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Neuroimage. 2017 Aug 1;156:352-362. doi: 10.1016/j.neuroimage.2017.05.042. Epub 2017 May 19.

Temporal expectancies driven by self- and externally generated rhythms.

Author information

1
Université Paris Descartes, Sorbonne Paris Cité, Paris, France; CNRS (Laboratoire Psychologie de la Perception, UMR 8158), Paris, France; Middlesex University London, United Kingdom. Electronic address: a.j.jones@mdx.ac.uk.
2
Department of Educational Psychology and Counselling, National Taiwan Normal University, Taiwan.
3
CNRS (Laboratoire Psychologie de la Perception, UMR 8158), Paris, France.
4
Université Paris Descartes, Sorbonne Paris Cité, Paris, France; CNRS (Laboratoire Psychologie de la Perception, UMR 8158), Paris, France.

Abstract

The dynamic attending theory proposes that rhythms entrain periodic fluctuations of attention which modulate the gain of sensory input. However, temporal expectancies can also be driven by the mere passage of time (foreperiod effect). It is currently unknown how these two types of temporal expectancy relate to each other, i.e. whether they work in parallel and have distinguishable neural signatures. The current research addresses this issue. Participants either tapped a 1Hz rhythm (active task) or were passively presented with the same rhythm using tactile stimulators (passive task). Based on this rhythm an auditory target was then presented early, in synchrony, or late. Behavioural results were in line with the dynamic attending theory as RTs were faster for in- compared to out-of-synchrony targets. Electrophysiological results suggested self-generated and externally induced rhythms to entrain neural oscillations in the delta frequency band. Auditory ERPs showed evidence of two distinct temporal expectancy processes. Both tasks demonstrated a pattern which followed a linear foreperiod effect. In the active task, however, we also observed an ERP effect consistent with the dynamic attending theory. This study shows that temporal expectancies generated by a rhythm and expectancy generated by the mere passage of time can work in parallel and sheds light on how these mechanisms are implemented in the brain.

KEYWORDS:

Crossmodal; Entrainment; Oscillation; Rhythmic tapping; Temporal expectation

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