron, 2000, 26(1): 13-25.
3. 赵霞, 操德智.离子通道基因与特发性癫痫.国外医学遗传学分册, 2003, 10 (4): 232-235.
4. 肖波, 江利敏.癫痫的发病机制.临床内科杂志, 2004, 28 (09): 577-580.
5. Wallace RH, Bauni E, Neville B, et al. Generalized epilepsy with febrile seizures plus: mutation of the sodium channel subunit SCN1B. Neurology, 2002, 58(9): 1426-1429.
6. Baulac S, Kleinschmidt I, Sander JW, et al. A second locus for familial generalized epilepsy with febrile seizures plus maps to chromosome 2q21-q33. Am J Hum Genet, 1999, 65(4): 1078-1085.
7. Hartmann HA. Selective localization of cardiac SCN5A sodium channels in limbic regions of rat brain. Nat Neurosci, 1999, 2(7): 593-595.
8. Singh NA. A novel potassium channel gene, KCNQ2, is mutated in an inherited epilepsy of newborns. Nat Genet, 1998, 18(1): 25-29.
9. Heilstedt HA. Loss of the potassium channel beta-subunit gene, KCNAB2, is associated with epilepsy in patients with 1p36 deletion syndrome. Epilepsia, 2001, 42(9): 1103-1111.
10. Berdyyeva TK. Direct imaging of hippocampal epileptiform calcium motifs following kainic acid administration in freely behaving mice. Front Neurosci, 2016, 10(4): 53.
11. Deleuze C, Role LW, Beaudet AL, et al. T-type calcium channels consolidate tonic action potential output of thalamic neurons to neocortex. J Neurosci, 2012, 32(35): 12228-12236.
12. 姚君茹.慢性癫痫模型大鼠脑谷氨酸神经元的变化.解剖科学进展, 2004, 5(1): 26-29.
13. Chen Q, Armstrong D, Patrick JW, et al. Differential roles of NR2A-and NR2B-containing NMDA receptors in activity-dependent brain-derived neurotrophic factor gene regulation and limbic epileptogenesis. J Neurosci, 2007, 27(3): 542-552.
14. Aujla PK, MR Fetell, FE Jensen. Talampanel suppresses the acute and chronic effects of seizures in a rodent neonatal seizure model. Epilepsia, 2009, 50(4): 694-701.
15. 邱文娟, 胡小伟, 张正春.癫痫发病机制及治疗的研究进展.中华临床医师杂志 (电子版), 2014, 17 (10): 1920-1924.
16. Wang Y, Gelber S, Sutcliffe CB, et al. Downregulation of hippocampal GABA after hypoxia-induced seizures in neonatal rats. Neurochem Res, 2011, 36(12): 2409-2416.
17. Xu W, Orr-Urtreger A, Nigro F, et al. Multiorgan autonomic dysfunction in mice lacking the beta2 and the beta4 subunits of neuronal nicotinic acetylcholine receptors. J Neurosci, 1999, 19(21): 9298-9305.
18. Kadam SD, Dubeau F, Gotman J, et al. Functional integration of new neurons into hippocampal networks and poststroke comorbidities following neonatal stroke in mice. Epilepsy Behav, 2010, 18(4): 344-357.
19. Hawco CS, Bagshaw AP, Lu Y, et al. BOLD changes occur prior to epileptic spikes seen on scalp EEG. Neuroimage, 2007, 35(4): 1450-1458.
20. Wiest R, Kaufer D, Friedman A, et al. Detection of regional blood perfusion changes in epileptic seizures with dynamic brain perfusion CT-a pilot study. Epilepsy Res, 2006, 72(2-3): 102-110.
21. De Reuck, G Van Maele. Acute ischemic stroke treatment and the occurrence of seizures. Clin Neurol Neurosurg, 2010, 112(4): 328-331.
22. Sun DA, Sombati S, DeLorenzo RJ. Glutamate injury-induced epileptogenesis in hippocampal neurons: an in vitro model of stroke-induced "epilepsy". Stroke, 2001, 32(10): 2344-2350.
23. Seiffert E, Lapilover E, Heinemann U, et al. Lasting blood-brain barrier disruption induces epileptic focus in the rat somatosensory cortex. J Neurosci, 2004, 24(36): 7829-7836.
24. David Y, Cacheaux LP, Ivens S, et al. Astrocytic dysfunction in epileptogenesis: consequence of altered potassium and glutamate homeostasis?. J Neurosci, 2009, 29(34): 10588-10599.
25. Vezzani A, Friedman A, Dingledine RJ. The role of inflammation in epileptogenesis. Neuropharmacology, 2013, 69(2): 16-24.

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