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International Journal of Hyperthermia Volume 28, 2012 - Issue 7
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Research Article

Hyperthermia exposure impaired the early stage of face recognition: An ERP study

Gang SunDepartment of Medical Imaging, Jinan Military General Hospital, Jinan, ChinaCorrespondence[email protected]
,
Min LiDepartment of Medical Imaging, Jinan Military General Hospital, Jinan, China
,
Zhen YangDepartment of Medical Imaging, Jinan Military General Hospital, Jinan, China
,
Li LiDepartment of Medical Imaging, Jinan Military General Hospital, Jinan, China
,
Qingjun JiangDepartment of Medical Imaging, Jinan Military General Hospital, Jinan, China
&
Lun ZhaoDepartment of Medical Imaging, Jinan Military General Hospital, Jinan, China
Pages 605-620 | Received 06 Jun 2012, Accepted 08 Aug 2012, Published online: 28 Sep 2012

References

  • Romer LM, Polkey MI. Fatigue mechanisms determining exercise performance. J Appl Physiol 2008; 104: 879–888
  • Kreider R, Miriel V, Bertun E. Amino acid supplementation and exercise performance. Analysis of the proposed ergogenic value. Sports Med 1993; 16: 190–209
  • Nybo L, Secher NH. Cerebral perturbations provoked by prolonged exercise. Prog Neurobiol 2004; 72: 223–261
  • Frey B, Weiss E-M, Rubner Y, Wunderlich R, Ott OJ, Sauer R, et al. Old and new facts about hyperthermia-induced modulations of the immune system. Int J Hyperthermia 2012; 28(6)528–542
  • Mundel T, Bunn SJ, Hooper PL, Jones DA. The effects of face cooling during hyperthermic exercise in man: Evidence for an integrated thermal, neuroendocrine and behavioural response. Exp Physiol 2007; 92: 187–195
  • Nybo L, Nielsen B, Blomstrand E, Møller K, Secher N. Neurohumoral responses during prolonged exercise in humans. J Appl Physiol 2003; 95: 1125–1131
  • Meeusen R, De Meirleir K. Exercise and brain neurotransmission. Sports Med 1995; 20: 160–188
  • Gleeson M. Interleukins and exercise. J Physiol 2000; 529: 1
  • Sgherza AL, Axen K, Fain R, Hoffman RS, Dunbar CC, Haas F. Effect of naloxone on perceived exertion and exercise capacity during maximal cycle ergometry. J Appl Physiol 2002; 93: 2023–2028
  • Nybo L. CNS fatigue and prolonged exercise: Effect of glucose supplementation. Med Sci Sport Exer 2003; 35: 589–594
  • Cian C, Barraud P, Melin B, Raphel C. Effects of fluid ingestion on cognitive function after heat stress or exercise-induced dehydration. Int J Psychophysiol 2001; 42: 243–251
  • Hocking C, Silberstein RB, Lau WM, Stough C, Roberts W. Evaluation of cognitive performance in the heat by functional brain imaging and psychometric testing. Comp Biochem Physiol A Mol Integr Physiol 2001; 128: 719–734
  • Racinais S, Gaoua N, Grantham J. Hyperthermia impairs short-term memory and peripheral motor drive transmission. J Physiol 2008; 586: 4751–4762
  • Deboer T. Brain temperature dependent changes in the electroencephalogram power spectrum of humans and animals. J Sleep Res 1998; 7: 254–262
  • Nybo L, Nielsen B. Middle cerebral artery blood velocity is reduced with hyperthermia during prolonged exercise in humans. J Physiol 2001; 534: 279–286
  • Nielsen B, Nybo L. Cerebral changes during exercise in the heat. Sports Med 2003; 33: 1–11
  • Deboer T. Electroencephalogram theta frequency changes in parallel with euthermic brain temperature. Brain Res 2002; 930: 212–215
  • Nielsen B, Jessen C. Evidence against brain stem cooling by face fanning in severely hyperthermic humans. Pflugers Archiv Eur J Physiol 1992; 422: 168–172
  • Dubois M, Coppola R, Buchsbaum MS, Lees DE. Somatosensory evoked potentials during whole body hyperthermia in humans. Electroencephalogr Clin Neurophysiol 1981; 52: 157–162
  • Hancock PA, Vasmatzidis I. Effects of heat stress on cognitive performance: The current state of knowledge. Int J Hyperthermia 2003; 19: 355–372
  • Bajada S, Mastaglia F, Black J, Collins D. Effects of induced hyperthermia on visual evoked potentials and saccade parameters in normal subjects and multiple sclerosis patients. J Neurol Neurosur Ps 1980; 43: 849–852
  • Matthews W, Read D, Pountney E. Effect of raising body temperature on visual and somatosensory evoked potentials in patients with multiple sclerosis. J Neurol Neurosur Ps 1979; 42: 250–255
  • Goffaux V, Hault B, Michel C, Vuong QC, Rossion B. The respective role of low and high spatial frequencies in supporting configural and featural processing of faces. Perception 2005; 34: 77–86
  • Schwaninger A, Lobmaier J, Collishaw S. Role of featural and configural information in familiar and unfamiliar face recognition. Biologically Motivated Computer Vision 2010; 2: 245–258
  • Itier RJ, Taylor MJ. Face recognition memory and configural processing: A developmental ERP study using upright, inverted, and contrast-reversed faces. J Cogn Neurosci 2004; 16: 487–502
  • Cheung OS, Richler JJ, Palmeri TJ, Gauthier I. Revisiting the role of spatial frequencies in the holistic processing of faces. J Exp Psychol 2008; 34: 1327–1336
  • Gauthier I, Curran T, Curby KM, Collins D. Perceptual interference supports a non-modular account of face processing. Nat Neurosci 2003; 6: 428–432
  • Richler JJ, Gauthier I, Wenger MJ, Palmeri TJ. Holistic processing of faces: Perceptual and decisional components. Learn Memory 2008; 34: 328–342
  • Richler J, Tanaka J, Brown D, Gauthier I. Why does selective attention to parts fail in face processing?. J Exp Psychol Learn 2008; 34: 1356–1368
  • Bentin S, Allison T, Puce A, Perez E, McCarthy G. Electrophysiological studies of face perception in humans. J Cogn Neurosci 1996; 8: 551–565
  • Anaki D, Zion-Golumbic E, Bentin S. Electrophysiological neural mechanisms for detection, configural analysis and recognition of faces. Neuroimage 2007; 37: 1407–1416
  • Bentin S, Deouell LY. Structural encoding and identification in face processing: ERP evidence for separate mechanisms. Cognitive Neuropsych 2000; 17: 35–55
  • Eimer M. The face-specific N170 component reflects late stages in the structural encoding of faces. Neuroreport 2000; 11: 2319–2324
  • Itier RJ, Alain C, Sedore K, McIntosh AR. Early face processing specificity: It's in the eyes!. J Cogn Neurosci 2007; 19: 1815–1826
  • Itier RJ, Batty M. Neural bases of eye and gaze processing: The core of social cognition. Neurosci Biobehav Rev 2009; 33: 843–863
  • Rossion B, Gauthier I. How does the brain process upright and inverted faces?. Behav Cogn Neurosci Rev 2002; 1: 63–75
  • Zion-Golumbic E, Bentin S. Dissociated neural mechanisms for face detection and configural encoding: Evidence from N170 and induced gamma-band oscillation effects. Cereb Cortex 2007; 17: 1741–1749
  • Bentin S, Golland Y, Flevaris A, Robertson LC, Moscovitch M. Processing the trees and the forest during initial stages of face perception: Electrophysiological evidence. J Cogn Neurosci 2006; 18: 1406–1421
  • Diamond R, Carey S. Why faces are and are not special: An effect of expertise. J Exp Psychol Gen 1986; 115: 107–117
  • Nederhouser M, Yue X, Mangini MC, Biederman I. The deleterious effect of contrast reversal on recognition is unique to faces, not objects. Vision Res 2007; 47: 2134–2142
  • Boehm SG, Dering BR, Thierry G. Category-sensitivity in the N170 range: A question of topography and inversion, not one of amplitude. Neuropsychologia 2011; 49(7)2082–2089. Epub 2011 Apr 6
  • Gao L, Xu J, Zhang B, Zhao L, Harel A, Bentin S. Aging effects on early-stage face perception: An ERP study. Psychophysiology 2009; 46: 970–983
  • Semlitsch HV, Anderer P, Schuster P. A solution for reliable and valid reduction of ocular artifacts applied to the P300 ERP. Psychophysiology 1986; 23: 695–703
  • Dahl CD, Wallraven C, Bulthoff HH, Logothetis NK. Humans and macaques employ similar face-processing strategies. Curr Biol 2009; 19: 509–513
  • Wetsel WC. Hyperthermic effects on behavior. Int J Hyperthermia 2011; 27: 353–373
  • Szinnai G, Schachinger H, Arnaud MJ, Linder L, Keller U. Effect of water deprivation on cognitive-motor performance in healthy men and women. Am J Physiol Regul Integr Comp Physiol 2005; 289: R275–280
  • Simmons SE, Saxby BK, McGlone FP, Jones DA. The effect of passive heating and head cooling on perception, cardiovascular function and cognitive performance in the heat. Eur J Appl Physiol 2008; 104: 271–280
  • Puchinger M, Meinitzer A, Stettin M, Rehak PH. Psychological and systemic stress reactions of patients during hyperthermia treatments. Int J Hyperthermia 2009; 25: 488–497
  • Lobmaier JS, B lte J, Mast FW, Dobel C. Configural and featural processing in humans with congenital prosopagnosia. Adv Cogn Psychol 2010; 6: 23–34
  • Behrmann M, Avidan G, Leonard GL, Kimchi R, Luna B, Humphreys K, et al. Configural processing in autism and its relationship to face processing. Neuropsychologia 2006; 44: 110–129
  • Mondloch CJ, Le Grand R, Maurer D. Configural face processing develops more slowly than featural face processing. Perception 2002; 31: 553–566
  • Schwarzer G, Zauner N, Jovanovic B. Evidence of a shift from featural to configural face processing in infancy. Dev Sci 2007; 10: 452–463
  • Itier RJ, Taylor MJ. N170 or N1? Spatiotemporal differences between object and face processing using Erps. Cereb Cortex 2004; 14: 132–142
  • Haxby JV, Hoffman EA, Gobbini MI. The distributed human neural system for face perception. Trends Cogn Sci 2000; 4: 223–232
  • Kanwisher N, McDermott J, Chun MM. The fusiform face area: A module in human extrastriate cortex specialized for face perception. J Neurosci 1997; 17: 4302–4311
  • Kanwisher N, Yovel G. The fusiform face area: A cortical region specialized for the perception of faces. Philos T Roy Soc B 2006; 361: 2109–2128
  • McCarthy G, Puce A, Gore JC, Allison T. Face-specific processing in the human fusiform gyrus. J Cogn Neurosci 1997; 9: 605–610
  • Gauthier I, Tarr MJ, Moylan J, Skudlarski P, Gore JC, Anderson AW. The fusiform ‘face area’ is part of a network that processes faces at the individual level. J Cogn Neurosci 2000; 12: 495–504
  • Allison T, Puce A, McCarthy G. Social perception from visual cues: Role of the sts region. Trends Cogn Sci 2000; 4: 267–278
  • Hoffman EA, Haxby JV. Distinct representations of eye gaze and identity in the distributed human neural system for face perception. Nat Neurosci 2000; 3: 80–84
  • Sadeh B, Podlipsky I, Zhdanov A, Yovel G. Event-related potential and functional mri measures of face-selectivity are highly correlated: A simultaneous ERP-FMRI investigation. Hum Brain Mapp 2010; 31: 1490–1501
  • Di Russo F, Martinez A, Sereno MI, Pitzalis S, Hillyard SA. Cortical sources of the early components of the visual evoked potential. Hum Brain Mapp 2002; 15: 95–111
  • Halit H, de Haan M, Johnson MH. Modulation of event-related potentials by prototypical and atypical faces. Neuroreport 2000; 11: 1871–1875
  • Rossion B, Jacques C. Does physical interstimulus variance account for early electrophysiological face sensitive responses in the human brain? Ten lessons on the N170. Neuroimage 2008; 39: 1959–1979
  • Mangun GR. Neural mechanisms of visual selective attention. Psychophysiology 1995; 32: 4–18
  • Itier RJ, Taylor MJ. Inversion and contrast polarity reversal affect both encoding and recognition processes of unfamiliar faces: A repetition study using ERPs. Neuroimage 2002; 15: 353–372
  • Rossion B, Campanella S, Gomez C, Delinte A, Debatisse D, Liard L, et al. Task modulation of brain activity related to familiar and unfamiliar face processing: An ERP study. Clin Neurophysiol 1999; 110: 449–462
  • Taylor MJ, Edmonds GE, McCarthy G, Allison T. Eyes first! Eye processing develops before face processing in children. Neuroreport 2001; 12: 1671–1676
  • Bentin S, Allison T, Puce A, Perez E, McCarthy G. Electrophysiological studies of face perception in humans. J Cognitive Neurosci 1996; 8: 551–565
  • Boutsen L, Humphreys GW, Praamstra P, Warbrick T. Comparing neural correlates of configural processing in faces and objects: An ERP study of the thatcher illusion. Neuroimage 2006; 32: 352–367
  • Rossion B, Joyce CA, Cottrell GW, Tarr MJ. Early lateralization and orientation tuning for face, word, object processing in the visual cortex. Neuroimage 2003; 20: 1609–1624
  • Goffaux V, Gauthier I, Rossion B. Spatial scale contribution to early visual differences between face and object processing. Cognitive Brain Res 2003; 16: 416–424
  • Herrmann M, Ehlis AC, Ellgring H, Fallgatter A. Early stages (p100) of face perception in humans as measured with event-related potentials (erps). J Neural Transm 2005; 112: 1073–1081
  • Itier RJ, Taylor MJ. Source analysis of the N170 to faces and objects. Neuroreport 2004; 15: 1261–1265
  • Linkenkaer-Hansen K, Palva JM, Sams M, Hietanen JK, Aronen HJ, Ilmoniemi RJ. Face-selective processing in human extrastriate cortex around 120 ms after stimulus onset revealed by magneto-and electroencephalography. Neurosci Lett 1998; 253: 147–150
  • Mills G, Khan Z, Moxham J, Desai J, Forsyth A, Ponte J. Effects of temperature on phrenic nerve and diaphragmatic function during cardiac surgery. Br J Anaesth 1997; 79: 726–732
  • Starr A, Sininger Y, Winter M, Derebery M, Oba S, Michalewski H. Transient deafness due to temperature-sensitive auditory neuropathy. Ear Hearing 1998; 19: 169–179
  • Trojaborg WT, Moon A, Andersen BB, Trojaborg NS. Sural nerve conduction parameters in normal subjects related to age, gender, temperature, and height: A reappraisal. Muscle Nerve 1992; 15: 666–671
  • Todnem K, Knudsen G, Riise T, Nyland H, Aarli J. The non-linear relationship between nerve conduction velocity and skin temperature. J Neurol Neurosurg Ps 1989; 52: 497–501
  • Dioszeghy P, Stalberg E. Changes in motor and sensory nerve conduction parameters with temperature in normal and diseased nerve. Electroen Clin Neuro 1992; 85: 229–235
  • Proverbio AM, Riva F, Martin E, Zani A. Face coding is bilateral in the female brain. PLoS One 2010; 5: e11242
  • Rilea SL, Roskos-Ewoldsen B, Boles D. Sex differences in spatial ability: A lateralization of function approach. Brain Cognition 2004; 56: 332–343
  • Kemp AH, Silberstein RB, Armstrong SM, Nathan PJ. Gender differences in the cortical electrophysiological processing of visual emotional stimuli. Neuroimage 2004; 21: 632–646
  • Nybo L. CNS fatigue provoked by prolonged exercise in the heat. Front Bioscience (Elite). 2010; 2: 779–792

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