Brain potentials and self-paced random number generation in humans

Sabine Schneider; Gregor Joppich; Arie Van Der Lugt; Jan Däuper; Thomas F. Münte

doi:10.1016/j.neulet.2004.05.074

Brain potentials and self-paced random number generation in humans

Sabine Schneider, Gregor Joppich, Arie Van Der Lugt, Jan Däuper, Thomas F. Münte^*

^*Korrespondierende/r Autor/-in für diese Arbeit

8 Zitate (Scopus)

Abstract

Random number generation (RNG) requires executive control. A novel paradigm using the eight drum pads of an electronic drum set as an input device was used to test 15 healthy subjects who engaged in random or ordered number generation (ONG). Brain potentials time-locked to the drum-beats revealed a more negative response during RNG compared to ONG which had a left frontal distribution. Source analysis pointed to Brodmann area 9, which has been reported previously in a PET study and is thought to be engaged in suppression of habitual responses such as counting up in steps of one during RNG. Lateralized readiness potentials reflecting the difference in activation of the contra and ipsilateral motor cortex were smaller during ONG reflecting the ability to preprogram such canonical sequences.

Originalsprache	Englisch
Zeitschrift	Neuroscience Letters
Jahrgang	367
Ausgabenummer	1
Seiten (von - bis)	51-55
Seitenumfang	5
ISSN	0304-3940
DOIs	https://doi.org/10.1016/j.neulet.2004.05.074
Publikationsstatus	Veröffentlicht - 26.08.2004

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Supported by DFG-grant MU 1311/11-2. We thank M. Bangert and T. Wüstenberg for technical support.

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Forschungsschwerpunkt: Gehirn, Hormone, Verhalten - Center for Brain, Behavior and Metabolism (CBBM)

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10.1016/j.neulet.2004.05.074

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title = "Brain potentials and self-paced random number generation in humans",

abstract = "Random number generation (RNG) requires executive control. A novel paradigm using the eight drum pads of an electronic drum set as an input device was used to test 15 healthy subjects who engaged in random or ordered number generation (ONG). Brain potentials time-locked to the drum-beats revealed a more negative response during RNG compared to ONG which had a left frontal distribution. Source analysis pointed to Brodmann area 9, which has been reported previously in a PET study and is thought to be engaged in suppression of habitual responses such as counting up in steps of one during RNG. Lateralized readiness potentials reflecting the difference in activation of the contra and ipsilateral motor cortex were smaller during ONG reflecting the ability to preprogram such canonical sequences.",

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AU - Schneider, Sabine

AU - Joppich, Gregor

AU - Lugt, Arie Van Der

AU - Däuper, Jan

AU - Münte, Thomas F.

PY - 2004/8/26

Y1 - 2004/8/26

N2 - Random number generation (RNG) requires executive control. A novel paradigm using the eight drum pads of an electronic drum set as an input device was used to test 15 healthy subjects who engaged in random or ordered number generation (ONG). Brain potentials time-locked to the drum-beats revealed a more negative response during RNG compared to ONG which had a left frontal distribution. Source analysis pointed to Brodmann area 9, which has been reported previously in a PET study and is thought to be engaged in suppression of habitual responses such as counting up in steps of one during RNG. Lateralized readiness potentials reflecting the difference in activation of the contra and ipsilateral motor cortex were smaller during ONG reflecting the ability to preprogram such canonical sequences.

AB - Random number generation (RNG) requires executive control. A novel paradigm using the eight drum pads of an electronic drum set as an input device was used to test 15 healthy subjects who engaged in random or ordered number generation (ONG). Brain potentials time-locked to the drum-beats revealed a more negative response during RNG compared to ONG which had a left frontal distribution. Source analysis pointed to Brodmann area 9, which has been reported previously in a PET study and is thought to be engaged in suppression of habitual responses such as counting up in steps of one during RNG. Lateralized readiness potentials reflecting the difference in activation of the contra and ipsilateral motor cortex were smaller during ONG reflecting the ability to preprogram such canonical sequences.

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SP - 51

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JO - Neuroscience Letters

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IS - 1

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Brain potentials and self-paced random number generation in humans

Abstract

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