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Processing of embedded response plans is modulated by an interplay of frontoparietal theta and beta activity

Wendiggensen, Paul ; Adelhöfer, Nico ; Jamous, Roula ; [et al.]

American Physiological Society ; 2022

In: Journal of Neurophysiology Vol. 128, No. 3 ( 2022-09-01), p. 543-555

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In: Journal of Neurophysiology, American Physiological Society, Vol. 128, No. 3 ( 2022-09-01), p. 543-555

Abstract: Even simple actions like opening a door require integration/binding and flexible reactivation of different motor elements. Yet, the neural mechanisms underlying the processing of such “embedded response plans” are largely elusive, despite theoretical frameworks, such as the theory of event coding, describing the involved cognitive processes. In a sample of n = 40 healthy participants, we combine time-frequency decomposition and various beamforming methods to examine the neurophysiological dynamics of such action plans, with special emphasis on the interplay of theta and beta frequency activity during the processing of these plans. We show that the integration and rule-guided reactivation of embedded response plans is modulated by a complex interplay of theta and beta activity. Pretrial beta-band activity (BBA) is related to different functional neuroanatomical structures that are activated in a consecutive fashion. Enhanced preparatory activity is positively associated with higher binding-related BBA in the precuneus/parietal areas, indicating that activity in the precuneus/parietal cortex facilitates the execution of an embedded action sequence. Increased preparation subsequently leads to reduced working memory retrieval demands. A cascading pattern of interactions between pretrial and within-trial activity indicates the importance of preparatory brain activity. The study shows that there are multiple roles of beta and theta oscillations associated with different functional neuroanatomical structures during the integration and reactivation of motor elements during actions. NEW & NOTEWORTHY Even simple actions like opening a door require integration/binding and flexible reactivation of different motor elements. Yet, the neural mechanisms underlying the processing of such “embedded response plans” are largely elusive. The study shows that there are multiple roles of beta and theta oscillations associated with different functional neuroanatomical structures during the integration and reactivation of motor elements during actions.

Type of Medium: Online Resource

ISSN: 0022-3077 , 1522-1598

URL: Article

DOI: 10.1152/jn.00537.2021

RVK:

XA 10000 ; XA 552555

Language: English

Publisher: American Physiological Society

Publication Date: 2022

detail.hit.zdb_id: 80161-6

detail.hit.zdb_id: 1467889-5

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Neurophysiology of embedded response plans: age effects in action execution but not in feature integration from preadolescence to adulthood

Dilcher, Roxane ; Jamous, Roula ; Takacs, Adam ; [et al.]

American Physiological Society ; 2021

In: Journal of Neurophysiology Vol. 125, No. 4 ( 2021-04-01), p. 1382-1395

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In: Journal of Neurophysiology, American Physiological Society, Vol. 125, No. 4 ( 2021-04-01), p. 1382-1395

Abstract: Performing a goal-directed movement consists of a chain of complex preparatory mechanisms. Such planning especially requires integration (or binding) of various action features, a process that has been conceptualized in the “theory of event coding.” Theoretical considerations and empirical research suggest that these processes are subject to developmental effects from adolescence to adulthood. The aim of the present study was to investigate age-related modulations in action feature binding processes and to shed light on underlying neurophysiological development from preadolescence to early adulthood. We examined a group of healthy participants ( n = 61) between 10 and 30 yr of age, who performed a task that requires a series of bimanual response selections in an embedded paradigm. For an in-depth analysis of the underlying neural correlates, we applied EEG signal decomposition together with source localization analyses. Behavioral results across the whole group did not show binding effects in reaction times but in intraindividual response variability. From age 10 to 30 yr, there was a decrease in reaction times and reaction time variability but no age-related effect in action file binding. The latter were corroborated by Bayesian data analyses. On the brain level, the developmental effects on response selection were associated with activation modulations in the superior parietal cortex (BA7). The results show that mechanisms of action execution and speed, but not those of action feature binding, are subject to age-related changes between the age of 10 and 30 yr. NEW & NOTEWORTHY Different aspects of an action need to be integrated to allow smooth unfolding of behavior. We examine developmental effects in these processes and show that mechanisms of action execution and speed, but not those of action feature binding, are subject to age-related changes between the age of 10 and 30 yr.

Type of Medium: Online Resource

ISSN: 0022-3077 , 1522-1598

URL: Article

DOI: 10.1152/jn.00681.2020

RVK:

XA 10000 ; XA 552555

Language: English

Publisher: American Physiological Society

Publication Date: 2021

detail.hit.zdb_id: 80161-6

detail.hit.zdb_id: 1467889-5

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