Cerebellar damage impairs executive control and monitoring of movement generation.

Emiliano Brunamonti,Marco Molinari,Giusy Olivito,Stefano Ferraina,Maria Leggio,Francesca R Chiricozzi,Silvia Clausi,Maria Assunta Giusti,Nicholas P Holmes

doi:10.1371/journal.pone.0085997

Emiliano Brunamonti, Marco Molinari + Show 7 more

Open Access

https://doi.org/10.1371/journal.pone.0085997

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Journal: PloS one	Publication Date: Jan 17, 2014
Citations: 121	License type: CC BY 4.0

Affiliation: Sapienza University of Rome, Fondazione Santa Lucia

Abstract

Executive control of motor responses is a psychological construct of the executive system. Several studies have demonstrated the involvement of the cerebral cortex, basal ganglia, and thalamus in the inhibition of actions and monitoring of performance. The involvement of the cerebellum in cognitive function and its functional interaction with basal ganglia have recently been reported. Based on these findings, we examined the hypothesis of cerebellar involvement in executive control by administering a countermanding task in patients with focal cerebellar damage. The countermanding task requires one to make a movement in response to a ‘go’ signal and to halt it when a ‘stop’ signal is presented. The duration of the go process (reaction time; RT), the duration of the stop process (stop signal reaction time; SSRT), and their relationship, expressed by a psychometric function, are recorded as measures of executive control. All patients had longer go process duration in general and in particular, as a proactive control, as demonstrated by the increase in RT after erroneously performed stop trials. Further, they were defective in the slope of the psychometric function indicating a difficulty on triggering the stop process, although the SSRT did not differ from controls. Notably, their performance was worse when lesions affected deep cerebellar nuclei. Our results support the hypothesis that the cerebellum regulates the executive control of voluntary actions. We speculate that its activity is attributed to specific cerebellar influence over the cortico-striatal loop.

Highlights

Executive control (EC) allows one to adapt to continuously changing environments by initiating and halting specific actions or monitoring and redirecting the behavior as needed
We report the performance of focal cerebellar (FCb) subjects on a Countermanding task (CMT) and provide evidence that the cerebellum has a specific function in the cognitive control of movement suppression and performance monitoring, two core properties of EC [2,25]
Cerebellar function in executive motor control According to evidence in humans and animals [3,4,25], various areas of the frontal cortex and subcortical structures contribute to the voluntary control of movement

Summary

Introduction

Executive control (EC) allows one to adapt to continuously changing environments by initiating and halting specific actions or monitoring and redirecting the behavior as needed. Using Granger causality and imaging approaches [11], cerebellar output has been proposed to contribute to post-error processing by influencing the activity of the PFC and anterior cingulate cortex (ACC) through connections with the thalamus [12]. The cerebellum could contribute to proactive and flexible control of behavior–for example, during post-error adaptation [13,14]–by implementing a forward model to predict the sensory input [15] and influencing the activity of basal ganglia [12], which are implicated in error processing and corrective behavior [16,17,18,19]

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