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Journal of Information and Optimization Sciences Volume 43, 2022 - Issue 4
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Research Article

Lack of habituation in migraine patients and Evoked Potential types: Analysis study from EEG signals

Msallam Abbas Abdulhussein1 Department of Biomedical Engineering, College of Precision Instruments and Optoelectronics Engineering, Tianjin University, Tianjin300072, China;2 Faculty of Computer Science and Mathematics, Kufa University, Najaf, IraqCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-5501-8625
ORCID Icon,
Xingwei An3 Tianjin International Joint Research Centre for Neural Engineering, Academy of Medical Engineering and Translational Medicine, Tianjin University, Tianjin300072, China E-mail: [email protected]
,
Akeel A. Alsakaa4 Department of Computer Science, University of Kerbala, Karbala, Iraq E-mail: [email protected]
&
Dong Ming5 Department of Biomedical Engineering, College of Precision Instruments and Optoelectronics Engineering, Tianjin University, Tianjin300072, China E-mail: [email protected]
Pages 855-891 | Received 01 Dec 2021, Published online: 11 Aug 2022

References

  • Estave, P. M., Beeghly, S., Anderson, R., Margol, C., Shakir, M., George, G., … Wells, R. E. (2021). Learning the full impact of migraine through patient voices: A qualitative study. Headache: The Journal of Head and Face Pain.
  • Maleki, N., Szabo, E., Becerra, L., Moulton, E., Scrivani, S. J., Burstein, R., Borsook, D. (2021). Ictal and interictal brain activation in episodic migraine: neural basis for extent of allodynia. Plos One, 16(1), e0244320.
  • Goadsby, P. J., Charbit, A. R., Andreou, A. P., Akerman, S., Holland, P. R. (2009). Neurobiology of migraine. Neuroscience, 161(2), 327-341.
  • Schoenen, J., Wang, W., Albert, A., Delwaide, P. J. (1995). Potentiation instead of habituation characterizes visual evoked potentials in migraine patients between attacks. European Journal of Neurology, 2(2), 115-122.
  • Coppola, G., Iacovelli, E., Bracaglia, M., Serrao, M., Di Lorenzo, C., Pierelli, F. (2013). Electrophysiological correlates of episodic migraine chronification: evidence for thalamic involvement. The Journal of Headache and Pain, 14(1), 1-8.
  • Ambrosini, A., Coppola, G. (2020). Transcranial direct current stimulation. In Neuromodulation in Headache and Facial Pain Management (pp. 111-118). Springer, Cham.
  • Fumal, A., Coppola, G., Bohotin, V., Gérardy, P. Y., Seidel, L., Donneau, A. F., … Schoenen, J. (2006). Induction of long-lasting changes of visual cortex excitability by five daily sessions of repetitive transcranial magnetic stimulation (rTMS) in healthy volunteers and migraine patients. Cephalalgia, 26(2), 143-149.
  • Ambrosini, A., Coppola, G., Iezzi, E., Pierelli, F., Schoenen, J. (2017). Reliability and repeatability of testing visual evoked potential habituation in migraine: A blinded case–control study. Cephalalgia, 37(5), 418-422.
  • de Tommaso, M., Valeriani, M., Oberman, M. (2021). Pain-Related Evoked Potentials. In Neurophysiology of the Migraine Brain (pp. 133-142). Springer, Cham.
  • Stankewitz, A., Schulz, E., May, A. (2013). Neuronal correlates of impaired habituation in response to repeated trigemino-nociceptive but not to olfactory input in migraineurs: an fMRI study. Cephalalgia, 33(4), 256-265.
  • de Tommaso, M., Trotta, G., Vecchio, E., Ricci, K., Van de Steen, F., Montemurno, A., … Stramaglia, S. (2015). Functional connectivity of EEG signals under laser stimulation in migraine. Frontiers in Human Neuroscience, 9, 640.
  • Golla, F. L., Winter, A. L.(1959). Analysisofcerebralresponsestoflicker in patients complaining of episodic headache. Electroencephalography and Clinical Neurophysiology, 11(3), 539-549.
  • Bjørk, M., Hagen, K., Stovner, L. J., Sand, T. (2011). Photic EEG-driving responses related to ictal phases and trigger sensitivity in migraine: a longitudinal, controlled study. Cephalalgia, 31(4), 444-455.
  • Coppola, G., Pierelli, F., Schoenen, J. (2009). Habituation and migraine. Neurobiology of Learning and Memory, 92(2), 249-259.
  • Pfueller, U., Oelkers-Ax, R., Gmehlin, D., Parzer, P., Roesch-Ely, D., Weisbrod, M., Bender, S. (2011). Maturation of P300 amplitude and short-term learning as reflected by P300 habituation between trial blocks in children. International Journal of Psychophysiology, 79(2), 184-194.
  • Siniatchkin, M., Averkina, N., Gerber, W. D. (2006). Relationship between precipitating agents and neurophysiological abnormalities in migraine. Cephalalgia, 26(4), 457-465.
  • De Icco, R., Cucinella, L., De Paoli, I., Martella, S., Sances, G., Bitetto, V., … Nappi, R. E. (2016). Modulation of nociceptive threshold by combined hormonal contraceptives in women with oestrogen-withdrawal migraine attacks: a pilot study. The Journal of Headache and Pain, 17(1), 1-5.
  • Harriott, A. M., Takizawa, T., Chung, D. Y., Chen, S. P. (2019). Spreading depression as a preclinical model of migraine. The Journal of Headache and Pain, 20(1), 1-12.
  • Brighina, F., Cosentino, G., Fierro, B. (2015). Is lack of habituation a biomarker of migraine? A critical perspective. The Journal of Headache and Pain, 16(1), 1-1.
  • Hadjikhani, N., Del Rio, M. S., Wu, O., Schwartz, D., Bakker, D., Fischl, B., Moskowitz, M. A. (2001). Mechanisms of migraine aura revealed by functional MRI in human visual cortex. Proceedings of the National Academy of Sciences, 98(8), 4687-4692.
  • Zhang, Y., Kong, Q., Chen, J., Li, L., Wang, D., Zhou, J. (2016). International Classification of Headache Disorders 3rd edition beta-based field testing of vestibular migraine in China: Demographic, clinical characteristics, audiometric findings and diagnosis statues. Cephalalgia, 36(3), 240-248.
  • Enger, R., Tang, W., Vindedal, G. F., Jensen, V., Johannes Helm, P., Sprengel, R., … Nagelhus, E. A. (2015). Dynamics of ionic shifts in cortical spreading depression. Cerebral Cortex, 25(11), 4469-4476.
  • Somjen, G. G. (2001). Mechanisms of spreading depression and hypoxic spreading depression-like depolarization. Physiological Reviews, 81(3), 1065-1096.
  • Iadecola, C. (2002). From CSD to headache: a long and winding road. Nature Medicine, 8(2), 110-112.
  • Ramachandran, R. (2018, May). Neurogenic inflammation and its role in migraine. In Seminars in Immunopathology (Vol. 40, No. 3, pp. 301-314). Springer Berlin Heidelberg.
  • Dodick, D. W. (2018). A phase-by-phase review of migraine pathophysiology. Headache: The Journal of Head and Face Pain, 58, 4-16.
  • Goadsby, P. J., Holland, P. R., Martins-Oliveira, M., Hoffmann, J., Schankin, C., Akerman, S. (2017). Pathophysiology of migraine: a disorder of sensory processing. Physiological Reviews.
  • Hadjikhani, N., Ward, N., Boshyan, J., Napadow, V., Maeda, Y., Truini, A., … Mainero, C. (2013). The missing link: enhanced functional connectivity between amygdala and visceroceptive cortex in migraine. Cephalalgia, 33(15), 1264-1268.
  • De Tommaso, M., Ambrosini, A., Brighina, F., Coppola, G., Perrotta, A., Pierelli, F., … Schoenen, J. (2014). Altered processing of sensory stimuli in patients with migraine. Nature Reviews Neurology, 10(3), 144-155.
  • Schoonman, G. G., Evers, D. J., Terwindt, G. M., Van Dijk, J. G., Ferrari, M. D. (2006). The prevalence of premonitory symptoms in migraine: a questionnaire study in 461 patients. Cephalalgia, 26(10), 1209-1213.
  • Lipton, R. B., Stewart, W. F., Diamond, S., Diamond, M. L., Reed, M. (2001). Prevalence and burden of migraine in the United States: data from the American Migraine Study II. Headache: The Journal of Head and Face Pain, 41(7), 646-657.
  • Bartsch, T. (2005). Migraine and the neck: new insights from basic data. Current Pain and Headache Reports, 9(3), 191-196.
  • Noseda, R., Burstein, R. (2013). Migraine pathophysiology: anatomy of the trigeminovascular pathway and associated neurological symptoms, cortical spreading depression, sensitization, and modulation of pain. PAIN®, 154, S44-S53.
  • Malick, A., Strassman, R. M., Burstein, R. (2000). Trigeminohypothalamic and reticulohypothalamic tract neurons in the upper cervical spinal cord and caudal medulla of the rat. Journal of Neurophysiology, 84(4), 2078-2112.
  • Ferrari, M. D., Klever, R. R., Terwindt, G. M., Ayata, C., van den Maagdenberg, A. M. (2015). Migraine pathophysiology: lessons from mouse models and human genetics. The Lancet Neurology, 14(1), 65-80.
  • de Boer, I., van den Maagdenberg, A. M., Terwindt, G. M. (2019). Advance in genetics of migraine. Current opinion in neurology, 32(3), 413.
  • Sutherland, H. G., Albury, C. L., Griffiths, L. R. (2019). Advances in genetics of migraine. The Journal of Headache and Pain, 20(1), 1-20.
  • Afra, J., Mascia, A., Génicot, R., Albert, A., Schoenen, J. (2000). Influence of colors on habituation of visual evoked potentials in patients with migraine with aura and in healthy volunteers. Headache: The Journal of Head and Face Pain, 40(1), 36-40.
  • Siniatchkin, M., Kirsch, E., Kropp, P., Stephani, U., Gerber, W. D.(2000). Slow cortical potentials in migraine families. Cephalalgia, 20(10), 881-892.
  • Di Clemente, L., Coppola, G., Magis, D., Fumal, A., De Pasqua, V., Di Piero, V., Schoenen, J. (2007). Interictal Habituation Deficit of the Nociceptive Blink Reflex: An Endophenotypic Marker for Presymptomatic Migraine? Brain, 130(3), 765-770.
  • Lisicki, M., Ruiz-Romagnoli, E., D’Ostilio, K., Piedrabuena, R., Giobellina, R., Schoenen, J., Magis, D. (2017). Familial history of migraine influences habituation of visual evoked potentials. Cephalalgia, 37(11), 1082-1087.
  • Luk, K. D. K., Hu, Y., Wong, Y. W., Cheung, K. M. C. (2001). Evaluation of various evoked potential techniques for spinal cord monitoring during scoliosis surgery. Spine, 26(16), 1772-1777.
  • Legatt, A. D. (2014). Evoked Potentials. In Encyclopedia of the Neurological Sciences (pp. 228-231). Elsevier Inc.
  • Drummond, P. D. (1986). A quantitative assessment of photophobia in migraine and tension headache. Headache: The Journal of Head and Face Pain, 26(9), 465-469.
  • Mulleners, W. M., Chronicle, E. P., Palmer, J. E., Koehler, P. J., Vredeveld, J. W. (2001). Visual cortex excitability in migraine with and without aura. Headache: The Journal of Head and Face Pain, 41(6), 565-572.
  • Zhang, X., Levy, D., Kainz, V., Noseda, R., Jakubowski, M., Burstein, R. (2011). Activation of central trigeminovascular neurons by cortical spreading depression. Annals of Neurology, 69(5), 855-865.
  • Omland, P. M., Nilsen, K. B., Uglem, M., Gravdahl, G., Linde, M., Hagen, K., Sand, T. (2013). Visual evoked potentials in interictal migraine: no confirmation of abnormal habituation. Headache: The Journal of Head and Face Pain, 53(7), 1071-1086.
  • Judit, A., Sandor, P. S., Schoenen, J. (2000). Habituation of visual and intensity dependence of auditory evoked cortical potentials tends to normalize just before and during the migraine attack. Cephalalgia, 20(8), 714-719.
  • Coppola, G., Curra, A., Sava, S. L., Alibardi, A., Parisi, V., Pierelli, F., Schoenen, J. (2010). Changes in visual-evoked potential habituation induced by hyperventilation in migraine. The Journal of Headache and Pain, 11(6), 497-503.
  • Afra, J., Cecchini, A. P., Sandor, P. S., Schoenen, J. (2000). Comparison of visual and auditory evoked cortical potentials in migraine patients between attacks. Clinical Neurophysiology, 111(6), 1124-1129.
  • Young, W. B., Oshinsky, M. L., Shechter, A. L., Gebeline-Myers, C., Bradley, K. C., Wassermann, E. M. (2004). Consecutive transcranial magnetic stimulation: phosphene thresholds in migraineurs and controls. Headache: The Journal of Head and Face Pain, 44(2), 131-135.
  • Gerwig, M., Niehaus, L., Kastrup, O., Stude, P., Diener, H. C. (2005). Visual cortex excitability in migraine evaluated by single and paired magnetic stimuli. Headache: The Journal of Head and Face Pain, 45(10), 1394-1399.
  • Ambrosini, A., Iezzi, E., Perrotta, A., Kisialiou, A., Nardella, A., Berardelli, A., … Schoenen, J. (2016). Correlation between habituation of visual-evoked potentials and magnetophosphene thresholds in migraine: A case-control study. Cephalalgia, 36(3), 258-264.
  • Lisicki, M., Ruiz-Romagnoli, E., D’Ostilio, K., Piedrabuena, R., Giobellina, R., Schoenen, J., Magis, D. (2017). Familial history of migraine influences habituation of visual evoked potentials. Cephalalgia, 37(11), 1082-1087.
  • Coppola, G., Di Lorenzo, C., Parisi, V., Lisicki, M., Serrao, M., Pierelli, F. (2019). Clinical neurophysiology of migraine with aura. The Journal of Headache and Pain, 20(1), 1-10.
  • Ashkenazi, A., Mushtaq, A., Yang, I., Oshinsky, M. L. (2009). Ictal and interictal phonophobia in migraine—a quantitative controlled study. Cephalalgia, 29(10), 1042-1048.
  • Wang, W., Timsit-Berthier, M., Schoenen, J. (1996). Intensity dependence of auditory evoked potentials is pronounced in migraine: an indication of cortical potentiation and low serotonergic neurotransmission?. Neurology, 46(5), 1404-1404.
  • Arnold, M. (2018). Headache classification committee of the international headache society (IHS) the international classification of headache disorders. Cephalalgia, 38(1), 1-211.
  • Beliveau, V., Ganz, M., Feng, L., Ozenne, B., Højgaard, L., Fisher, P. M., … Knudsen, G. M. (2017). A high-resolution in vivo atlas of the human brain’s serotonin system. Journal of Neuroscience, 37(1), 120-128.
  • Massey, A. E., Marsh, V. R., McAllister-Williams, R. H. (2004). Lack of effect of tryptophan depletion on the loudness dependency of auditory event related potentials in healthy volunteers. Biological Psychology, 65(2), 137-145.
  • Zuckerman, M. (1984). Sensation seeking: A comparative approach to a human trait. Behavioral and Brain Sciences, 7(3), 413-434.
  • Ferrari, M. D., Odink, J., Tapparelli, C., Van Kempen, G. M. J., Pennings, E. J. M., Bruyn, G. W. (1989). Serotonin metabolism in migraine. Neurology, 39(9), 1239-1239.
  • Panconesi, A. (2008). Serotonin and migraine: a reconsideration of the central theory. The Journal of Headache and Pain, 9(5), 267-276.
  • Sakai, Y., Dobson, C., Diksic, M., Aubé, M., Hamel, E. (2008). Sumatriptan normalizes the migraine attack-related increase in brain serotonin synthesis. Neurology, 70(6), 431-439.
  • Wang, W., Wang, Y. H., Fu, X. M., Sun, Z. M., Schoenen, J. (1999). Auditory evoked potentials and multiple personality measures in migraine and post-traumatic headaches. Pain, 79(2-3), 235-242.
  • De Tommaso, M., Guido, M., Libro, G., Losito, L., Difruscolo, O., Sardaro, M., Puca, F. M. (2004). Interictal lack of habituation of mismatch negativity in migraine. Cephalalgia, 24(8), 663-668.
  • Sand, T., Zhitniy, N., White, L. R., Stovner, L. J. (2008). Brainstem auditory-evoked potential habituation and intensity-dependence related to serotonin metabolism in migraine: a longitudinal study. Clinical Neurophysiology, 119(5), 1190-1200.
  • Zhang, B., Xu, Y., He, W., Wang, J., Chai, H., Shen, C., … Wang, W. (2017). Intensity dependence of auditory evoked potentials in primary dysmenorrhea. The Journal of Pain, 18(11), 1324-1332.
  • Demarquay, G., Caclin, A., Brudon, F., Fischer, C., Morlet, D. (2011). Exacerbated attention orienting to auditory stimulation in migraine patients. Clinical Neurophysiology, 122(9), 1755-1763.
  • Sandor, P. S., Afra, J., APPC, Albert, A., Schoenen, J. (2000). From neurophysiology to genetics: cortical information processing in migraine underlies familial influences--a novel approach. Functional Neurology, 15, 68-72.
  • Murofushi, T., Goto, F., Tsubota, M. (2020). Vestibular Migraine Patients Show Lack of Habituation in Auditory Middle Latency Responses to Repetitive Stimuli: Comparison With Meniere’s Disease Patients. Frontiers in Neurology, 11, 24.
  • Zhu, B., Coppola, G., Shoaran, M. (2019). Migraine classification using somatosensory evoked potentials. Cephalalgia, 39(9), 1143-1155.
  • Ozkul, Y., Uckardes, A. (2002). Median nerve somatosensory evoked potentials in migraine. European Journal of Neurology, 9(3), 227-232.
  • Coppola, G., Vandenheede, M., Di Clemente, L., Ambrosini, A., Fumal, A., De Pasqua, V., Schoenen, J. (2005). Somatosensory evoked high-frequency oscillations reflecting thalamo-cortical activity are decreased in migraine patients between attacks. Brain, 128(1), 98-103.
  • Restuccia, D., Vollono, C., Del Piero, I., Martucci, L., Zanini, S. (2012). Somatosensory high frequency oscillations reflect clinical fluctuations in migraine. Clinical Neurophysiology, 123(10), 2050-2056.
  • Porcaro, C., Di Lorenzo, G., Seri, S., Pierelli, F., Tecchio, F., Coppola, G. (2017). Impaired brainstem and thalamic high-frequency oscillatory EEG activity in migraine between attacks. Cephalalgia, 37(10), 915-926.
  • Zohsel, K., Hohmeister, J., Flor, H., Hermann, C. (2008). Altered pain processing in children with migraine: an evoked potential study. European Journal of Pain, 12(8), 1090-1101.
  • Coppola, G., Di Lenola, D., Abagnale, C., Ferrandes, F., Sebastianelli, G., Casillo, F., … Pierelli, F. (2020). Short-latency afferent inhibition and somato-sensory evoked potentials during the migraine cycle: surrogate markers of a cycling cholinergic thalamo-cortical drive?. The Journal of Headache and Pain, 21(1), 1-8.
  • de Tommaso, M., Stramaglia, S., Schoffelen, J. M., Guido, M., Libro, G., Losito, L., … Puca, F. M. (2003). Steady-state visual evoked potentials in the low frequency range in migraine: a study of habituation and variability phenomena. International Journal of Psychophysiology, 49(2), 165-174.
  • Nyrke, T., Kangasniemi, P., Lang, A. H. (1989). Difference of steady-state visual evoked potentials in classic and common migraine. Electroencephalography and Clinical Neurophysiology, 73(4), 285-294.
  • Shibata, K., Yamane, K., Otuka, K., Iwata, M. (2008). Abnormal visual processing in migraine with aura: a study of steady-state visual evoked potentials. Journal of the Neurological Sciences, 271(1-2), 119-126.
  • De Tommaso, M., Stramaglia, S., Marinazzo, D., Trotta, G., Pellicoro, M. (2013). Functional and effective connectivity in EEG alpha and beta bands during intermittent flash stimulation in migraine with and without aura. Cephalalgia, 33(11), 938-947.
  • Coppola, G., Di Lorenzo, C., Schoenen, J., Pierelli, F. (2013). Habituation and sensitization in primary headaches. The Journal of Headache and Pain, 14(1), 1-13.
  • Ko, L. W., Lai, K. L., Huang, P. H., Lin, C. T., Wang, S. J. (2013, November). Steady-state visual evoked potential based classification system for detecting migraine seizures. In 2013 6th International IEEE/EMBS Conference on Neural Engineering (NER) (pp. 1299-1302). IEEE.
  • Cao, Z., Lin, C. T., Lai, K. L., Ko, L. W., King, J. T., Liao, K. K., … Wang, S. J. (2019). Extraction of SSVEPs-based inherent fuzzy entropy using a wearable headband EEG in migraine patients. IEEE Transactions on Fuzzy Systems, 28(1), 14-27.
  • Carignan, C. C., Punshon, T., Karagas, M. R., Cottingham, K. L., Hanover, N. H. (2017). f. HHS Public Access. Ann Glob Health. Author manuscript; available in PMC.
  • Basbaum, A. I., Bautista, D. M., Scherrer, G., Julius, D. (2009). Cellular and molecular mechanisms of pain. Cell, 139(2), 267-284.
  • Katsarava, Z., Giffin, N., Diener, H. C., Kaube, H. (2003). Abnormal habituation of ‘nociceptive’blink reflex in migraine-evidence for increased excitability of trigeminal nociception. Cephalalgia, 23(8), 814-819.
  • De Marinis, M., Pujia, A., Natale, L., D’arcangelo, E., Accornero, N. (2003). Decreased habituation of the R2 component of the blink reflex in migraine patients. Clinical Neurophysiology, 114(5), 889-893.
  • Di Clemente, L., Coppola, G., Magis, D., Fumal, A., De Pasqua, V., Di Piero, V., Schoenen, J. (2007). Interictal habituation deficit of the nociceptive blink reflex: an endophenotypic marker for presymptomatic migraine?. Brain, 130(3), 765-770.
  • Di Clemente, L., Puledda, F., Biasiotta, A., Viganò, A., Vicenzini, E., Truini, A., … Di Piero, V. (2013). Topiramate modulates habituation in migraine: evidences from nociceptive responses elicited by laser evoked potentials. The Journal of Headache and Pain, 14(1), 1-8.
  • de Tommaso, M., Delussi, M. (2017). Nociceptive blink reflex habituation biofeedback in migraine. Functional Neurology, 32(3), 123.
  • Nikiforova, O. S., Delva, M. Y. (2020). Neurophysiological features of the nociceptive trigeminal pathway in abdominally obese migraineurs.
  • Haanpää, M., Attal, N., Backonja, M., Baron, R., Bennett, M., Bouhassira, D., … Treede, R. D. (2011). NeuPSIG guidelines on neuropathic pain assessment. PAIN®, 152(1), 14-27.
  • Marucco, E., Lisicki, M., Magis, D. (2019). Electrophysiological characteristics of the migraine brain: current knowledge and perspectives. Current Medicinal Chemistry, 26(34), 6222-6235.
  • Garcia-Larrea, L., Frot, M., Valeriani, M. (2003). Brain generators of laser-evoked potentials: from dipoles to functional significance. Neurophysiologie Clinique/Clinical Neurophysiology, 33(6), 279-292.
  • De Tommaso, M. (2008).Laser-evokedpotentialsinprimaryheadaches and cranial neuralgias. Expert Review of Neurotherapeutics, 8(9), 1339-1345.
  • Ferraro, D., Vollono, C., Miliucci, R., Virdis, D., De Armas, L., Pazzaglia, C., … Valeriani, M. (2012). Habituation to pain in “medication overuse headache”: A CO2 laser-evoked potential study. Headache: The Journal of Head and Face Pain, 52(5), 792-807.
  • de Tommaso, M., Sciruicchio, V., Ricci, K., Montemurno, A., Gentile, F., Vecchio, E., … Livrea, P. (2016). Laser-evoked potential habituation and central sensitization symptoms in childhood migraine. Cephalalgia, 36(5), 463-473.
  • Vecchio, E., Bassez, I., Ricci, K., Tassorelli, C., Liebler, E., de Tommaso, M. (2018). Effect of non-invasive vagus nerve stimulation on resting-state electroencephalography and laser-evoked potentials in migraine patients: mechanistic insights. Frontiers in Human Neuroscience, 12, 366.
  • Bassez, I., Van de Steen, F., Ricci, K., Vecchio, E., Gentile, E., Marinazzo, D., de Tommaso, M. (2020). Dynamic Causal Modelling of the Reduced Habituation to Painful Stimuli in Migraine: An EEG Study. Brain Sciences, 10(10), 712.
  • Horvath, J. C., Perez, J. M., Forrow, L., Fregni, F., Pascual-Leone, A. (2011). Transcranial magnetic stimulation: a historical evaluation and future prognosis of therapeutically relevant ethical concerns. Journal of Medical Ethics, 37(3), 137-143.
  • Anand, S., Hotson, J. (2002). Transcranial magnetic stimulation: neurophysiological applications and safety. Brain and Cognition, 50(3), 366-386.
  • Lipton, R. B., Pearlman, S. H. (2010). Transcranial magnetic simulation in the treatment of migraine. Neurotherapeutics, 7(2), 204-212.
  • Lan, L., Zhang, X., Li, X., Rong, X., Peng, Y. (2017). The efficacy of transcranial magnetic stimulation on migraine: a meta-analysis of randomized controlled trails. The Journal of Headache and Pain, 18(1), 1-7.
  • Bohotin, V., Fumal, A., Vandenheede, M., Gerard, P., Bohotin, C., Maertens De Noordhout, A., Schoenen, J. (2002). Effects of repetitive transcranial magnetic stimulation on visual evoked potentials in migraine. Brain, 125(4), 912-922.
  • Gerwig, M., Niehaus, L., Kastrup, O., Stude, P., Diener, H. C. (2005). Visual cortex excitability in migraine evaluated by single and paired magnetic stimuli. Headache: The Journal of Head and Face Pain, 45(10), 1394-1399.
  • Yildiz, F. G., Turkyilmaz, U., Unal-Cevik, I. (2019). The clinical characteristics and neurophysiological assessments of the occipital cortex in visual snow syndrome with or without migraine. Headache: The Journal of Head and Face Pain, 59(4), 484-494.
  • Omland, P. M., Uglem, M., Engstrøm, M., Linde, M., Hagen, K., Sand, T. (2014). Modulation of visual evoked potentials by high-frequency repetitive transcranial magnetic stimulation in migraineurs. Clinical Neurophysiology, 125(10), 2090-2099.
  • Coppola, G., De Pasqua, V., Pierelli, F., Schoenen, J. (2012). Effects of repetitive transcranial magnetic stimulation on somatosensory evoked potentials and high frequency oscillations in migraine. Cephalalgia, 32(9), 700-709.
  • Thair, H., Holloway, A. L., Newport, R., Smith, A. D. (2017). Transcranial direct current stimulation (tDCS): a beginner’s guide for design and implementation. Frontiers in Neuroscience, 11, 641.
  • Antal, A., Kincses, T. Z., Nitsche, M. A., Paulus, W. (2003). Modulation of moving phosphene thresholds by transcranial direct current stimulation of V1 in human. Neuropsychologia, 41(13), 1802-1807.
  • Liebetanz, D., Fregni, F., Monte-Silva, K. K., Oliveira, M. B., Amâncio-dos-Santos, Â., Nitsche, M. A., Guedes, R. C. (2006). After-effects of transcranial direct current stimulation (tDCS) on cortical spreading depression. Neuroscience Letters, 398(1-2), 85-90.
  • DaSilva, A. F., Mendonca, M. E., Zaghi, S., Lopes, M., DosSantos, M. F., Spierings, E. L., … Fregni, F. (2012). tDCS-induced analgesia and electrical fields in pain-related neural networks in chronic migraine. Headache: The Journal of Head and Face Pain, 52(8), 1283-1295.
  • Viganò, A., D’Elia, T. S., Sava, S. L., Auvé, M., De Pasqua, V., Colosimo, A., … Magis, D. (2013). Transcranial direct current stimulation (tDCS) of the visual cortex: a proof-of-concept study based on interictal electrophysiological abnormalities in migraine. The Journal of Headache and Pain, 14(1), 1-9.
  • Vecchio, E., Ricci, K., Montemurno, A., Delussi, M., Invitto, S., de Tommaso, M. (2016). Effects of left primary motor and dorsolateral prefrontal cortex transcranial direct current stimulation on laser-evoked potentials in migraine patients and normal subjects. Neuroscience Letters, 626, 149-157.
  • Cortese, F., Pierelli, F., Bove, I., Di Lorenzo, C., Evangelista, M., Perrotta, A., … Coppola, G. (2017). Anodal transcranial direct current stimulation over the left temporal pole restores normal visual evoked potential habituation in interictal migraineurs. The Journal of Headache and Pain, 18(1), 1-9.
  • Kurth, T., Chabriat, H., Bousser, M. G. (2012). Migraine and stroke: a complex association with clinical implications. The Lancet Neurology, 11(1), 92-100.
  • Dreier, J. P., Reiffurth, C. (2015). The stroke-migraine depolarization continuum. Neuron, 86(4), 902-922.
  • Pourmajidian, M., Lauber, B., Sidhu, S. K. (2020). Preconditioning cathodal transcranial direct current stimulation facilitates the neuroplastic effect of subsequent anodal transcranial direct current stimulation applied during cycling in young adults. Neuroscience Letters, 714, 134597.
  • Haanes, K. A., Edvinsson, L. (2019). Pathophysiological mechanisms in migraine and the identification of new therapeutic targets. CNS drugs, 33(6), 525-537.
  • Sur, S., Sinha, V. K. (2009). Event-related potential: An overview. Industrial Psychiatry Journal, 18(1), 70.
  • Wang, W., Schoenen, J. (1998). Interictal potentiation of passive “oddball” auditory event-related potentials in migraine. Cephalalgia, 18(5), 261-265.
  • Kropp, P., Gerber, W. D. (1998). Prediction of migraine attacks using a slow cortical potential, the contingent negative variation. Neuroscience Letters, 257(2), 73-76.
  • Siniatchkin, M., Kropp, P., Gerber, W. D. (2001). Contingent negative variation in subjects at risk for migraine without aura. Pain, 94(2), 159-167.
  • de Tommaso, M., Guido, M., Sardaro, M., Serpino, C., Vecchio, E., De Stefano, G., … Livrea, P. (2008). Effects of topiramate and levetiracetam vs placebo on habituation of contingent negative variation in migraine patients. Neuroscience letters, 442(2), 81-85.
  • Kropp, P., Wallasch, T. M., Müller, B., Meyer, B., Darabaneanu, S., Bosse, C., … Gerber, W. D. (2015). Disease duration of episodic migraine correlates with modified amplitudes and habituation of contingent negative variation. Journal of Neural Transmission, 122(6), 877-885.
  • Polich, J. (2007). Updating P300: an integrative theory of P3a and P3b. Clinical Neurophysiology, 118(10), 2128-2148.
  • Titlic, M., Mise, N. I., Pintaric, I., Rogosic, V., Vanjaka-Rogosic, L., Mihalj, M., … Katic, M. A. (2015). The event-related potential P300 in patients with migraine. Acta Informatica Medica, 23(6), 339.
  • Drake Jr, M. E., Pakalnis, A., Padamadan, H. (1989). Long-latency auditory event related potentials in migraine. Headache: The Journal of Head and Face Pain, 29(4), 239-241.
  • Evers, S., Bauer, B., Grotemeyer, K. H., Kurlemann, G., Husstedt, I. W. (1998). Event-related potentials (P300) in primary headache in childhood and adolescence. Journal of Child Neurology, 13(7), 322-326.
  • Sergeev, A., Ratchin, A., Avdeeva, T., Tabeeva, G. (2014, December). EHMTI-0207. Abnormal brain excitability and cognitive dysfunction in adolescents with chronic daily headache. In The Journal of Headache and Pain (Vol. 15, No. 1, pp. 1-1). BioMed Central.
  • Demirci, S., Savas, S. (2002). The auditory event related potentials in episodic and chronic pain sufferers. European Journal of Pain, 6(3), 239-244.
  • Huang, L., juan Dong, H., Wang, X., Wang, Y., Xiao, Z. (2017). Duration and frequency of migraines affect cognitive function: evidence from neuropsychological tests and event-related potentials. The Journal of Headache and Pain, 18(1), 1-7.
  • Raggi, A., Ferri, R. (2020). Information Processing in Migraine: A Review of Studies on P300. Applied Psychophysiology and Biofeedback, 45(3), 131-144.
  • Korostenskaja, M., Pardos, M., Kujala, T., Rose, D. F., Brown, D., Horn, P., … Hershey, A. D. (2011). Impaired auditory information processing during acute migraine: a magnetoencephalography study. International Journal of Neuroscience, 121(7), 355-365.
  • Näätänen, R., Alho, K. (1995). Mismatch negativity-a unique measure of sensory processing in audition. International Journal of Neuroscience, 80(1-4), 317-337.
  • Giard, M. H., Lavikahen, J., Reinikainen, K., Perrin, F., Bertrand, O., Pernier, J., Näätänen, R. (1995). Separate representation of stimulus frequency, intensity, and duration in auditory sensory memory: an event-related potential and dipole-model analysis. Journal of Cognitive Neuroscience, 7(2), 133-143.
  • Morlet, D., Demarquay, G., Brudon, F., Fischer, C., Caclin, A. (2014). Attention orienting dysfunction with preserved automatic auditory change detection in migraine. Clinical Neurophysiology, 125(3), 500-511.
  • Guo, Y., Chen, J., Hou, X., Xu, S., Ma, Y., Nie, S., … Liu, X. (2020). Pre-attentive dysfunction of processing emotional faces in interictal migraine revealed by expression-related visual mismatch negativity. Brain research, 1738, 146816.
  • Lawrencenko, S. Lao. A. (2022). Pairs of polyhedra sharing the same 1-skeleton in 3D and 4D spaces, without a single common face. Journal of Discrete Mathematical Sciences and Cryptography. 25(1), 253-263. https://doi.org/10.1080/09720529.2022.2027603
  • Krishna, K.M. Johnson. P.S. (2021). New identity on Parseval p-approximate Schauder frames and applications. Journal of Interdisciplinary Mathematics, 24(7), 1751-1760. https://doi.org/10.1080/09720502.2021.1891698
  • Yan, L. Li, Y. Zhang, X. Saqlain, M. Zafar, S. Farahani, M.R. (2018). 3-total edge product cordial labeling of some new classes of graphs. Journal of Information Optimization Sciences, 39(3), 705-724. DOI:10.1080/02522667.2017.1417727.
  • Osvaldo Diaz–Rodriguez, Tai Nguyen, Hyejin Kim Tsventanka Sendova, Competing dynamics: Analyzing market share in a Duopoly, Journal of Statistics and Management Systems, (2017) 20:5, 925-937., doi/abs/10.1080/09720510.2017.1303951

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