UKRAINS'KYI VISNYK PSYKHONEVROLOHII

The Scientific and Practical Journal of Medicine
ISSN 2079-0325(p)
DOI 10.36927/2079-0325
Home » Archive of numbers » 2020 » Volume 28, issue 1 (102) » Main mechanisms of post-traumatic brain’s epileptization (Literature review)

Main mechanisms of post-traumatic brain’s epileptization (Literature review)

Authors

Type of Article

  • Scientific Article

In the Section

  • LITERATURE REVIEW

Key words

Index UDK:
  • 616.853-085.213:616.12

Abstract

The problem of traumatic brain injury, its consequences in the long term is relevant for neurologists and doctors of related specialties involved in the treatment, diagnosis and rehabilitation of such a contingent of patients. There are about a dozen syndromes; yaks are most common after an injury. However, one of the most frequent and formidable consequences of traumatic brain damage is post-traumatic epilepsy, which is the main identified cause of symptomatic epilepsy at a young age.

The work highlights the “trigger” mechanisms of traumatic brain injury, in particular, oxidative stress, which is an essential component both in the early and long-term periods of CNS damage and leads to the disintegration of all its levels, contributes to the development of basic neuropathological syndromes and primarily post-traumatic epilepsy.

The problems of interpreting terminology are considered, when the diagnosis is based only on the fact of the presence of a brain injury, differentiation of this kind of symptomatic convulsive syndrome from other epileptic seizures, the dependence of development on the severity of a head injury (severe injury gives an increased risk of seizures 29 times higher than mild), staging and major risk factors for this type of epileptogenesis, as well as disorganization and damage to the antiepileptic system. A spectrum of convulsive seizures is described, in particular partial, taking into account the localization characteristic of a traumatic brain injury with the predominance of its lesion forms.

It is necessary to take into account the occurrence of delayed brain damage, in particular disorders of the immune system, the correlation of the course of post-traumatic epilepsy with the degree of development of hydrocephalus, hypoperfusion of brain areas, glial barrier insuffi ciency, will contribute to the formation of convulsive activity. It is necessary to take into account the family history.

Pages

  • 79-83

Year / Issue

Download PDF

References

  1. Iliev R. T., Dostaeva B. S. Posttraumatic epilepsy // Bulletin of KazNMU. 2015. № 2. С. 385-386.
  2. Diagnosis and treatment of posttraumatic epilepsy / O. A. Grinenko, O. S. Zaitsev, L. B. Oknina [et al] // Neurology, neuropsychiatry, psychosomatics. 2011. № 3. С. 13-17.
  3. Immunologic changes in craniocerebral trauma / [R. H. Isaeva, I. A. Avtonyuk, A. V. Gridyakina, A. E. Evstafieva] // International Journal of Applied and Fundamental Research. 2014. № 8 (part 2). С. 41-47.
  4. Seo W., Oh H. Comparisons of acute physiological parameters influencing outcome in patients with traumatic brain injury and hemorrhagic stroke // Worldviews Evid. Based Nurs. 2009. Vol. 6. No. 1. P. 36—43. DOI: https://doi.org/10.1111/j.1741-6787.2008.00139.x.
  5. Niizuma K., Endo H., Chan   H. Oxidative stress and mitochondrial dysfunction as  determinants of  ischemic neuronal death and survival  // J. Neurochem. 2009. Vol.  109 (Suppl. 1). S. 133—138. DOI: https://doi.org/10.1111/j.1471-4159.2009.05897.x.
  6. Boldyrev A. A., Kukley M. L. Free radicals in normal and ischemic brain // Neurochemistry. 1996. Т. 13. С. 25-29.
  7. Dysregulation pathology of the nervous system / edited by E. I. Gusev, G. N. Kryzhanovsky. М. Medical Information Agency, 2009. 512 с.
  8. urbanova S. A. Clinical and neurophysiologic features of symptomatic posttraumatic epilepsy : autoref. diss. for the degree of Candidate of Medical Sciences, specialty: 14.00.13 - "Nervous Diseases". М., 2007. 18 с.
  9. Likhterman L. B. Classification of traumatic brain injury. Part 3. Components of the diagnosis of traumatic brain injury and principles of its construction // Forensic Medicine. 2015. Т. 1, № 4. С. 34-40.
  10. Haltiner A. M., Temkin N. R., Dikmen S. S. Risk of seizure recurrence after the first late posttraumatic seizure // Arch Phys Med Rehabil. 1997; (78): 835—40.
  11. Zaitsev O. S., Grinenko O. A., Shaginyan G. G. Early convulsive seizures and posttraumatic epilepsy // Neurosurgery and Neurology of Kazakhstan. 2010. № 4 (21). С.20-24.
  12. Savitskiy I. V., Myronov A. A., Miastkovskaja I. V. Endothelial dysfunction in posttraumatic epilepsy = Savitskiy I. V., Myronov A. A., Miastkovskaja I. V. V., Myronov A. A., Miastkovskaja I. V. Endothelial dysfunction in post-traumatic epilepsy // Jornal of Education, Health and Sport. 2016; 6(6); 245-252. eISSN 2391-8306. eISSN 2391-8306. DOI: https://doi.org/10.5281/zenodo.55357.
  13. Alekseenko Y. V. Posttraumatic epilepsy: problems of diagnostics, treatment and prevention // Medical News. 2006. № 11. С. 25-28.
  14. Bramlett H. M., Dietrich W. D. Pathophysiology of ischemic and traumatic brain injury: similarities and differences // Emergency Medicine. 2006. № С. 36-43. URL: http://www.mif-ua.com/archive/article/1036.
  15. Volokhova G. A., Stoyanov A. N., Vastyanov R. S. Intensification of lipoperoxidation processes and suppression of activity of antiradical mechanisms as unidirectional mechanisms of brain damage // Liki Ukrainy. 2009. № 5 (131) / С. 92-97.
  16. Gertsev V. N. N., Stoyanov A. N., Bocherova T. I. Applied clinical and pathogenetic aspects of interdisciplinary interaction in the diagnosis and treatment of concussion // Journal of Education, Health and Sport. 2017; 7 (5): 913-927. URL: http://repo.odmu.edu.ua:80/xmlui/handle/123456789/2995.
  17. Translational Research in Traumatic Brain Injury / Laskowitz , Grant G., editors. Chapter 14. Blood–Brain Barrier Pathophysiology following Traumatic Brain Injury. Boca Raton (FL): CRC Press/Taylor and Francis Group; 2016. DOI: https://doi.org/10.1201/b18959.
  18. Pesochina E. A. Significance of hereditary-constitutional factors in the formation of remote consequences of craniocerebral trauma : autoref. diss. for the degree of Candidate of Medical Sciences. Kharkov, 1989. 23 с.
  19. Features of vegetative dystonia syndrome in patients with posttraumatic epilepsy / [V. N. Grimaylo, T. A. Litovchenko, Y. V. Yakubenko, T. V. Markova] // International Medical Journal. 2015. № 3. С 32-35.
  20. The use of the drug Mexidol in the complex treatment of children with posttraumatic epilepsy / MV Barkhatov, AV Nosyrev, AV Dekhtyar, M. Yu Galaktionova // Bulletin of Experimental Biology and Medicine. 2006. Appendix 1. С. 9-13.
  21. Hervan S. T. Epilepsy after brain insult: targeting epileptogenesis // Neurology. 2002. 59 (9 Suppl 5): S21—6. DOI: https://doi.org/10.1212/wnl.59.9_suppl_5.s21.59 (9 Suppl 5): S21—6.
  22. Antonawich F. J., Azmitia E. C., Kramer H. K., Strand F. L. Specifi city versus redundancy of melanocortins in nerve regeneration // Ann. NY Acad. Sci., 1994, Vol. Р.  60—73. DOI: https://doi.org/10.1111/j.1749-6632.1994.tb19807.x.
  23. Neurology. National guide / Gusev E. I., Konovalov A. N., Skvortsova V. I., Gecht A. B. M. : GOETAR-Media, 2013. 1040 с.
  24. Howard Gardner. The Structure of Mind: Theory of Multiple Intelligence : transl. from Engl. Moscow: "I. D. Williams", 2007. 512 с.
  25. Magnitskaya K. B. Epileptogenesis and pathogenetic therapy // Epilepsy in children: problems and solutions : materials of the international conf. Volgograd, 2007. С. 6-13.
  26. Pathophysiology : a guide to practical training : textbook / edited by V. V. Novitsky, O. I. Urazova. V. Novitsky, O. I. Urazova. М., 2011. 336 с.
  27. Vastyanov RS, Shandra OA Functional restructuring and change of cortical motor neurons localization under conditions of chronic epileptic activity // Tauride Medical and Biological Bulletin. 2012. Т. 15, № 3. С. 51-53.
  28. Symptomatic post-traumatic epilepsy. Clinic, diagnosis and treatment : methodical recommendations / Avakyan G. N., Generalov V. O., Oleinikova O. M. М. [et al.] М., 2004. 40 с.
  29. Guzeva V. I. Epilepsy and non-epileptic paroxysmal states in children. М. : Medical Information Agency, 2007. 568 с.
  30. Generalov V. O. Epilepsy and structural brain damage: autoref. dissertation for the degree of Doctor of Medical Sciences. М., 2010. 35 с.
  31. Generalov V. O., Mishnyakova L. P., Fedin A.. I. Influence of epileptic activity focus localization on the timing of posttraumatic epilepsy development // Materials of the X All-Russian Congress of Neurologists. Yaroslavl, 2006. С. 535.
  32. Premature mortality in epilepsy and the role of psychiatric comorbidity: a  total population study  / Fazel S., Wolf  , Långström  N. [et  al.]  // The  Lancet. 2013. Vol.  382. No.  9905. P. 1646—1654. DOI: https://doi.org/10.1016/S0140-6736(13)60899-5.
  33. Feeney D. M., Walker A. E. The prediction of posttraumatic epilepsy. A mathematical approach // Arch Neurol. 1979; 36: 8—12. DOI: https://doi.org/10.1001/archneur.1979.00500370038005.
  34. Late seizures in patients with internal carotid and middle cerebral artery occlusive disease following ischaemic events / De Carolis  , D’Alessandro R., Ferrara R. [et  al.]  // J  Neurol Neurosurg Psychiatry. 1984; 47 (12): 1345—1347. DOI: https://doi.org/10.1136/jnnp.47.12.1345.
  35. Seizures after primary intracerebral hemorrhage / Faught E., Peters D., Bartolucci A. [et al.] // Neurology. 1989; 39: 1089—1093. DOI: https://doi.org/10.1212/wnl.39.8.1089.
  36. Willmore J., Sypert G. W., Munson J.  B. Recurrent seizures induced by  cortical iron injection: a  model of  post-traumatic epilepsy // Ann Neurol. 1978; 4: 329—336. DOI: https://doi.org/10.1002/ana.410040408.
  37. Aisen P. Some Physicochemical Aspects of Iron Metabolism. In: Ciba Foundation Symposium (Book Editors: R. Porter D. W.  Fitzsimons). New York  : Elsevier, 1976; (51): 1—17. DOI: https://doi.org/10.1002/9780470720325.ch1.

Journal’s Indexing:

UKRAINS'KYI VISNYK PSYKHONEVROLOHII

The Scientific and Practical Journal of Medicine

ДУ «ІНПН імені
П.В. ВОЛОШИНА
НАМН УКРАЇНИ»