Physical fatigue measured by functional MRI
DOI:
https://doi.org/10.15584/ejcem.2018.3.11Keywords:
functional MRI, physical fatigue, physiological condition, temporary and chronic fatigueAbstract
Introduction. Physical fatigue is a physiological condition that can be measured by functional Magnetic Resonance Imaging (fMRI).
Aim. Therefore, this work aims to present the research results currently reported in the scientific literature between the years 2014 and 2018 in the field of chronic fatigue syndrome using the functional MRI method.
Material and methods. Analysis of literature.
Results. We reviewed here the differences between temporary and chronic fatigue.
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Jodzio K, Treder N. Poglądy na przewlekłe zmęczenie i jego wpływ na zachowanie w XIX wieku i na początku XX wieku [Ideas about chronic fatigue and its impact on behaviour in nineteenth century and at the beginning of the twentieth century]. Psychiatria i Psychoterapia. 2014;10:11-22.
Rocca MA, Parisi L, Pagani E, et al. Regional but not global brain damage contributes to fatigue in multiple sclerosis. Radiology. 2014;273(2):511-20.
Möller MC, Nordin LE, Bartfai A, et al. Fatigue and cognitive fatigability in mild traumatic brain injury are correlated with altered neural activity during vigilance test performance. Front Neurol. 2017;8:496.
Pardini M, Bonzano L, Mancardi GL, et al. Frontal networks play a role in fatigue perception in multiple sclerosis. Behav Neurosci. 2010;124(3):329-36.
Wang C, Trongnetrpunya A, Samuel IB, et al. Compensatory neural activity in response to cognitive fatigue. J Neurosci. 2016;36(14): 3919-24.
Menning S, de Ruiter MB, Veltman DJ, et al. Changes in brain activation in breast cancer patients depend on cognitive domain and treatment type. PloS one. 2017;12(3):e0171724.
Chen C, Wang J, Li K, et al. Visual fatigue caused by watching 3DTV:an fMRI study. Biomed Eng online. 2015;14(1):12.
Asano M, Finlayson ML. Meta-analysis of three different types of fatigue management interventions for people with multiple sclerosis: exercise, education, and medication. Mult Scler Int. 2014;2014:798285.
Hampson JP, Zick SM, Khabir T, et al. Altered resting brain connectivity in persistent cancer related fatigue. NeuroImage Clin. 2015;8:305–313.
Wang Y, Dong D, Todd J, et al. Neural correlates of restrained eaters’ high susceptibility to food cues: An fMRI study. Neurosci Lett. 2016; 631:56–62.
Frank S, Laharnar N, Kullmann S, et al. Processing of food pictures: influence of hunger, gender and calorie content. Brain Res. 2010;1350:159–166.
Vocks S, Herpertz S, Rosenberger C, et al. Effects of gustatory stimulation on brain activity during hunger and satiety in females with restricting-type anorexia nervosa: An fMRI study. J Psych Res. 2011;45(3):395-403.
Picchioni D, Fukunagab M, Carr WS, et al. fMRI differences between early and late stage-1 sleep. Neurosci Lett. 2008;441(1):81–85.
Lange G, Steffener J, Cook DB, et al. Objective evidence of cognitive complaints in Chronic Fatigue Syndrome: A BOLD fMRI study of verbal working memory. NeuroImage. 2005;26(2):513–524.
Porubska´K, Veit R, Preissl H, et al. Subjective feeling of appetite modulates brain activity: An fMRI study. NeuroImage. 2006;32(3):1273 –1280.
van Duinen H, Renken R, Maurits N, et al. Effects of motor fatigue on human brain activity, an fMRI study. NeuroImage. 2007;35(4):1438–1449.
Jacobson A, Green E, Murphy C. Age-related functional changes in gustatory and reward processing regions:An fMRI study. NeuroImage. 2010;53(2):602–610.
Tsai PJ, Chen SC, Hsu CY, et al. Local awakening: Regional reorganizations of brain oscillations after sleep. NeuroImage. 2014;102(2):894–903.
Thomas RJ. Fatigue in the executive cortical network demonstrated in narcoleptics using functional magnetic resonance imaging - a preliminary study. Sleep Med. 2005;6(5):399–406.
Wirsich J, Rey M, Guye M, et al. Brain networks are independently modulated by donepezil, sleep, and sleep deprivation. Brain Topogr. 2017:23. doi: 10.1007/s10548-017-0608-5.
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