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Experimental Brain Research

Erschienen in:

01.06.2010 | Research Article

The relationship between physiological arousal and cortical and autonomic responses to postural instability

verfasst von: Kathryn M. Sibley, George Mochizuki, James S. Frank, William E. McIlroy

Erschienen in: Experimental Brain Research | Ausgabe 3/2010

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Abstract

Postural instability evokes cortical and autonomic reactions in addition to the primary compensatory response, and it is hypothesized that these responses may be related to underlying affective influences such as tonic physiological arousal. The purpose of this study was to determine whether perturbation-evoked cortical potentials (N1 and P2) and electrodermal responses (EDRs) were related to each other or to tonic electrodermal level (EDL). Ten healthy individuals received sixty perturbations while standing at ground level (LOW) and at the edge of an elevated platform (HIGH), where an unsuccessful reaction could lead to a fall from a height of 160 cm. Postural responses, tonic EDLs and N1 potentials were all significantly larger (p ≤ 0.01) at the HIGH height relative to LOW. EDR amplitudes did not show a main effect of condition, but habituated less at the HIGH height (interaction p = 0.04). P2 potentials were not different between conditions (p > 0.05). There was no statistically significant relationship between the magnitude of change in N1 amplitude between conditions and the change in EDR amplitude between conditions (R = 0.25, p = 0.5), between magnitude of N1 change and magnitude of EDL change (R = −0.23, p = 0.25), or between magnitude of EDR change and EDL change (R = −0.51, p = 0.16). Altered cortical and autonomic responses at the HIGH height were independent of elevated physiological arousal. These findings have implications for understanding the role of cortical and autonomic responses in compensatory balance control, and alleviate concerns about the potential influence of underlying arousal on electrodermal reactivity.

Adkin AL, Frank JS, Carpenter MG, Peysar GW (2002) Fear of falling modifies anticipatory postural control. Exp Brain Res 143:160–170CrossRefPubMed

Adkin AL, Quant S, Maki BE, McIlroy WE (2006) Cortical responses associated with predictable and unpredictable compensatory balance reactions. Exp Brain Res 172:85–93CrossRefPubMed

Adkin AL, Campbell AD, Chua R, Carpenter MG (2008) The influence of postural threat on the cortical response to unpredictable and predictable postural perturbations. Neurosci Lett 438:120–125CrossRef

Barry RJ, Sokolov EN (1993) Habituation of phasic and tonic components of the orienting reflex. Int J Psychophysiol 15:39–42CrossRefPubMed

Brown LA, Gage WH, Polych MA, Sleik RJ, Winder TR (2002) Central set influences on gait: age-dependent effects of postural threat. Exp Brain Res 145:286–296CrossRefPubMed

Carpenter MG, Frank JS, Silcher CP (1999) Surface height effects on postural control: a hypothesis for a stiffness strategy for stance. J Vestibular Res 9:277–286

Carpenter MG, Frank JS, Silcher CP, Peysar GW (2001) The influence of postural threat on the control of upright stance. Exp Brain Res 138:210–218CrossRefPubMed

Carpenter MG, Frank JS, Adkin AL, Paton A, Allum JH (2004) Influence of postural anxiety on postural reactions to multi-directional surface rotations. J Neurophysiol 92:3255–3265CrossRefPubMed

Critchley HD (2002) Electrodermal responses: what happens in the brain. Neuroscientist 8:132–142CrossRefPubMed

Critchley HD, Tang J, Glaser D, Butterworth B, Dolan RJ (2005) Anterior cingulate activity during error and autonomic response. NeuroImage 27:885–895CrossRefPubMed

Dietz V, Quintern J, Berger W (1984) Cerebral evoked potentials associated with the compensatory reactions following stance and gait perturbation. Neurosci Lett 50:181–186CrossRefPubMed

Fowles DC, Christie MJ, Edelberg R, Grings WW, Lykken DT, Venables PH (1981) Publication recommendations for electrodermal measurements. Psychophysiology 18:232–239CrossRefPubMed

Fusar-Poli P, Landi P, O’Connor C (2009) Neurophysiological response to emotional faces with increasing intensity of fear: a skin conductance response study. J Clin Neurosci 16:981–982CrossRefPubMed

Ganushchak LY, Schiller NO (2008) Motivation and semantic context affect brain error-monitoring activity: an event-related brain potentials study. Neuroimage 29:395–405CrossRef

Hajcak G, McDonald N, Simons RF (2003) To err is autonomic: error-related brain potentials, ANS activity, and post-error compensatory behavior. Psychophysiology 40:895–903CrossRefPubMed

Hauck LJ, Carpenter MG, Frank JS (2007) Task-specific measures of balance efficacy, anxiety, and stability and their relationship to clinical balance performance. Gait Posture 27:672–676

Jacobs JV, Horak FB (2007) Cortical control of postural responses. J Neural Trans 114:1339–1348CrossRef

Kandel ER, Schwartz JH, Jessell TM (2000) Principles of neural science. McGraw-Hill, New York

Keil A, Carson Smith J, Wangelin BC, Sabatinelli D, Bradley MM, Lang PJ (2008) Electrocortical and electrodermal responses covary as a function of emotional arousal: a single-trial analysis. Psychophysiology 45:516–523CrossRefPubMed

Kelly MM, Forsyth JP (2007) Observational fear conditioning in the acquisition and extinction of attentional bias for threat: an experimental evaluation. Emotion 7:324–335CrossRefPubMed

Lewis PA, Critchley HD, Rotshtein P, Dolan RJ (2007) Neural correlates of processing valence and arousal in affective words. Cereb Cortex 17:742–748CrossRefPubMed

Macefield VG, Wallin BG (1996) The discharge behaviour of single sympathetic neurones supplying human sweat glands. J Autonomic Nervous Syst 61:277–286CrossRef

McIlroy WE, Maki BE (1994) The ‘deceleration response’ to transient perturbation of upright stance. Neurosci Lett 175:13–16CrossRefPubMed

McIlroy WE, Maki BE (1997) Preferred placement of the feet during quiet stance: development of a standardized foot placement for balance testing. Clinical Biomech 12:66–70CrossRef

Mochizuki G, Sibley KM, Esposito JG, Camilleri JM, McIlroy WE (2008) Cortical responses associated with the preparation and reaction to full–body perturbations to upright stability. Clin Neurophysiol 119:1626–1637CrossRefPubMed

Quant S (2006) Cerebral potentials evoked by balance perturbations. Institute of Medical Science, Doctoral Thesis. University of Toronto, Toronto, Canada

Quant S, Adkin AL, Staines RW, Maki BE, McIlroy WE (2004a) The effect of a concurrent cognitive task on cortical potentials evoked by unpredictable balance perturbations. BMC Neurosci 5:18CrossRefPubMed

Quant S, Adkin AL, Staines WR, McIlroy WE (2004b) Cortical activation following a balance disturbance. Exp Brain Res 155:393–400CrossRefPubMed

Quant S, Maki BE, McIlroy WE (2005) The association between later cortical potentials and later phases of postural reactions evoked by perturbations to upright stance. Neurosci Lett 381:269–274CrossRefPubMed

Rushby JA, Barry RJ, Doherty RJ (2005) Separation of the components of the late positive complex in an ERP dishabituation paradigm. Clin Neurophysiol 116:2363–2380CrossRefPubMed

Samuels ER, Hou RH, Langley RW, Szabadi E, Bradshaw CM (2007) Modulation of acoustic startle response by the level of arousal: comparison of clonidine and modafinil in healthy volunteers. Neuropsychopharmacology 32:2405–2421CrossRefPubMed

Sibley KM, Carpenter MG, Perry JC, Frank JS (2007) Effects of postural anxiety on the soleus H-reflex. Hum Mov Sci 26:103–112CrossRefPubMed

Sibley KM, Mochizuki G, Esposito JG, Camilleri JM, McIlroy WE (2008) Phasic electrodermal responses in response to whole-body perturbation: presence and influence of expectation. Brain Res 119:1626–1637

Sibley KM, Mochizuki G, McIlroy WE (2009) Perturbation-evoked electrodermal activity responds to instability, not just motor or sensory drives. Clin Neurophysiol 120:619–625CrossRefPubMed

Staines WR, McIlroy WE, Brooke JD (2001) Cortical representation of whole-body movement is modulated by proprioceptive discharge in humans. Exp Brain Res 138:235–242CrossRefPubMed

Taylor SF, Stern ER, Gehring WJ (2007) Neural systems for error monitoring: recent findings and theoretical perspectives. Neuroscientist 13:160–172CrossRefPubMed

VaezMousavi SM, Barry RJ, Rushby JA, Clarke AR (2007) Evidence for differentiation of arousal and activation in normal adults. Acta Neurobiol Exp 67:179–186

Williams LM, Palmer D, Liddell BJ, Song L, Gordon E (2006) The `when’ and `where’ of perceiving signals of threat versus non-threat. NeuroImage 31:458–467CrossRefPubMed

Zimmer H (2006) Habituation of the orienting response as reflected by the skin conductance response and by endogenous event-related brain potentials. Int J Psychophysiol 60:44–58CrossRefPubMed

Titel: The relationship between physiological arousal and cortical and autonomic responses to postural instability
verfasst von: Kathryn M. Sibley
George Mochizuki
James S. Frank
William E. McIlroy
Publikationsdatum: 01.06.2010
Verlag: Springer-Verlag
Erschienen in: Experimental Brain Research / Ausgabe 3/2010
Print ISSN: 0014-4819
Elektronische ISSN: 1432-1106
DOI: https://doi.org/10.1007/s00221-010-2257-8

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