https://orcid.org/0000-0002-7152-8852
References
- Alfini A, Albert M, Faria AV, Soldan A, Pettigrew C, Wanigatunga S, Zipunnikov V, Spira AP. 2021. Associations of actigraphic sleep and circadian rest/activity rhythms with cognition in the early phase of Alzheimer’s disease. Sleep Adv. 2(1):zpab007. doi:10.1093/sleepadvances/zpab007
- Buysse DJ, Reynolds CF III, Monk TH, Berman SR, Kupfer DJ. 1989. The Pittsburgh sleep quality index: a new instrument for psychiatric practice and research. Psychiatry Res. 28(2):193–213. doi:10.1016/0165-1781(89)90047-4
- Calandre EP, Bembibre J, Arnedo ML, Becerra D. 2002. Cognitive disturbances and regional cerebral blood flow abnormalities in migraine patients: their relationship with the clinical manifestations of the illness. Cephalalgia. 22(4):291–302. doi:10.1046/j.1468-2982.2002.00370.x
- Carlsson AM. 1983. Assessment of chronic pain. I. Aspects of the reliability and validity of the visual analogue scale. Pain. 16(1):87–101. doi:10.1016/0304-3959(83)90088-X
- Chellappa SL, Gordijn MC, Cajochen C. 2011. Can light make us bright? Effects of light on cognition and sleep. Prog Brain Res. 190:119–133. doi:10.1016/B978-0-444-53817-8.00007-4
- Chu HT, Liang CS, Lee JT, Lee MS, Sung YF, Tsai CL, Tsai CK, Lin YK, Ho TH, Yang FC. 2020. Subjective cognitive complaints and migraine characteristics: a cross‐sectional study. Acta Neurol Scand. 141(4):319–327. doi:10.1111/ane.13204
- Cline ME, Herman J, Shaw ER, Morton RD. 1992. Standardization of the visual analogue scale. Nurs Res. 41(6):378–379. doi:10.1097/00006199-199211000-00013
- Costa-Silva MA, Prado ACA, Souza LC, Gomez RS, Teixeira AL. 2016. Cognitive functioning in adolescents with migraine. Dement Neuropsychol. 10(1):47–51. doi:10.1590/S1980-57642016DN10100009
- David MCMM, Mattos MSB, Souto JJS, Brito SACF, Leite ES, Valença EN, Galdino GS, Sampaio PGG, Moura DMC, Miguel MAL, et al. 2022. Changes in the rest-activity rhythm in migraine patients are associated with anxiety symptoms. Braz J Psychiatry. 44(6):611–620. doi:10.47626/1516-4446-2021-2367
- Dhaem OB, Robbins MS. 2022. Cognitive impairment in primary and secondary headache disorders. Curr Pain Headache Rep. 26(5):391–404. doi:10.1007/s11916-022-01039-5
- Ferini-Strambi L, Galbiati A, Combi R. 2019. Sleep disorder-related headaches. Neurol Sci. 40(S1):107–113. doi:10.1007/s10072-019-03837-z
- Fortier-Brochu É, Beaulieu-Bonneau S, Ivers H, Morin CM. 2012. Insomnia and daytime cognitive performance: a meta-analysis. Sleep Med Rev. 16(1):83–94. doi:10.1016/j.smrv.2011.03.008
- Foti M, Lo Buono V, Corallo F, Palmeri R, Bramanti P, Marino S. 2017. Neuropsychological assessment in migraine patients: a descriptive review on cognitive implications. Neurol Sci. 38(4):553–562. doi:10.1007/s10072-017-2814-z
- Gao C, Terlizzese T, Scullin M. 2018. 0113 gender moderates the relationship between sleep and educational learning outcomes. Sleep. 41(suppl_1):A44. doi:10.1093/sleep/zsy061.112
- Gil-Gouveia R, Martins IP. 2018. Clinical description of attack-related cognitive symptoms in migraine: a systematic review. Cephalalgia. 38(7):1335–1350. doi:10.1177/0333102417728250
- Gil-Gouveia R, Oliveira AG, Martins IP. 2015. Cognitive dysfunction during migraine attacks: a study on migraine without aura. Cephalalgia. 35(8):662–674. doi:10.1177/0333102414553823
- Gonçalves BSB, Adamowicz T, Louzada FM, Moreno CR, Araujo JF. 2015. A fresh look at the use of nonparametric analysis in actimetry. Sleep Med Rev. 20:84–91. doi:10.1016/j.smrv.2014.06.002
- Headache Classification Committee of the International Headache Society. 2018. The international classification of headache disorders, 3rd edition. Cephalalgia. 38(1):1–211. doi:10.1177/0333102417738202
- Horne JA, Östberg O. 1976. A self-assessment questionnaire to determine morningness-eveningness in human circadian rhythms. Int J Chronobiol. 4:97–110.
- Huang L, Dong HJ, Wang X, Wang Y, Xiao Z. 2017. Duration and frequency of migraines affect cognitive function: evidence from neuropsychological tests and event-related potentials. J Headache Pain. 18(1):1–7. doi:10.1186/s10194-017-0758-6
- Jamus DR, Mäder MJ. 2005. A figura complexa de Rey e seu papel na avaliação neuropsicológica. J Epilepsy Clin Neurophysiol. 11(4):193–198. doi:10.1590/S1676-26492005000400008
- Johns MW. 1991. A new method for measuring daytime sleepiness: the Epworth sleepiness scale. Sleep. 14(6):540–545. doi:10.1093/sleep/14.6.540
- Khera T, Rangasamy V. 2021. Cognition and pain: a review. Front Psychol. 12:1819. doi:10.3389/fpsyg.2021.673962
- Kim SJ, Lee JH, Jang JW, Jung HS, Suh IB. 2023. Abnormalities of rest-activity and light exposure rhythms associated with cognitive function in patients with mild cognitive impairment (MCI). J Circadian Rhythms. 21(1):1–10. doi:10.5334/jcr.227
- Kim M, Liotta EM, Maas MB, Braun RI, Garcia-Canga B, Ganger DR, Ladner DP, Reid KJ, Zee PC. 2021. Rest-activity rhythm disturbance in liver cirrhosis and association with cognitive impairment. Sleep. 44(6):zsaa288. doi:10.1093/sleep/zsaa288
- Koppen H, Palm-Meinders I, Kruit M, Lim V, Nugroho A, Westhof I, Terwindt G, van Buchem M, Ferrari M, Hommel B. 2011. The impact of a migraine attack and its after-effects on perceptual organization, attention, and working memory. Cephalalgia. 31(14):1419–1427. doi:10.1177/0333102411417900
- Kottwitz MU, Gerhardt C, Schmied S, Elfering A. 2019. Sleep, work stress and headache in printing business: an actigraphy study. Sleep Vigil. 3(1):9–15. doi:10.1007/s41782-019-0055-3
- Latysheva N, Filatova E, Osipova D, Danilov AB. 2020. Cognitive impairment in chronic migraine: a cross-sectional study in a clinic-based sample. Arq Neuropsiquiatr. 78(3):133–138. doi:10.1590/0004-282X20190159
- Lee SH, Kang Y, Cho SJ. 2017. Subjective cognitive decline in patients with migraine and its relationship with depression, anxiety, and sleep quality. J Headache Pain. 18(1):1–8. doi:10.1186/s10194-017-0779-1
- Le Pira F, Zappala G, Giuffrida S, Lo Bartolo ML, Reggio E, Morana R, Lanaia F. 2000. Memory disturbances in migraine with and without aura: a strategy problem? Cephalalgia. 20(5):475–478. doi:10.1046/j.1468-2982.2000.00074.x
- Lim AS, Yu L, Costa MD, Leurgans SE, Buchman AS, Bennett DA, Saper CB. 2012. Increased fragmentation of rest-activity patterns is associated with a characteristic pattern of cognitive impairment in older individuals. Sleep. 35(5):633–640. doi:10.5665/sleep.1820
- Lovati C, Giani L, D’Amico D, Mariani C. 2017. Sleep, headaches and cerebral energy control: a synoptic view. Expert Rev Neurother. 17(3):239–250. doi:10.1080/14737175.2016.1226133
- Luik AI, Zuurbier LA, Hofman A, Van Someren EJ, Ikram MA, Tiemeier H. 2015. Associations of the 24-h activity rhythm and sleep with cognition: a population-based study of middle-aged and elderly persons. Sleep Med. 16(7):850–855. doi:10.1016/j.sleep.2015.03.012
- Menna-Barreto L, Wey D. 2007. Ontogênese do sistema de temporização: a construção e as reformas dos ritmos biológicos ao longo da vida humana. Psicol USP. 18(2):133–153. doi:10.1590/S0103-65642007000200008
- Messina R, Meani A, Riccitelli GC, Colombo B, Filippi M, Rocca MA. 2021. Neural correlates of visuospatial processing in migraine: does the pain network help? Mol Psychiatry. 26(11):6599–6608. doi:10.1038/s41380-021-01085-2
- Naismith SL, Hickie IB, Terpening Z, Rajaratnam SW, Hodges JR, Bolitho S, Rogers NL, Lewis SJG. 2014. Circadian misalignment and sleep disruption in mild cognitive impairment. J Alzheimer’s Dis. 38(4):857–866. doi:10.3233/JAD-131217
- Naismith SL, Rogers NL, Hickie IB, Mackenzie J, Norrie LM, Lewis SJG. 2010. Sleep well, think well: sleep-wake disturbance in mild cognitive impairment. J Geriatr Psychiatry Neurol. 23(2):123–130. doi:10.1177/0891988710363710
- Nelson W, Tong YL, Lee JK, Halberg F. 1979. Methods for cosinor-rhythmometry. Chronobiologia. 6(4):305–323.
- Oliveira MS, Rigoni MS, Andretta I, Moraes JF. 2004. Validação do Teste Figuras Complexas de Rey na população brasileira. Avaliaçao Psicologica: Int J Psychol Assess. 3(1):33–38.
- Ong JC, Taylor HL, Park M, Burgess HJ, Fox RS, Snyder S, Rains JC, Espie CA, Wyatt JK. 2018. Can circadian dysregulation exacerbate migraines? Headache: J Head Face Pain. 58(7):1040–1051. doi:10.1111/head.13310
- Padilla MFQ, Pitta P, Lombana-Angel L, Ingram G, Gómez C, Restrepo JA. 2016. Differences in executive functions applied to memory processes in people with migraine: a cross-sectional study. Univ Psychol. 15(5):1–11. doi:10.11144/Javeriana.upsy15-5.defa
- Pati AK, Gupta S. 1994. Time estimation circadian rhythm in shift workers and diurnally active humans. J Biosci. 19(3):325–330. doi:10.1007/BF02716822
- Rabinowitz JA, An Y, He L, Alfini AJ, Zipunnikov V, Wu MN, Wanigatunga SK, Schrack JA, Jackson C, Ferrucci L, et al. 2022. Associations of circadian rest/activity rhythms with cognition in middle-aged and older adults: demographic and genetic interactions. Front Neurosci. 16:952204. doi:10.3389/fnins.2022.952204
- Raggi A, Ferri R. 2020. Information processing in migraine: a review of studies on P300. Appl Psychophysiol Biofeedback. 45(3):131–144. doi:10.1007/s10484-020-09469-w
- Rey A. 1999. Figuras Complexas de Rey: Teste de Cópia e de Reprodução de Memória de Figuras Geométricas. 1st ed. Vol. 1. São Paulo: Casa do Psicólogo.
- Riva D, Aggio F, Vago C, Nichelli F, Andreucci E, Paruta N, D’Arrigo S, Pantaleoni C, Bulgheroni S. 2006. Cognitive and behavioural effects of migraine in childhood and adolescence. Cephalalgia. 26(5):596–603. doi:10.1111/j.1468-2982.2006.01072.x
- Smitherman TA, Walters AB, Davis RE, Ambrose CE, Roland M, Houle TT, Rains JC. 2016. Randomized controlled pilot trial of behavioral insomnia treatment for chronic migraine with comorbid insomnia. Headache: J Head Face Pain. 56(2):276–291. doi:10.1111/head.12760
- Sommer BR, Mitchell EL, Wroolie TE. 2013. Topiramate: effects on cognition in patients with epilepsy, migraine headache and obesity. Ther Adv Neurol Disord. 6(4):211–227. doi:10.1177/1756285613481257
- Souissi W, Hammouda O, Ayachi M, Ammar A, Khcharem A, de Marco G, Souissi M, Driss T. 2020. Partial sleep deprivation affects endurance performance and psychophysiological responses during 12-minute self-paced running exercise. Physiol Behav. 227:113165. doi:10.1016/j.physbeh.2020.113165
- Sun X, Yu W, Li Y, Hu J, Li Y. 2023. Association between rest-activity rhythm and cognitive function in the elderly: the US national health and nutrition examination survey, 2011-2014. Front Endocrinol. 14:1135085. doi:10.3389/fendo.2023.1135085
- Van Oosterhout WPJ, Van Someren EJW, Schoonman GG, Louter MA, Lammers GJ, Ferrari MD, Terwindt GM. 2017. Chronotypes and circadian timing in migraine. Cephalalgia. 38(4):617–625. doi:10.1177/0333102417698953
- Vgontzas A, Li W, Mostofsky E, Rueschman M, Mittleman MA, Bertisch SM. 2020. Associations between migraine attacks and nightly sleep characteristics among adults with episodic migraine: a prospective cohort study. Sleep. 43(7):zsaa001. doi:10.1093/sleep/zsaa001
- Viganò A, Toscano M, Puledda F, Di Piero V. 2019. Treating chronic migraine with neuromodulation: the role of neurophysiological abnormalities and maladaptive plasticity. Front Pharmacol. 10:416813. doi:10.3389/fphar.2019.00032
- Vuralli D, Ayata C, Bolay H. 2018. Cognitive dysfunction and migraine. J Headache Pain. 19(1):1–14. doi:10.1186/s10194-018-0933-4
- Wu JQ, Li P, Gilbert KS, Hu K, Cronin‐Golomb A. 2018. Circadian rest‐activity rhythms predict cognitive function in early Parkinson’s disease independently of sleep. Mov Disord Clin Pract. 5(6):614–619. doi:10.1002/mdc3.12692