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Pupil size variations correlate with physical effort perception.

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Zenon, Alexandre [UCL] SIDIBE, Mariam [Joint United Nations Programme HIV/AIDS, Genova, Suisse] Olivier, Etienne [UCL]

It has long been established that the pupil diameter increases during mental activities in proportion to the difficulty of the task at hand. However, it is still unclear whether this relationship between the pupil size and effort applies also to physical effort. In order to address this issue, we asked healthy volunteers to perform a power grip task, at varied intensity, while evaluating their effort both implicitly and explicitly, and while concurrently monitoring their pupil size. Each trial started with a contraction of imposed intensity, under the control of a continuous visual feedback. Upon completion of the contraction, participants had to choose whether to replicate, without feedback, the first contraction for a variable monetary reward, or whether to skip this step and go directly to the next trial. The rate of acceptance of effort replication and the amount of force exerted during the replication were used as implicit measures of the perception of the effort exerted during the first contraction. In addition, the participants were asked to rate on an analog scale, their explicit perception of the effort for each intensity condition. We found that pupil diameter increased during physical effort and that the magnitude of this response reflected not only the actual intensity of the contraction but also the subjects' perception of the effort. This finding indicates that the pupil size signals the level of effort invested in a task, irrespective of whether it is physical or mental. It also helps refining the potential brain circuits involved since the results of the current study imply a convergence of mental and physical effort information at some level along this pathway.

Document type Article de périodique (Journal article) – Article de recherche
Access type Accès libre
Publication date 2014
Language Anglais
Journal information "Frontiers in Behavioral Neuroscience" - Vol. 8, no.286, p. 1-8 (Août 2014)
Peer reviewed yes
Publisher Frontiers Research Foundation ((Switzerland) Lausanne)
issn 1662-5153
e-issn 1662-5153
Publication status Publié
Affiliation UCL - SSS/IONS/COSY - Systems & cognitive Neuroscience
Keywords pupillometry ; effort ; psychophysiology ; effort-based decision making ; pupil dilation ; physical exertion
Links
  1. Aston-Jones Gary, Cohen Jonathan D., AN INTEGRATIVE THEORY OF LOCUS COERULEUS-NOREPINEPHRINE FUNCTION: Adaptive Gain and Optimal Performance, 10.1146/annurev.neuro.28.061604.135709
  2. Backs Richard W, Seljos Kimberle A, Metabolic and cardiorespiratory measures of mental effort: the effects of level of difficulty in a working memory task, 10.1016/0167-8760(94)90042-6
  3. Barry Robert J., Promise versus reality in relation to the unitary orienting reflex: A case study examining the role of theory in psychophysiology, 10.1016/j.ijpsycho.2006.01.004
  4. Beatty Jackson, Task-evoked pupillary responses, processing load, and the structure of processing resources., 10.1037/0033-2909.91.2.276
  5. Blatt S. J., Patterns of cardiac arousal during complex mental activity., 10.1037/h0044753
  6. Bolker Benjamin M., Brooks Mollie E., Clark Connie J., Geange Shane W., Poulsen John R., Stevens M. Henry H., White Jada-Simone S., Generalized linear mixed models: a practical guide for ecology and evolution, 10.1016/j.tree.2008.10.008
  7. Bradley Margaret M., Miccoli Laura, Escrig Miguel A., Lang Peter J., The pupil as a measure of emotional arousal and autonomic activation, 10.1111/j.1469-8986.2008.00654.x
  8. Breen Lenore A., Burde Ronald M., Loewy Arthur D., Brainstem connections to the Edinger-Westphal nucleus of the cat: a retrograde tracer study, 10.1016/0006-8993(83)90633-9
  9. Calcagno Vincent, Mazancourt Claire de, glmulti: AnRPackage for Easy Automated Model Selection with (Generalized) Linear Models, 10.18637/jss.v034.i12
  10. Cavanagh James F., Wiecki Thomas V., Kochar Angad, Frank Michael J., Eye tracking and pupillometry are indicators of dissociable latent decision processes., 10.1037/a0035813
  11. Fatigue as a Window to the Brain (2005)
  12. Einhäuser, Pupil dilation betrays the timing of decisions, 10.3389/fnhum.2010.00018
  13. Esposito Fabrizio, Mulert Christoph, Goebel Rainer, Combined distributed source and single-trial EEG–fMRI modeling: Application to effortful decision making processes, 10.1016/j.neuroimage.2009.03.074
  14. Fibiger Waldemar, Singer George, Urinary dopamine in physical and mental effort, 10.1007/bf00943376
  15. Fibiger Waldemar, Singer George, Miller Alan J., Relationships between catecholamines in urine and physical and mental effort, 10.1016/0167-8760(84)90026-6
  16. Floresco S. B., Ghods-Sharifi S., Amygdala-Prefrontal Cortical Circuitry Regulates Effort-Based Decision Making, 10.1093/cercor/bhj143
  17. Gilzenrat Mark S., Nieuwenhuis Sander, Jepma Marieke, Cohen Jonathan D., Pupil diameter tracks changes in control state predicted by the adaptive gain theory of locus coeruleus function, 10.3758/cabn.10.2.252
  18. Goldstein Iris B., Shapiro David, Cardiovascular Responses to Mental Arithmetic and Handgrip During Different Conditions of Postural Change, 10.1111/j.1469-8986.1988.tb00974.x
  19. Gur Ruben C., Ragland J.Daniel, Mozley Lyn Harper, Mozley P.David, Smith Robin, Alavi Abass, Bilker Warren, Gur Raquel E., Lateralized Changes in Regional Cerebral Blood Flow during Performance of Verbal and Facial Recognition Tasks: Correlations with Performance and “Effort”, 10.1006/brcg.1997.0921
  20. Hess E. H., Polt J. M., Pupil Size in Relation to Mental Activity during Simple Problem-Solving, 10.1126/science.143.3611.1190
  21. Jepma Marieke, Nieuwenhuis Sander, Pupil Diameter Predicts Changes in the Exploration–Exploitation Trade-off: Evidence for the Adaptive Gain Theory, 10.1162/jocn.2010.21548
  22. Just Marcel Adam, Carpenter Patricia A., Miyake Akira, Neuroindices of cognitive workload: Neuroimaging, pupillometric and event-related potential studies of brain work, 10.1080/14639220210159735
  23. Kluess, Am. J. Physiol. Heart Circ. Physiol, 278, H1648 (2000)
  24. Marcora S. M., Bosio A., de Morree H. M., Locomotor muscle fatigue increases cardiorespiratory responses and reduces performance during intense cycling exercise independently from metabolic stress, 10.1152/ajpregu.00678.2007
  25. Marcora S. M., Staiano W., Manning V., Mental fatigue impairs physical performance in humans, 10.1152/japplphysiol.91324.2008
  26. Mulert Christoph, Menzinger Elisabeth, Leicht Gregor, Pogarell Oliver, Hegerl Ulrich, Evidence for a close relationship between conscious effort and anterior cingulate cortex activity, 10.1016/j.ijpsycho.2004.10.002
  27. Naber M., Nakayama K., Pupil responses to high-level image content, 10.1167/13.6.7
  28. Partala Timo, Surakka Veikko, Pupil size variation as an indication of affective processing, 10.1016/s1071-5819(03)00017-x
  29. Privitera C. M., Renninger L. W., Carney T., Klein S., Aguilar M., Pupil dilation during visual target detection, 10.1167/10.10.3
  30. Qiyuan Jiang, Richer Françlois, Wagoner Brennis L., Beatty Jackson, The Pupil and Stimulus Probability, 10.1111/j.1469-8986.1985.tb01645.x
  31. Schaefer A., Braver T. S., Reynolds J. R., Burgess G. C., Yarkoni T., Gray J. R., Individual Differences in Amygdala Activity Predict Response Speed during Working Memory, 10.1523/jneurosci.2567-06.2006
  32. Schmidt Liane, Lebreton Maël, Cléry-Melin Marie-Laure, Daunizeau Jean, Pessiglione Mathias, Neural Mechanisms Underlying Motivation of Mental Versus Physical Effort, 10.1371/journal.pbio.1001266
  33. Seals D R, Influence of force on muscle and skin sympathetic nerve activity during sustained isometric contractions in humans., 10.1113/jphysiol.1993.sp019548
  34. Steiger H.-J., Büttner-Ennever J.A., Oculomotor nucleus afferents in the monkey demonstrated with horseradish peroxidase, 10.1016/0006-8993(79)90596-1
  35. Sterpenich V., D'Argembeau A., Desseilles M., Balteau E., Albouy G., Vandewalle G., Degueldre C., Luxen A., Collette F., Maquet P., The Locus Ceruleus Is Involved in the Successful Retrieval of Emotional Memories in Humans, 10.1523/jneurosci.1001-06.2006
  36. Szabadi Elemer, Functional neuroanatomy of the central noradrenergic system, 10.1177/0269881113490326
  37. TAYLOR STUART P., EPSTEIN SEYMOUR, The Measurement of Autonomic Arousal : Some Basic Issues Illustrated by the Covariation of Heart Rate and Skin Conductance, 10.1097/00006842-196709000-00010
  38. Walton, J. Neurosci, 23, 6475 (2003)
  39. Wierda S. M., van Rijn H., Taatgen N. A., Martens S., Pupil dilation deconvolution reveals the dynamics of attention at high temporal resolution, 10.1073/pnas.1201858109
  40. Wilhelm B. J., Pupil response components: studies in patients with Parinaud's syndrome, 10.1093/brain/awf232
  41. Williamson J. W., Fadel P. J., Mitchell J. H., New insights into central cardiovascular control during exercise in humans: a central command update : Central cardiovascular control, 10.1113/expphysiol.2005.032037
  42. BORG GUNNAR A.V., Psychophysical bases of perceived exertion : , 10.1249/00005768-198205000-00012
Bibliographic reference Zenon, Alexandre ; SIDIBE, Mariam ; Olivier, Etienne. Pupil size variations correlate with physical effort perception.. In: Frontiers in Behavioral Neuroscience, Vol. 8, no.286, p. 1-8 (Août 2014)
Permanent URL http://hdl.handle.net/2078.1/155253