PROBABLE ANTICONVULSIVE MECHANISMS OF REPETITIVE TRANSCRANIAL MAGNETIC STIMULATION AND PREDICTORS OF ITS EFFECTIVITY

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Abstract

Abstract: the data of analysis of probable anticonvulsive mechanisms of repetitive transcranial magnetic stimulation (rTMS) are presented on the article. The analysis bases on review of scientific publications and proper researches. Clinical, neurophysiological and neurovisualization predictors of complex therapy with rTMS course effectivity are interpreted what permit to prognoses the outcomes of new technology using and lead stimulation with reliable result of effectivity. 


About the Authors

O. V. Kisten
Belarusian medical academy of postgraduate education, Minsk
Belarus


V. V. Evstigneev
Belarusian medical academy of postgraduate education, Minsk
Belarus


References

1. Vlasov P.N. Nekotorye prakticheskie aspekty terapii jepilepsii u vzroslyh. Consilium medicum. 2004; 6 (2): 116-124.

2. Voronkova K.V., Pylaeva O.A., Kosjakova E.S. i dr. Sovremennye principy terapii jepilepsii. Zhurn. nevrol psihiatrii im. S.S. Korsakova 2010; 6: 24-36.

3. Geht A.B. Sovremennye standarty vedenija bolnyh jepilepsiej i osnovnye principy lechenija. Consilium Medicum [Jelektronnyj resurs]. 2000; 2 (2). Rezhim dostupa: http://www.consilium–medicum.com/media/consilium/n02/70.shtml. Data dostupa: 17.12.2011.

4. Gimranov R.F. Transkranialnaja magnitnaja stimuljacija. M., 2002. 163 s.

5. Gusev E.I., Belousov Ju.B., Geht A.B. i dr. Lechenie jepilepsii: racionalnoe dozirovanie antikonvulsantov. SPb. 2000; 201 s.

6. Evstigneev V.V., Kisten O.V. Kachestvo zhizni – indikator jeffektivnosti sochetannoj terapii jepilepsii nizkimi dozami antikonvulsantov i transkranialnoj magnitnoj stimuljacii. Jepilepsija i paroksizmalnye sostojanija. 2012; 4 (3): 41-47.

7. Evstigneev V.V., Kisten O.V. Transkranialnaja magnitnaja stimuljacija v kompleksnoj terapii jepilepsii. Annaly klinicheskoj i jeksperi-mentalnoj nevrologii. 2013; 7 (2): 20-26.

8. Zenkov L.R. Klinicheskaja jepileptologija. M. 2010; 308 s.

9. Kisten O.V., Evstigneev V.V., Ulashhik V.S., Dubovik B.V. Transkranialnaja magnitnaja stimuljacija v diagnostike i lechenii jepilepsii. Novosti mediko-biologicheskih nauk. 2009; 4: 99-108.

10. Kisten O.V. Rol impulsnyh magnitnyh polej v povyshenii poroga sudorozhnoj gotovnosti mozga. ArsMedica. 2011; 6 (42): 59-64.

11. Kisten O.V. Jeffekty ritmicheskoj transkranialnoj magnitnoj stimuljacii v pikrotoksinovoj modeli sudorog. Novosti mediko-biologicheskih nauk. 2011; 4 (4): 160-171.

12. Kisten O.V., Evstigneev V.V., Dubovik B.V. Jeksperimentalnoe obosnovanie sochetannogo primenenija ritmicheskoj transkranialnoj magnitnoj stimuljacii i antikonvulsantov. Medicinskie novosti. 2012; 1: 83-88.

13. Kisten O.V. Jeffektivnost transkranialnoj magnitnoj stimuljacii v korazolovoj modeli jepilepsii. Novosti mediko-biologicheskih nauk. 2012; 5 (1): 38-48.

14. Kisten O.V., Evstigneev V.V. Klinicheskaja harakteristika jeffektivnosti sochetannogo primenenija transkranialnoj magnitnoj stimuljacii i antikonvulsantov v terapii jepilepsii. 2012; 8 (63): 150-160.

15. Kisten O.V. Ocenka jeffektivnosti transkranialnoj magnitnoj stimuljacii u pacientov s jepilepsiej po parametram migatelnogo refleksa. 2012; 8 (63): 142-149.

16. Kisten O.V., Ulashhik V.S., Evstigneev V.V. Protivosudorozhnoe dejstvie impulsnyh magnitnyh polej v jelektroshokovoj modeli. Fizioterapija, balneologija i reabilitacija. 2012; 4: 9-13.

17. Kisten O.V., Evstigneev V.V. Nejrometabolicheskie jeffekty ritmicheskoj transkranialnoj magnitnoj stimuljacii u pacientov s jepilepsiej po dannym protonnoj magnitno-rezonansnoj spektroskopii. Mezhdunarodnyj nevrologicheskij zhurnal. 2013; 3 (57): 46-52.

18. Muhin K.Ju. Petruhin A.S., Rykova E.A. Pobochnye jeffekty antikonvulsantov pri lechenii idiopaticheskoj generalizovannoj jepilepsii. Zhurnal nevrologii i psihiatrii im. S.S. Korsakova. 1997; 7: 25-31.

19. Nikitin S. S., Kurenkov A. L. Magnitnaja stimuljacija v diagnostike i lechenii boleznej nervnoj sistemy. M. 2003; 378 s.

20. Odinak M.M., Bazilevich S.N., Dyskin D.E., Prokudin M.Ju. Vozmozhnosti i opyt primenenija funkcionalnyh metodov nejrovizualizacii v jepileptologii. Jepilepsija i paroksizmalnye sostojanija. 2010; 2 (3): 45-50.

21. Anschel D.J., Pascual¬Leone A., Holms G.L. Anti¬kindling effect of slow repetitive transcranial magnetic stimulation in rats. Neurosci Lett. 2003; 351 (1): 9¬12.

22. Kistsen V., Evstigneev V., Dubovik B., Kravchenko E., Ulashchic V. Anticonvulsive effects of experimental transcranial magnetic stimulation. Nonlinear Phenomena in Complex Systems. 2011; 14 (3): 269¬277.

23. Babb T.L. Brown W.J. Pathological Findings in Epilepsy. Surgical Treatment of the Epilepsies. Ed. by J. Jr. Engel. N. Y., 1987: 511¬540.

24. Brodie M.J., Kwan P. Staged approach to epilepsy management. Neurology. 2002; 58 (5): 2¬8.

25. Brodie M.J., Schachter S.C., Kwan P. Fast Facts: Epilepsy. Oxford. 2005. 127 p.

26. Cantello R. Rossi S., Varrasi C. et al. Slow Repetitive TMS for Drug¬resistant Epilepsy: Clinical and EEG Findings of a Placebo¬controlled Trial. Epilepsy. 2007; 48: 366¬374.

27. Chen R., Wassermann E.M., Hallett M. Depression of motor cortex excitability by low¬frequency transcranial magnetic stimu¬lation. Neurology. 1997; 48 (5): 1398¬1403.

28. Kwan P., Arzimanoglou A., Berg A.T., Brodie M.J. et al. Definition of drug resistant epilepsy: Consensus proposal by the ad hoc Task Force of the ILAE Commission on Therapeutic Strategies. Epilepsia. 2010; 51 (6): 1069¬1077.

29. Erhardt A. Sillaber I., Welt T. Repetitive Transcranial Magnetic Stimulation Increases the Release of Dopamine in the Nucleus Accumbens Shell of Morphine¬Sensitized Rats During Abstinence. Neuropsychophar¬macology. 2000; 29: 2074¬2080.

30. Fleischmann A., Steppel J., Leon A. The effect of transcranial magnetic stimulation compared with electroconvulsive shock on rat apomorphine¬induced stereotypy. Eur. Neuropsychopharmacol. 1994; 4: 449¬450.

31. Fleischmann A., Sternheim A., Fleischmann A., Etgen A.M. Transcranial magnetic stimulation downregulates beta¬adrenoreceptors in rat cortex. J. Neural Transm. 1996; 103: 1361¬1366.

32. Funke K., Ben¬Ali A. Modulation of Cortical Inhibition by rTMS – Findings Obtaned from Animal Models. J. Physiol. 2011; 589: 4423¬4435.

33. Graff¬Guerrero A., Gonzales¬Olvera J., Ruiz¬Garcia M., Avila¬Ordonez U., Vauqier V., Garcia¬Reyna J.C. rTMS reduces focal brain hyperperfusion in two patients with EPC. Acta Neurol Scand. 2004; 109 (4): 290¬296.

34. Gur E. Chronic repetitive transcranial magnetic stimulation induces subsensitivity of presynaptic serotonergic autoreceptor activity in rat brain. Neuroreport. 2000; 11 (13): 2925¬2929.

35. He J., Hsiang H.L., Wu C., Mylvagnanam S., Carlen P.L., Zhang L. Cellular mechanisms of cobalt¬induced hippocampal epileptiform discharges. Epilepsia. 2009; 50 (1): 99¬115.

36. Huang M., Yu J.M., Wang X.M., Wang L. The effects of pretreatment with low frequency transcranial magnetic stimulation on rats with pilocarpine¬induced seizures. Chinese Journal of physical medicine and rehabilitation. 2009; 3 (4): 228¬231.

37. Glauser T. et al. ILAE treatment guidelines: evidence¬based analysis of antiepileptic drug efficacy and effectiveness as initial monotherapy for epileptic seizures and syndromes. Epilepsia. 2006; 47: 1094¬1120.

38. Ilmoniemi R., Virtanen J., Ruohonen J. Neuronal responses to magnetic stimulation reveal cortical reactivity and connectivity. Neuroreport. 1997; 8 (16): 3537¬3540.

39. Keck M.E., Welt T., Post A. Neuroendocrine and Behavioral Effects of Repetitive Transcranial Magnetic Stimulation in a Psycho¬pathological Animal Model Are Suggestive of Antidepressant¬like Effects. Neuropsycho¬pharmacology. 2000; 24: 337¬349.

40. Kцhling R., Vreugdenhil M., Bracci E., Jefferys J.G.R. Ictal Epileptiform Activity Is Facilitated by Hippocampal GABAA Receptor¬Mediated Oscillations. The Journal of Neuroscience. 2000; 20 (18): 6820¬6829.

41. Kwan P. Brodie M.J. Early identification of refractory epilepsy. N. Engl. J. Med. 2000; 342: 314¬319.

42. Lisanby S.H., Luber B. rTMS in primatica: intracerebral measurement of rTMS and EST indused voltage in vivo. EEG Clin. Neurophysiol. 1998; 107: 79.

43. Michael N., Gosling M., Reutemann M., Kersting A. et al. Metabolic changes after repetitive transcranial magnetic stimulation (rTMS) of the left prefrontal cortex: a sham¬controlled proton magnetic resonance spect¬roscopy (IH MRS) study of healthy brain. Eur. J. Neurosci. 2003; 17 (11): 2462¬2468.

44. Miller M.B., Toschi N., Kresse A.E. Long¬Term Repetitive Transcranial Magnetic Stimulation Increases the Expression of Brain¬Derived Neurotrophic Factor and Cholecystokinin mRNA, but not Neuropeptide Tyrosine mRNA in Specific Areas of Rat Brain. Neuropsychophar¬macology. 2000; 23: 205¬215.

45. Ogawa A., Ukai S., Yamamoto M. Slow repetitive transcranial magnetic stimulation increases somatosensory high¬frequency oscillations in humans. Neurosci. Lett. 2004; 3 (358): 193¬196.

46. Panayotopoulos A. Principles of Therapy in the Epilepsies. A Clinical Guide to Epileptic Syndromes and their Treatment. Springer. 2007: 155¬184.

47. Pascual¬Leone A., Davey N.J., Rothwell J., Wassermann E.M., Puri B.K. Handbook of transcranial magnetic stimulation. London. 2002. 406 P.

48. Post A., Mariannne B., Keck M.E. Repetitive transcranial magnetic stimulation in rats: evidence for aneuro protective effect in vitro and in vivo. Eur. J. Neurosci. 1999; 11 (9): 3247¬3254.

49. Rossini P.M., Rossi S. Transcranial magnetic stimulation: diagnostic, therapeutic and research potential. Neurology. 2007; 68: 484¬488.

50. Rotenberg A., Muller P., Birnbaum D. et al. Seizure suppression by EEG¬guided repetitive transcranial magnetic stimulation in the rat. Clin Neurophysiol. 2008; 119 (12): 2697¬2702.

51. Song Y.J., Tian X. Effects of transcranial magnetic stimulation on hippocampus metabolic function in rats with temporal lobe epilepsy. Chinese Journal of Physical medi¬cine and rehabilitation. 2005; 27 (2): 75¬78.

52. Speer A.M., Benson B.E., Kimbrell T.K., Wassermann E.M. et al. Opposite effects of high and low frequency rTMS on mood in depressed patients: relationship to baseline cerebral activity on PET. J. Affect. Disord. 2009; 115 (3): 386¬394.

53. Wei S., Wei F., Wei M., Wang D. et al. Low¬Frequency Repetitive transcranial magnetic stimulation for the Treatment of Refractory Partial Epilepsy. Clin. EEG and Neuroscience. 2011; 42: 40¬44.

54. Zangen A., Hyodo K. Transcranial magnetic stimulation induces increases in extracellular levels of dopamine and glutamate in the nucleus accumbens. Neuroreport. 2002; 13 (18): 2401¬2405.

55. Zhang J.Q., Yu J.M., Wang X.M., Zhao H.N. et al. Effects of pretreatment with low¬fre¬quency repetitive transcranial magnetic stimulation on expressions of hippocampus GAD65 and NMDAR¬1 in rats with pilocar¬pine¬induced seizures. Chinese Journal of Neuroimmunology and Neurology. 2008; 15 (6): 430¬433.

56. Zhong L.T., Sarafian T., Kane D.J., Charles A.C., Mah S.P. et al. Bcl¬2 inhibits death of central neural cells induced by multiple agents. Proc. Natl. Acad. Sci. 1993; 90 (10): 4533¬4537.


Supplementary files

For citation: Kisten O.V., Evstigneev V.V. PROBABLE ANTICONVULSIVE MECHANISMS OF REPETITIVE TRANSCRANIAL MAGNETIC STIMULATION AND PREDICTORS OF ITS EFFECTIVITY. Epilepsia and paroxyzmal conditions. 2014;6(1):19-26.

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