Headache Classification Committee of the International Headache Society (IHS) The International Classification of Headache Disorders, 3rd edition. Cephalalgia (2018);38(1):1-211
Schankin CJ, Maniyar FH, Digre KB, Goadsby PJ (2014) Visual snow’–a disorder distinct from persistent migraine aura. Brain 137(5):1419–1428
Scutelnic A, Slavova N, Klein A, Horvath T, de Beukelaer SA, Arnold M et al (2023) Symptomatic visual snow in acute ischemic stroke: a case series. Headache: J Head Face Pain 63(1):173–176
Weiss S, Rohde V, Hautmann X, Schittkowski M (2021) Visual snow syndrome-a pixelated vision. Die Ophthalmologie 119(6):627–631
Mehta DG, Garza I, Robertson CE (2021) Two hundred and forty-eight cases of visual snow: a review of potential inciting events and contributing comorbidities. Cephalalgia 41(9):1015–1026
Gersztenkorn D, Lee AG (2015) Palinopsia revamped: a systematic review of the literature. Surv Ophthalmol 60(1):1–35
Puledda F, Bruchhage M, O’Daly O, Ffytche D, Williams SCR, Goadsby PJ (2020) Occipital cortex and cerebellum gray matter changes in visual snow syndrome. Neurology 95(13):e1792–e9
Article PubMed PubMed Central Google Scholar
Puledda F, O’Daly O, Schankin C, Ffytche D, Williams SC, Goadsby PJ (2021) Disrupted connectivity within visual, attentional and salience networks in the visual snow syndrome. Hum Brain Mapp 42(7):2032–2044
Article PubMed PubMed Central Google Scholar
Schankin CJ, Maniyar FH, Chou DE, Eller M, Sprenger T, Goadsby PJ (2020) Structural and functional footprint of visual snow syndrome. Brain 143(4):1106–1113
Article PubMed PubMed Central Google Scholar
Aldusary N, Traber GL, Freund P, Fierz FC, Weber KP, Baeshen A et al (2020) Abnormal connectivity and brain structure in patients with visual snow. Front Hum Neurosci 14:582031
Article PubMed PubMed Central Google Scholar
Van Laere K, Ceccarini J, Gebruers J, Goffin K, Boon E (2022) Simultaneous (18)F-FDG PET/MR metabolic and structural changes in visual snow syndrome and diagnostic use. EJNMMI Res 12(1):77
Article PubMed PubMed Central Google Scholar
Luna S, Lai D, Harris A (2018) Antagonistic relationship between VEP potentiation and Gamma Power in Visual Snow Syndrome. Headache 58(1):138–144
Yildiz FG, 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: J Head Face Pain 59(4):484–494
Eren O, Rauschel V, Ruscheweyh R, Straube A, Schankin CJ (2018) Evidence of dysfunction in the visual association cortex in visual snow syndrome. Ann Neurol 84(6):946–949
Article CAS PubMed Google Scholar
Donner TH, Siegel M (2011) A framework for local cortical oscillation patterns. Trends Cogn Sci 15(5):191–199
Liu J, Newsome WT (2006) Local field potential in cortical area MT: stimulus tuning and behavioral correlations. J Neurosci 26(30):7779–7790
Article CAS PubMed PubMed Central Google Scholar
Hall SD, Holliday IE, Hillebrand A, Singh KD, Furlong PL, Hadjipapas A et al (2005) The missing link: analogous human and primate cortical gamma oscillations. NeuroImage 26(1):13–17
Hepschke JL, Seymour RA, He W, Etchell A, Sowman PF, Fraser CL (2022) Cortical oscillatory dysrhythmias in visual snow syndrome: a magnetoencephalography study. Brain Commun 4(1):fcab296
Osipova D, Hermes D, Jensen O (2008) Gamma Power is phase-locked to posterior alpha activity. PLoS ONE 3(12):e3990
Article PubMed PubMed Central Google Scholar
Jensen O, Gips B, Bergmann TO, Bonnefond M (2014) Temporal coding organized by coupled alpha and gamma oscillations prioritize visual processing. Trends Neurosci 37(7):357–369
Article CAS PubMed Google Scholar
Berger H (1929) Über das Elektrenkephalogramm des Menschen. Arch Psychiatr Nervenkrankh 87(1):527–570
Di Gregorio F, Trajkovic J, Roperti C, Marcantoni E, Di Luzio P, Avenanti A et al (2022) Tuning alpha rhythms to shape conscious visual perception. Curr Biol 32(5):988–98e6
Ergenoglu T, Demiralp T, Bayraktaroglu Z, Ergen M, Beydagi H, Uresin Y (2004) Alpha rhythm of the EEG modulates visual detection performance in humans. Brain Res Cogn Brain Res 20(3):376–383
Bagherzadeh Y, Baldauf D, Pantazis D, Desimone R (2020) Alpha synchrony and the Neurofeedback Control of Spatial Attention. Neuron 105(3):577–87e5
Article CAS PubMed Google Scholar
Gaillard C, Ben Hamed S (2022) The neural bases of spatial attention and perceptual rhythms. Eur J Neurosci 55(11–12):3209–3223
Article CAS PubMed Google Scholar
bjørk mh, Stovner L, Nilsen B, Stjern M, Hagen K, Sand T (2009) The occipital alpha rhythm related to the migraine cycle and headache burden: a blinded, controlled longitudinal study. Clin Neurophysiology: Official J Int Federation Clin Neurophysiol 120:464–471
Sarnthein J, Stern J, Aufenberg C, Rousson V, Jeanmonod D (2006) Increased EEG power and slowed dominant frequency in patients with neurogenic pain. Brain 129(Pt 1):55–64
Nyrke T, Kangasniemi P, Lang H (1990) Alpha rhythm in classical migraine (migraine with aura): abnormalities in the headache-free interval. Cephalalgia 10(4):177–181
Article CAS PubMed Google Scholar
Puledda F, Schankin C, Goadsby PJ (2020) Visual snow syndrome: a clinical and phenotypical description of 1,100 cases. Neurology 94(6):e564–e74
Article PubMed PubMed Central Google Scholar
Knyazeva MG, Barzegaran E, Vildavski VY, Demonet JF (2018) Aging of human alpha rhythm. Neurobiol Aging 69:261–273
Chiang AKI, Rennie CJ, Robinson PA, van Albada SJ, Kerr CC (2011) Age trends and sex differences of alpha rhythms including split alpha peaks. Clin Neurophysiol 122(8):1505–1517
Article CAS PubMed Google Scholar
Davidson RJ, Schwartz GE, Pugash E, Bromfield E (1976) Sex differences in patterns of EEG asymmetry. Biol Psychol 4(2):119–138
Article CAS PubMed Google Scholar
Colombo B, Dalla Libera D, Comi G (2011) Brain white matter lesions in migraine: what’s the meaning? Neurol Sci 32(1):37–40
Seeck M, Koessler L, Bast T, Leijten F, Michel C, Baumgartner C et al (2017) The standardized EEG electrode array of the IFCN. Clin Neurophysiol 128(10):2070–2077
Choi S-H, Jeong G, Kim Y-B, Cho Z-H (2020) Proposal for human visual pathway in the extrastriate cortex by fiber tracking method using diffusion-weighted MRI. NeuroImage 220:117145
Kravitz DJ, Saleem KS, Baker CI, Mishkin M (2011) A new neural framework for visuospatial processing. Nat Rev Neurosci 12(4):217–230
Article CAS PubMed PubMed Central Google Scholar
Kravitz DJ, Saleem KS, Baker CI, Ungerleider LG, Mishkin M (2013) The ventral visual pathway: an expanded neural framework for the processing of object quality. Trends Cogn Sci 17(1):26–49
Cloutman LL (2013) Interaction between dorsal and ventral processing streams: where, when and how? Brain Lang 127(2):251–263
Scherg M, Ille N, Bornfleth H, Berg P (2002) Advanced Tools for Digital EEG Review:: virtual source montages, whole-head mapping, correlation, and phase analysis. J Clin Neurophysiol 19(2):91–112
Rosenzweig I, Fogarasi A, Johnsen B, Alving J, Fabricius ME, Scherg M et al (2014) Beyond the double Banana: improved recognition of temporal lobe seizures in long-term EEG. J Clin Neurophysiol 31(1):1–9
Weiner KS, Zilles K (2016) The anatomical and functional specialization of the fusiform gyrus. Neuropsychologia 83:48–62
留言 (0)