The CNV peak: an index of decision making and temporal memory.

A slow brain potential change, the contingent negative variation (CNV), was recorded in a temporal generalization schedule. The task was to judge the duration of a signal (1.250 to 3.125 s) as being equal or not to that of a 2-s target that had been previously memorized. Two signal modalities, visual and tactile, were contrasted in distinct trial blocks, in order to explore possible localization differences. Significant results were found at CPz, irrespective of signal modality. The CNV that developed during signal presentation peaked around 2 s and then declined when the current signal was longer than the 2-s target, instead of peaking at signal extinction as was the case for shorter signals. Thus, for signals longer than the target, the CNV peak and the following slope change provide a memory trace of the encoded target duration, leading to decision making.

[1]  R. Passingham,et al.  The left parietal cortex and motor attention , 1997, Neuropsychologia.

[2]  G. Meinhardt,et al.  Attentional control in learning to discriminate bars and gratings , 2002, Experimental Brain Research.

[3]  A. Nobre,et al.  Orienting attention in time: behavioural and neuroanatomical distinction between exogenous and endogenous shifts , 2000, Neuropsychologia.

[4]  A. Nobre,et al.  Where and When to Pay Attention: The Neural Systems for Directing Attention to Spatial Locations and to Time Intervals as Revealed by Both PET and fMRI , 1998, The Journal of Neuroscience.

[5]  B. Rockstroh,et al.  Slow potentials of the cerebral cortex and behavior. , 1990, Physiological reviews.

[6]  B. Hjorth An on-line transformation of EEG scalp potentials into orthogonal source derivations. , 1975, Electroencephalography and clinical neurophysiology.

[7]  Viviane Pouthas,et al.  Electrophysiological Evidence for Specific Processing of Temporal Information in Humans , 2003 .

[8]  T Elbert,et al.  The processing of temporal intervals reflected by CNV-like brain potentials. , 1991, Psychophysiology.

[9]  M. Ladányi,et al.  CNV and time estimation. , 1985, The International journal of neuroscience.

[10]  F. Vidal,et al.  Activation of the supplementary motor area and of attentional networks during temporal processing , 2002, Experimental Brain Research.

[11]  H. Semlitsch,et al.  A solution for reliable and valid reduction of ocular artifacts, applied to the P300 ERP. , 1986, Psychophysiology.

[12]  S. Keele,et al.  Do perception and motor production share common timing mechanisms: a correctional analysis. , 1985, Acta psychologica.

[13]  Dan Zakay,et al.  Chapter 10 Subjective Time and Attentional Resource Allocation: An Integrated Model of Time Estimation , 1989 .

[14]  R. C. Miall Neural networks and the representation of time. , 1993 .

[15]  R M Church,et al.  Scalar Timing in Memory , 1984, Annals of the New York Academy of Sciences.

[16]  J. Mazziotta,et al.  Brain Activation Induced by Estimation of Duration: A PET Study , 1996, NeuroImage.

[17]  Scott W. Brown Attentional resources in timing: Interference effects in concurrent temporal and nontemporal working memory tasks , 1997, Perception & psychophysics.

[18]  W. Meck Neuropharmacology of timing and time perception. , 1996, Brain research. Cognitive brain research.

[19]  C. Gallistel,et al.  Toward a neurobiology of temporal cognition: advances and challenges , 1997, Current Opinion in Neurobiology.

[20]  D. Harrington,et al.  Neural Underpinnings of Temporal Processing: Α Review of Focal Lesion, Pharmacological, and Functional Imaging Research , 1999, Reviews in the neurosciences.

[21]  Stephen M. Rao,et al.  The evolution of brain activation during temporal processing , 2001, Nature Neuroscience.

[22]  Franck Vidal,et al.  The supplementary motor area in motor and sensory timing: evidence from slow brain potential changes , 1999, Experimental Brain Research.

[23]  A. Ferrandez,et al.  ERPs and PET analysis of time perception: Spatial and temporal brain mapping during visual discrimination tasks , 2000, Human brain mapping.

[24]  E M Glaser,et al.  Event related potentials and time estimation. , 1977, Psychophysiology.

[25]  Franck Vidal,et al.  Time processing reflected by EEG surface Laplacians , 2002, Experimental Brain Research.

[26]  F. Macar,et al.  Contingent negative variation and accuracy of time estimation: a study on cats. , 1979, Electroencephalography and clinical neurophysiology.

[27]  F. Vidal,et al.  The "short-long" reaction time effect in duration programming. , 1996, Journal of motor behavior.

[28]  H. Fruhstorfer,et al.  Differentiation between slow cortical potentials associated with motor and mental acts in man , 2005, Experimental Brain Research.