Costs of control: decreased motor cortex engagement during a Go/NoGo task in Tourette's syndrome

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Costs of control : decreased motor cortex engagement during a Go/NoGo task in Tourette's syndrome. / Thomalla, Götz; Jonas, Melanie; Bäumer, Tobias; Siebner, Hartwig R; Biermann-Ruben, Katja; Ganos, Christos; Orth, Michael; Hummel, Friedhelm C; Gerloff, Christian; Müller-Vahl, Kirsten; Schnitzler, Alfons; Münchau, Alexander.

In: Brain, Vol. 137, No. Pt 1, 01.2014, p. 122-136.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Thomalla, G, Jonas, M, Bäumer, T, Siebner, HR, Biermann-Ruben, K, Ganos, C, Orth, M, Hummel, FC, Gerloff, C, Müller-Vahl, K, Schnitzler, A & Münchau, A 2014, 'Costs of control: decreased motor cortex engagement during a Go/NoGo task in Tourette's syndrome', Brain, vol. 137, no. Pt 1, pp. 122-136. https://doi.org/10.1093/brain/awt288

APA

Thomalla, G., Jonas, M., Bäumer, T., Siebner, H. R., Biermann-Ruben, K., Ganos, C., Orth, M., Hummel, F. C., Gerloff, C., Müller-Vahl, K., Schnitzler, A., & Münchau, A. (2014). Costs of control: decreased motor cortex engagement during a Go/NoGo task in Tourette's syndrome. Brain, 137(Pt 1), 122-136. https://doi.org/10.1093/brain/awt288

Vancouver

Thomalla G, Jonas M, Bäumer T, Siebner HR, Biermann-Ruben K, Ganos C et al. Costs of control: decreased motor cortex engagement during a Go/NoGo task in Tourette's syndrome. Brain. 2014 Jan;137(Pt 1):122-136. https://doi.org/10.1093/brain/awt288

Author

Thomalla, Götz ; Jonas, Melanie ; Bäumer, Tobias ; Siebner, Hartwig R ; Biermann-Ruben, Katja ; Ganos, Christos ; Orth, Michael ; Hummel, Friedhelm C ; Gerloff, Christian ; Müller-Vahl, Kirsten ; Schnitzler, Alfons ; Münchau, Alexander. / Costs of control : decreased motor cortex engagement during a Go/NoGo task in Tourette's syndrome. In: Brain. 2014 ; Vol. 137, No. Pt 1. pp. 122-136.

Bibtex

@article{a3bb3dc4d27747eeb5b6be09b8510048,
title = "Costs of control: decreased motor cortex engagement during a Go/NoGo task in Tourette's syndrome",
abstract = "Gilles de la Tourette syndrome is a neuropsychiatric disorder characterized by an impaired ability to inhibit unwanted behaviour. Although the presence of chronic motor and vocal tics defines Tourette's syndrome, other distinctive behavioural features like echo- and coprophenomena, and non-obscene socially inappropriate behaviour are also core features. We investigated neuronal activation during stimulus-driven execution and inhibition of prepared movements in Tourette's syndrome. To this end, we performed event-related functional magnetic resonance imaging and structural diffusion tensor imaging in 15 moderately affected uncomplicated patients with 'pure' Tourette's syndrome and 15 healthy control participants matched for age and gender. Subjects underwent functional magnetic resonance imaging during a Go/NoGo reaction time task. They had to withhold a prepared finger movement for a variable time until a stimulus instructed them to either execute (Go) or inhibit it (NoGo). Tics were monitored throughout the experiments, combining surface electromyogram, video recording, and clinical assessment in the scanner. Patients with Tourette's syndrome had longer reaction times than healthy controls in Go trials and made more errors in total. Their functional brain activation was decreased in left primary motor cortex and secondary motor areas during movement execution (Go trials) but not during response inhibition (NoGo trials) compared with healthy control subjects. Volume of interest analysis demonstrated less task-related activation in patients with Tourette's syndrome in primary and secondary motor cortex bilaterally, but not in the basal ganglia and cortical non-motor areas. They showed reduced co-activation between the left primary sensory-motor hand area and a network of contralateral sensory-motor areas and ipsilateral cerebellar regions. There were no between-group differences in structural connectivity of the left primary sensory-motor cortex as measured by diffusion tensor imaging-based probabilistic tractography. Our results link reduced sensory-motor cortical activation during movement execution to a decreased co-activation between the sensory-motor cortex and other brain areas involved in motor processing. These functional changes in patients with Tourette's syndrome might result from adaptive reorganization in fronto-parietal brain networks engaged in motor and behavioural control, possibly triggered by abnormal processing and presumably overactivity in cortico-striato-cortical circuits. This might enable patients with Tourette's syndrome to better suppress unwanted movements but comes at a price of behavioural deficits in other domains.",
keywords = "Adult, Age of Onset, Data Interpretation, Statistical, Diffusion Tensor Imaging, Electromyography, Female, Fingers, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Motor Cortex, Movement, Nerve Net, Psychomotor Performance, Reaction Time, Somatosensory Cortex, Tics, Tourette Syndrome",
author = "G{\"o}tz Thomalla and Melanie Jonas and Tobias B{\"a}umer and Siebner, {Hartwig R} and Katja Biermann-Ruben and Christos Ganos and Michael Orth and Hummel, {Friedhelm C} and Christian Gerloff and Kirsten M{\"u}ller-Vahl and Alfons Schnitzler and Alexander M{\"u}nchau",
year = "2014",
month = jan,
doi = "10.1093/brain/awt288",
language = "English",
volume = "137",
pages = "122--136",
journal = "Brain",
issn = "0006-8950",
publisher = "Oxford University Press",
number = "Pt 1",

}

RIS

TY - JOUR

T1 - Costs of control

T2 - decreased motor cortex engagement during a Go/NoGo task in Tourette's syndrome

AU - Thomalla, Götz

AU - Jonas, Melanie

AU - Bäumer, Tobias

AU - Siebner, Hartwig R

AU - Biermann-Ruben, Katja

AU - Ganos, Christos

AU - Orth, Michael

AU - Hummel, Friedhelm C

AU - Gerloff, Christian

AU - Müller-Vahl, Kirsten

AU - Schnitzler, Alfons

AU - Münchau, Alexander

PY - 2014/1

Y1 - 2014/1

N2 - Gilles de la Tourette syndrome is a neuropsychiatric disorder characterized by an impaired ability to inhibit unwanted behaviour. Although the presence of chronic motor and vocal tics defines Tourette's syndrome, other distinctive behavioural features like echo- and coprophenomena, and non-obscene socially inappropriate behaviour are also core features. We investigated neuronal activation during stimulus-driven execution and inhibition of prepared movements in Tourette's syndrome. To this end, we performed event-related functional magnetic resonance imaging and structural diffusion tensor imaging in 15 moderately affected uncomplicated patients with 'pure' Tourette's syndrome and 15 healthy control participants matched for age and gender. Subjects underwent functional magnetic resonance imaging during a Go/NoGo reaction time task. They had to withhold a prepared finger movement for a variable time until a stimulus instructed them to either execute (Go) or inhibit it (NoGo). Tics were monitored throughout the experiments, combining surface electromyogram, video recording, and clinical assessment in the scanner. Patients with Tourette's syndrome had longer reaction times than healthy controls in Go trials and made more errors in total. Their functional brain activation was decreased in left primary motor cortex and secondary motor areas during movement execution (Go trials) but not during response inhibition (NoGo trials) compared with healthy control subjects. Volume of interest analysis demonstrated less task-related activation in patients with Tourette's syndrome in primary and secondary motor cortex bilaterally, but not in the basal ganglia and cortical non-motor areas. They showed reduced co-activation between the left primary sensory-motor hand area and a network of contralateral sensory-motor areas and ipsilateral cerebellar regions. There were no between-group differences in structural connectivity of the left primary sensory-motor cortex as measured by diffusion tensor imaging-based probabilistic tractography. Our results link reduced sensory-motor cortical activation during movement execution to a decreased co-activation between the sensory-motor cortex and other brain areas involved in motor processing. These functional changes in patients with Tourette's syndrome might result from adaptive reorganization in fronto-parietal brain networks engaged in motor and behavioural control, possibly triggered by abnormal processing and presumably overactivity in cortico-striato-cortical circuits. This might enable patients with Tourette's syndrome to better suppress unwanted movements but comes at a price of behavioural deficits in other domains.

AB - Gilles de la Tourette syndrome is a neuropsychiatric disorder characterized by an impaired ability to inhibit unwanted behaviour. Although the presence of chronic motor and vocal tics defines Tourette's syndrome, other distinctive behavioural features like echo- and coprophenomena, and non-obscene socially inappropriate behaviour are also core features. We investigated neuronal activation during stimulus-driven execution and inhibition of prepared movements in Tourette's syndrome. To this end, we performed event-related functional magnetic resonance imaging and structural diffusion tensor imaging in 15 moderately affected uncomplicated patients with 'pure' Tourette's syndrome and 15 healthy control participants matched for age and gender. Subjects underwent functional magnetic resonance imaging during a Go/NoGo reaction time task. They had to withhold a prepared finger movement for a variable time until a stimulus instructed them to either execute (Go) or inhibit it (NoGo). Tics were monitored throughout the experiments, combining surface electromyogram, video recording, and clinical assessment in the scanner. Patients with Tourette's syndrome had longer reaction times than healthy controls in Go trials and made more errors in total. Their functional brain activation was decreased in left primary motor cortex and secondary motor areas during movement execution (Go trials) but not during response inhibition (NoGo trials) compared with healthy control subjects. Volume of interest analysis demonstrated less task-related activation in patients with Tourette's syndrome in primary and secondary motor cortex bilaterally, but not in the basal ganglia and cortical non-motor areas. They showed reduced co-activation between the left primary sensory-motor hand area and a network of contralateral sensory-motor areas and ipsilateral cerebellar regions. There were no between-group differences in structural connectivity of the left primary sensory-motor cortex as measured by diffusion tensor imaging-based probabilistic tractography. Our results link reduced sensory-motor cortical activation during movement execution to a decreased co-activation between the sensory-motor cortex and other brain areas involved in motor processing. These functional changes in patients with Tourette's syndrome might result from adaptive reorganization in fronto-parietal brain networks engaged in motor and behavioural control, possibly triggered by abnormal processing and presumably overactivity in cortico-striato-cortical circuits. This might enable patients with Tourette's syndrome to better suppress unwanted movements but comes at a price of behavioural deficits in other domains.

KW - Adult

KW - Age of Onset

KW - Data Interpretation, Statistical

KW - Diffusion Tensor Imaging

KW - Electromyography

KW - Female

KW - Fingers

KW - Humans

KW - Image Processing, Computer-Assisted

KW - Magnetic Resonance Imaging

KW - Male

KW - Motor Cortex

KW - Movement

KW - Nerve Net

KW - Psychomotor Performance

KW - Reaction Time

KW - Somatosensory Cortex

KW - Tics

KW - Tourette Syndrome

U2 - 10.1093/brain/awt288

DO - 10.1093/brain/awt288

M3 - Journal article

C2 - 24176975

VL - 137

SP - 122

EP - 136

JO - Brain

JF - Brain

SN - 0006-8950

IS - Pt 1

ER -

ID: 138733970