The non-target stimuli of the oddball task activate loci in the
primary motor cortex: a case study of a patient with depth
electrodes

a 2014

The non-target stimuli of the oddball task activate loci in the primary motor cortex: a case study of a patient with depth electrodes

KUKLETA, Miloslav, Alena DAMBORSKÁ, Milan BRÁZDIL, Robert ROMAN, Ivan REKTOR et. al.

Basic information

Original name

The non-target stimuli of the oddball task activate loci in the primary motor cortex: a case study of a patient with depth electrodes

Name in Czech

Neterčové podněty v oddball úkolu aktivují místa v primárním motorickém kortexu: kazuistika pacienta s intracerebrálními elektrodami

Authors

KUKLETA, Miloslav, Alena DAMBORSKÁ, Milan BRÁZDIL, Robert ROMAN and Ivan REKTOR

Edition

International C.I.A.N.S. Conference 2014 March 28-30, 2014 Venice, Italy, 2014

Other information

Type of outcome

Konferenční abstrakt

Confidentiality degree

není předmětem státního či obchodního tajemství

References:

URL

ISSN

Abstract

V originále

The adaptive interactions with the outer world necessitate an effective connection between cognitive and executive functions. The current study presents one example of such connection. It was obtained during the investigation of late components of the intracerebrally recorded EEG responses evoked by the non-target stimuli of the oddball task. The data analyzed yielded an epileptic patient with chronic depth multilead electrodes implanted for diagnostic reasons into the gyrus cinguli anterior, the dorsolateral prefrontal cortex, the supplementary motor area, the primary motor cortex (M1), and the primary sensory cortex. The aim of the study was to ascertain whether the non-target variant of the task evoked any EEG response in the M1. The main result of the study was the finding of a response to non-target stimuli with a pronounced late component in three different loci of the M1 (the response recorded by three different electrodes; minimal distance between recording contacts 12 mm). The late component was almost perfectly synchronized in all three precentral loci and in one dorsolateral prefrontal locus. The mean amplitude of the component was 31.7 ± 2.5 ìV, the latency of its peak was 730 msec (the mean reaction time in the target trials was 474 msec). The finding is considered as direct evidence of a functional connection between the cognitive network, which underlay the accomplishment of the instructed experimental task and the particular locus in the M1, i.e. in the executive structure par excellence.

Links

ED1.1.00/02.0068, research and development project

Name: CEITEC - central european institute of technology

Citovat

KUKLETA, Miloslav, Alena DAMBORSKÁ, Milan BRÁZDIL, Robert ROMAN and Ivan REKTOR. The non-target stimuli of the oddball task activate loci in the primary motor cortex: a case study of a patient with depth electrodes. In International C.I.A.N.S. Conference 2014 March 28-30, 2014 Venice, Italy. 2014. ISSN 1337-933X.

@proceedings{1308001,
   author = {Kukleta, Miloslav and Damborská, Alena and Brázdil, Milan and Roman, Robert and Rektor, Ivan},
   booktitle = {International C.I.A.N.S. Conference 2014 March 28-30, 2014 Venice, Italy},
   title = {The non-target stimuli of the oddball task activate loci in the primary motor cortex: a case study of a patient with depth electrodes},
   url = {http://www.rediviva.sav.sk/56i1/37.pdf},
   year = {2014}
}

TY  - CONF
ID  - 1308001
AU  - Kukleta, Miloslav - Damborská, Alena - Brázdil, Milan - Roman, Robert - Rektor, Ivan
PY  - 2014
TI  - The non-target stimuli of the oddball task activate loci in the primary motor cortex: a case study of a patient with depth electrodes
UR  - http://www.rediviva.sav.sk/56i1/37.pdf
N2  - The adaptive interactions with the outer world necessitate an effective connection between cognitive and executive functions. The current study presents one example of such connection. It was obtained during the investigation of late components of the intracerebrally recorded EEG responses evoked by the non-target stimuli of the oddball task. The data analyzed yielded an epileptic patient with chronic depth multilead electrodes implanted for diagnostic reasons into the gyrus cinguli anterior, the dorsolateral prefrontal cortex, the supplementary motor area, the primary motor cortex (M1), and the primary sensory cortex. The aim of the study was to ascertain whether the non-target variant of the task evoked any EEG response in the M1. The main result of the study was the finding of a response to non-target stimuli with a pronounced late component in three different loci of the M1 (the response recorded by three different electrodes; minimal distance between recording contacts 12 mm). The late component was almost perfectly synchronized in all three precentral loci and in one dorsolateral prefrontal locus. The mean amplitude of the component was 31.7 ± 2.5 ìV, the latency of its peak was 730 msec (the mean reaction time in the target trials was 474 msec). The finding is considered as direct evidence of a functional connection between the cognitive network, which underlay the accomplishment of the instructed experimental task and the particular locus in the M1, i.e. in the executive structure par excellence.
ER  -

KUKLETA, Miloslav, Alena DAMBORSKÁ, Milan BRÁZDIL, Robert ROMAN and Ivan REKTOR. The non-target stimuli of the oddball task activate loci in the primary motor cortex: a case study of a patient with depth electrodes. In \textit{International C.I.A.N.S. Conference 2014 March 28-30, 2014 Venice, Italy}. 2014. ISSN~1337-933X.

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