Baş Ağrısı ile Başvuran Çocuklarda EEG ve EEG Bulguları

Özet

Referanslar

Davassi C, Pulitano P, Mecarelli O. Editor: Mecarelli O. Migraine. Clinical Electroencephalography, Springer Nature Switzerland AG, 2019; 697-709.

Hancı F, Kumandaş S, Canpolat M, Baş ağrısı ve EEG. Kumandaş S, Canpolat M, (ed.). Kumandaş & Canpolat Pediatrik ve Neonatal EEG Atlası. Akademisyen Kitabevi, 2023;40:601-8.

ICHD-3: Migraine. (2021). Accessed: May 11, 2022: https://ichd-3.org/1-migraine/.

Chamanzar A, Haigh SM, Grover P, Behrmann M: Abnormalities in cortical pattern of coherence in migraine detected using ultra high-density EEG. Brain Commun. 2021, 3:fcab061.

Schulte, L.H.; May, A. The migraine generator revisited: Continuous scanning of the migraine cycle over 30 days and three spontaneous attacks. Brain 2016, 139 Pt 7, 1987–1993.

Schulte, L.H.; Mehnert, J.; May, A. Longitudinal Neuroimaging over 30 Days: Temporal Characteristics of Migraine. Ann. Neurol. 2020, 87, 646–651.

Schulte, L.H.; Menz, M.M.; Haaker, J.; May, A. The migraineur’s brain networks: Continuous resting state fMRI over 30 days. Cephalalgia 2020, 40, 1614–1621.

Demarquay, G.; Mauguière, F. Central Nervous System Underpinnings of Sensory Hypersensitivity in Migraine: Insights from Neuroimaging and Electrophysiological Studies. Headache J. Head. Face Pain 2016, 56, 1418–1438.

Gollion, C. Cortical excitability in migraine: Contributions of magnetic resonance imaging. Rev. Neurol. 2021, 177, 809–815.

Tivadar, R.I.; Murray, M.M. A Primer on Electroencephalography and Event-Related Potentials for Organizational Neuroscience. Organ. Res. Methods 2019, 22, 69–94.

Sandrini, G.; Friberg, L.; Coppola, G.; Jänig, W.; Jensen, R.; Kruit, M.; Rossi, P.; Russell, D.; del Rìo, M.S.; Sand, T.; et al. Neurophysiological tests and neuroimaging procedures in non-acute headache (2nd edition). Eur. J. Neurol. 2011, 18, 373–381.

Hsiao, F.-J.; Chen, W.-T.; Pan, L.-L.H.; Liu, H.-Y.; Wang, Y.-F.; Chen, S.-P.; Lai, K.-L.; Coppola, G.; Wang, S.-J. Dynamic brainstem and somatosensory cortical excitability during migraine cycles. J. Headache Pain 2022, 23, 21.

Magis, D.; Vigano, A.; Sava, S.; D’elia, T.S.; Schoenen, J.; Coppola, G. Pearls and pitfalls: Electrophysiology for primary headaches. Cephalalgia 2013, 33, 526–539.

Omland, P.M.; Uglem, M.; Hagen, K.; Linde, M.; Tronvik, E.; Sand, T. Visual evoked potentials in migraine: Is the “neurophysiological hallmark” concept still valid? Clin. Neurophysiol. 2016, 127, 810–816.

Biondi, A.; Santoro, V.; Viana, P.F.; Laiou, P.; Pal, D.K.; Bruno, E.; Richardson, M.P. Noninvasive mobile EEG as a tool for seizure monitoring and management: A systematic review. Epilepsia 2022, 63, 1041–1063.

Bateson, A.D.; Baseler, H.A.; Paulson, K.S.; Ahmed, F.; Asghar, A.U. Categorisation of Mobile EEG: A Researcher’s Perspective. Biomed. Res. Int. 2017, 2017, 5496196.

Koeda, T.; Takeshima, T.; Matsumoto, M.; Nakashima, K.; Takeshita, K. Low interhemispheric and high intrahemispheric EEG coherence in migraine. Headache J. Head. Face Pain 1999, 39, 280–286.

De Tommaso, M.; Stramaglia, S.; Marinazzo, D.; Trotta, G.; Pellicoro, M. Functional and effective connectivity in EEG alpha and

beta bands during intermittent flash stimu-lation in migraine with and without aura. Cephalalgia 2013, 33, 938–947.

Frid, A.; Shor, M.; Shifrin, A.; Yarnitsky, D.; Granovsky, Y. A Biomarker for Discriminating Between Migraine with and Without Aura: Machine Learning on Functional Connectivity on Resting-State EEGs. Ann. Biomed. Eng. 2020, 48, 403–412.

Chamanzar, A.; Haigh, S.M.; Grover, P.; Behrmann, M. Abnormalities in cortical pattern of coherence in migraine detected using ultra high-density EEG. Brain Commun. 2021, 3, fcab061.

Riederer, F.; Beiersdorf, J.; Lang, C.; Pirker-Kees, A.; Klein, A.; Scutelnic, A.; Platho-Elwischger, K.; Baumgartner, C.; Dreier, J.P.; Schankin, C. Signatures of migraine aura in high-density-EEG. Clin. Neurophysiol. 2024, 160, 113–120.

Riederer, F.; Beiersdorf, J.; Lang, C.; Pirker-Kees, A.; Klein, A.; Scutelnic, A.; Platho-Elwischger, K.; Baumgartner, C.; Dreier, J.P.;Schankin, C. Signatures of migraine aura in high-density-EEG. Clin. Neurophysiol. 2024, 160, 113–120.

Hofmeijer, J.; Van Kaam, C.R.; van de Werff, B.; Vermeer, S.E.; Tjepkema-Cloostermans, M.C.; van Putten, M.J. Detecting Cortical Spreading Depolarization with Full Band Scalp Electroencephalography: An Illusion? Front. Neurol. 2018, 9, 17.

Diener, H.; Scholz, E.; Dichgans, J.; Gerber, W.; Jäck, A.; Bille, A.; Niederberger, U. Central effects of drugs used in migraine prophylaxis evaluated by visual evoked potentials. Ann. Neurol. 1989, 25, 125–130.

Spreafico, C.; Frigerio, R.; Santoro, P.; Ferrarese, C.; Agostoni, E. Visual evoked potentials in migraine. Neurol. Sci. 2004, 25 (Suppl.S3), s288–s290.

de Tommaso, M.; Marinazzo, D.; Guido, M.; Libro, G.; Stramaglia, S.; Nitti, L.; Lattanzi, G.; Angelini, L.; Pellicoro, M. Effects of levetiracetam vs topiramate and placebo on visually evoked phase synchronization changes of alpha rhythm in migraine. Clin. Neurophysiol. 2007, 118, 2297–2304.

Thomaides, T.; Karapanayiotides, T.; Kerezoudi, E.; Avramidis, T.; Haeropoulos, C.; Zoukos, Y.; Spantideas, A. Intravenous valproate aborts glyceryl trinitrate-induced migraine attacks: A clinical and quantitative EEG study. Cephalalgia 2008, 28, 250–256.

Melo-Carrillo, A.; Strassman, A.M.; Nir, R.-R.; Schain, A.J.; Noseda, R.; Stratton, J.; Burstein, R. Fremanezumab—A Humanized Monoclonal Anti-CGRP Antibody—Inhibits Thinly Myelinated (Aδ) But Not Unmyelinated (C) Meningeal Nociceptors. J. Neurosci. 2017, 37, 10587–10596.

Fogang Y, Gérard P, De Pasqua V, et al. Analysis and clinical correlates of 20 Hz photic driving on routine EEG in migraine. Acta Neurol Belg. 2015;115:39–45.

Tan HJ, Suganthi C, Dhachayani S, Rizal AM, Raymond AA. The electroencephalogram changes in migraineurs. Med J Malaysia. 2007;62:56–8.

Raieli, V., Puma, D., & Brighina, F. Role of neurophysiology in the clinical practice of primary pediatric headaches. Drug Development Research, 2007; 68(7): 389-396.

Anon. Practice parameter: the electroencephalogram in the evaluation of headache (summary statement). Report of the Quality Standards Subcommittee of the American Academy of Neurology. Neurology. 1995;45:1411–3.

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17 Temmuz 2026

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