Main Article Content
Abstract
Transcranial Magnetic Stimulation (TMS) and Transcranial Direct Current Stimulation (tDCS) are new neurophysiological techniques that allow neurologists and neuroscientists to investigate brain function and neural networks in normal humans as well as in those with neurological and neuropsychiatric disorders.
In epilepsy, these techniques reveal abnormal excitability of the brain in focal and generalized epilepsy. Different patterns of excitatory and inhibitory changes detected by TMS have the potential to be used in the clinic for evaluating patients with epilepsy and to help with diagnosis, monitoring and treatment.
Repetitive TMS (rTMS) and tDCS have the ability to modulate cortical excitability over prolonged periods and are being trialled for the treatment of epilepsy. However, further studies are needed to find optimal stimulation paradigms that reliably reduce seizures, and to confirm long term benefits and safety of these interventions.
There are fewer TMS and tDCS studies in children and it's not clear if patterns of excitability changes are similar to those seen in adults or if there are unique patterns in childhood epilepsies. Continuing interventional trials assessing safety and efficacy of TMS and tDCS offer hope to children with treatment resistant epilepsies.
Keywords
Article Details
Copyright (c) 2016 Soumya Ghosh, Lakshmi Nagarajan
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References
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References
1. Rossini PM, Rossi S (2007) Transcranial magnetic stimulation: diagnostic, therapeutic, and research potential. Neurology 68 (7):484-8. DOI: 10.1212/01. wnl.0000250268.13789.b2 PMID: 17296913
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4. Badawy RA, Macdonell RA, Berkovic SF, Newton MR, Jackson GD (2010) Predicting seizure control: cortical excitability and antiepileptic medication. Ann Neurol 67 (1):64-73. DOI: 10.1002/ana.21806 PMID: 20186859
5. Chen R, Cros D, Curra A, Di Lazzaro V, Lefaucheur JP, Magistris MR et al. (2008) The clinical diagnostic utility of transcranial magnetic stimulation: report of an IFCN committee. Clin Neurophysiol 119 (3):504-32. DOI: 10.1016/j.clinph.2007.10.014 PMID: 18063409
6. Vicario CM, Nitsche MA (2013) Non-invasive brain stimulation for the treatment of brain diseases in childhood and adolescence: state of the art, current limits and future challenges. Front Syst Neurosci 7 ():94. DOI: 10.3389/fnsys.2013.00094 PMID: 24324410
7. Frye RE, Rotenberg A, Ousley M, Pascual-Leone A (2008) Transcranial magnetic stimulation in child neurology: current and future directions. J Child Neurol 23 (1):79-96. DOI: 10.1177/0883073807307972 PMID: 18056688
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9. Cracco RQ, Cracco JB, Maccabee PJ, Amassian VE (1999) Cerebral function revealed by transcranial magnetic stimulation. J Neurosci Methods 86 (2):209-19. PMID: 10065987
10. Ghosh S, Mehta AR, Huang G, Gunraj C, Hoque T, Saha U et al. (2013) Short- and long-latency interhemispheric inhibitions are additive in human motor cortex. J Neurophysiol 109 (12):2955-62. DOI: 10.1152/jn.00960.2012 PMID: 23536711
11. Nitsche MA, Paulus W (2000) Excitability changes induced in the human motor cortex by weak transcranial direct current stimulation. J Physiol 527 Pt 3 ():633-9. PMID: 10990547
12. Batsikadze G, Moliadze V, Paulus W, Kuo MF, Nitsche MA (2013) Partially non-linear stimulation intensity-dependent effects of direct current stimulation on motor cortex excitability in humans. J Physiol 591 (7):1987- 2000. DOI: 10.1113/jphysiol.2012.249730 PMID: 23339180
13. Liebetanz D, Nitsche MA, Tergau F, Paulus W (2002) Pharmacological approach to the mechanisms of transcranial DC-stimulation-induced after-effects of human motor cortex excitability. Brain 125 (Pt 10):2238-47. PMID: 12244081
14. Nitsche MA, Liebetanz D, Schlitterlau A, Henschke U, Fricke K, Frommann K et al. (2004) GABAergic modulation of DC stimulation-induced motor cortex excitability shifts in humans. Eur J Neurosci 19 (10):2720-6. DOI: 10.1111/j.0953-816X.2004.03398.x PMID: 15147306
15. Lang N, Siebner HR, Ward NS, Lee L, Nitsche MA, Paulus W et al. (2005) How does transcranial DC stimulation of the primary motor cortex alter regional neuronal activity in the human brain? Eur J Neurosci 22 (2):495- 504. DOI: 10.1111/j.1460-9568.2005.04233.x PMID: 16045502
16. Stafstrom CE (2006) Epilepsy: a review of selected clinical syndromes and advances in basic science. J Cereb Blood Flow Metab 26 (8):983-1004. DOI: 10.1038/sj.jcbfm.9600265 PMID: 16437061
17. Brigo F, Storti M, Benedetti MD, Rossini F, Nardone R, Tezzon F et al. (2012) Resting motor threshold in idiopathic generalized epilepsies: a systematic review with meta-analysis. Epilepsy Res 101 (1-2):3-13. DOI: 10.1016/j.eplepsyres.2012.03.020 PMID: 22542570
18. Badawy RA, Curatolo JM, Newton M, Berkovic SF, Macdonell RA (2006) Sleep deprivation increases cortical excitability in epilepsy: syndrome-specific effects. Neurology 67 (6):1018-22. DOI: 10.1212/01. wnl.0000237392.64230.f7 PMID: 17000971
19. Theodore WH (2003) Transcranial Magnetic Stimulation in Epilepsy. Epilepsy Curr 3 (6):191-197. DOI: 10.1046/j.1535-7597.2003.03607.x PMID: 15346149
20. Kessler KR, Schnitzler A, Classen J, Benecke R (2002) Reduced inhibition within primary motor cortex in patients with poststroke focal motor seizures. Neurology 59 (7):1028-33. PMID: 12370457
21. Kujirai T, Caramia MD, Rothwell JC, Day BL, Thompson PD, Ferbert A et al. (1993) Corticocortical inhibition in human motor cortex. J Physiol 471 ():501-19. PMID: 8120818
22. Valls-Solé J, Pascual-Leone A, Wassermann EM, Hallett M (1992) Human motor evoked responses to paired transcranial magnetic stimuli. Electroencephalogr Clin Neurophysiol 85 (6):355-64. PMID: 1282453
23. Florian J, Müller-Dahlhaus M, Liu Y, Ziemann U (2008) Inhibitory circuits and the nature of their interactions in the human motor cortex a pharmacological TMS study. J Physiol 586 (2):495-514. DOI: 10.1113/jphysiol.2007.142059 PMID: 17991698
24. Ziemann U, Lönnecker S, Steinhoff BJ, Paulus W (1996) The effect of lorazepam on the motor cortical excitability in man. Exp Brain Res 109 (1):127-35. PMID: 8740215
25. Ziemann U (2003) Pharmacology of TMS. Suppl Clin Neurophysiol 56 ():226-31. PMID: 14677399
26. Smith MJ, Keel JC, Greenberg BD, Adams LF, Schmidt PJ, Rubinow DA et al. (1999) Menstrual cycle effects on cortical excitability. Neurology 53 (9):2069-72. PMID: 10599783
27. Aurora SK, Ahmad BK, Welch KM, Bhardhwaj P, Ramadan NM (1998) Transcranial magnetic stimulation confirms hyperexcitability of occipital cortex in migraine. Neurology 50 (4):1111-4. PMID: 9566403
28. Manganotti P, Bongiovanni LG, Zanette G, Fiaschi A (2000) Early and late intracortical inhibition in juvenile myoclonic epilepsy. Epilepsia 41 (9):1129-38. PMID: 10999552
29. Garvey MA, Gilbert DL (2004) Transcranial magnetic stimulation in children. Eur J Paediatr Neurol 8 (1):7-19. DOI: 10.1016/j.ejpn.2003.11.002 PMID: 15023371
30. Boroojerdi B, Kopylev L, Battaglia F, Facchini S, Ziemann U, Muellbacher W et al. (2000) Reproducibility of intracortical inhibition and facilitation using the paired- Ghosh S & Nagarajan L - JICNA 2016, 16:113 8 pulse paradigm. Muscle Nerve 23 (10):1594-7. PMID: 11003798
31. Reutens DC, Berkovic SF (1992) Increased cortical excitability in generalised epilepsy demonstrated with transcranial magnetic stimulation. Lancet 339 (8789):362-3. PMID: 1346432
32. Reutens DC, Puce A, Berkovic SF (1993) Cortical hyperexcitability in progressive myoclonus epilepsy: a study with transcranial magnetic stimulation. Neurology 43 (1):186-92. PMID: 8423883
33. Badawy RA, Jackson GD, Berkovic SF, Macdonell RA (2013) Cortical excitability and refractory epilepsy: a three-year longitudinal transcranial magnetic stimulation study. Int J Neural Syst 23 (1):1250030. DOI: 10.1142/ S012906571250030X PMID: 23273126
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