Intracortical Inhibition Within the Primary Motor Cortex Can Be Modulated by Changing the Focus of Attention

Kuhn, Yves-Alain; Keller, Martin B.; Ruffieux, Jan; Taube, Wolfgang

doi:10.3791/55771

Cited by 14 publications

(16 citation statements)

References 53 publications

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“…In line with this proposal, it has been shown that isometric contractions can be maintained longer when an external focus of attention is adopted (Kuhn et al, 2017a). Interestingly, this improvement of performance was accompanied by an increase in SICI (Kuhn et al, 2017a; Kuhn et al, 2017b) and an increase in surround inhibition (Kuhn et al, 2018).…”

Section: Discussionmentioning

confidence: 98%

Human motor fatigability as evoked by repetitive movements results from a gradual breakdown of surround inhibition

Bächinger

Lehner

Thomas

et al. 2019

eLife

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Motor fatigability emerges when demanding tasks are executed over an extended period of time. Here, we used repetitive low-force movements that cause a gradual reduction in movement speed (or ‘motor slowing’) to study the central component of fatigability in healthy adults. We show that motor slowing is associated with a gradual increase of net excitability in the motor network and, specifically, in primary motor cortex (M1), which results from overall disinhibition. Importantly, we link performance decrements to a breakdown of surround inhibition in M1, which is associated with high coactivation of antagonistic muscle groups. This is consistent with the model that a loss of inhibitory control might broaden the tuning of population vectors such that movement patterns become more variable, ill-timed and effortful. We propose that the release of inhibition in M1 is an important mechanism underpinning motor fatigability and, potentially, also pathological fatigue as frequently observed in patients with brain disorders.

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Section: Discussionmentioning

confidence: 98%

Human motor fatigability as evoked by repetitive movements results from a gradual breakdown of surround inhibition

Bächinger

Lehner

Thomas

et al. 2019

eLife

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“…Motor inhibition is essential for quality of motor execution and particularly for modulating motor cortex output during fine movements, and the increased prominence of SICI in female PD patients may reflect better preserved capacity for movement control at level of the motor cortex. It has been suggested that decreased SICI in PD reflects mainly decreased threshold of excitatory neurons mediating short‐interval intracortical facilitation, with only a minor contribution of impaired synaptic inhibition .…”

Section: Discussionmentioning

confidence: 99%

Sex differences in Parkinson's disease: A transcranial magnetic stimulation study

et al. 2019

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Background Demographic and clinical studies imply that female sex may be protective for PD, but pathophysiological evidence to support these observations is missing. In early PD, functional changes may be detected in primary motor cortex using transcranial magnetic stimulation. Objective We hypothesised that if pathophysiology differs between sexes in PD, this will be reflected in differences of motor cortex measurements. Methods Forty‐one newly diagnosed PD patients (22 males, 19 females) were clinically assessed using MDS‐UPDRS part III, and various measures of cortical excitability and sensorimotor cortex plasticity were measured over both hemispheres, corresponding to the less and more affected side, using transcranial magnetic stimulation. Twenty‐three healthy (10 men, 13 women) participants were studied for comparison. Results Among patients, no significant differences between sexes were found in age, age of diagnosis, symptom duration, and total or lateralized motor score. However, male patients had disturbed interhemispheric balance of motor thresholds, caused by decreased resting and active motor thresholds in the more affected hemisphere. Short interval intracortical inhibition was more effective in female compared to male patients in both hemispheres. Female patients had a preserved physiological focal response to sensorimotor plasticity protocol, whereas male patients showed an abnormal spread of the protocol effect. Conclusion The study provides one of the first neurophysiological evidences of sex differences in early PD. Female patients have a more favorable profile of transcranial magnetic stimulation measures, possibly reflecting a more successful cortical compensation or delayed maladaptive changes in the sensorimotor cortex. © 2019 International Parkinson and Movement Disorder Society

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“…For example, in a study with elaborated TMS protocols (paired-pulse and subthreshold stimulation paradigms), Kuhn and co-workers 27 demonstrated that adopting an EF contrasted to an IF enhances cortical inhibition within M1. The enhanced activity of inhibitory interneurons within M1 may indicate a reduced motor-cortical activation 11 , 27 , 28 , which could be interpreted as a more efficient and more automatic mode of motor control when adopting an EF contrasted with an IF.These data might therefore be considered as a more efficient neural strategy. Besides the effects found in the prime-mover, there is also evidence that adjacent muscles are activated differently when participants use an EF versus an IF.…”

Section: Introductionmentioning

confidence: 99%

“…For example, Chow and colleagues 24 demonstrated that the decreased balance performance (bigger sway path) when using an IF over an EF in young adults was accompanied by a higher T3 (verbal-analytical) and Fz (motor-planning) coherence which reflects increased verbal-analytical involvement during motor planning and control 25 , 26 . Moreover, using different TMS protocols, recent studies 11 , 27 , 28 demonstrated altered neural activation in M1 for the muscle directly involved in the motor task (prime mover) but also the surrounding and/or antagonistic muscles. For example, in a study with elaborated TMS protocols (paired-pulse and subthreshold stimulation paradigms), Kuhn and co-workers 27 demonstrated that adopting an EF contrasted to an IF enhances cortical inhibition within M1.…”

Section: Introductionmentioning

confidence: 99%

Effects of an external compared to an internal focus of attention on the excitability of fast and slow(er) motor pathways

Kuhn

Keller

Egger

et al. 2021

Sci Rep

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The neurophysiological mechanisms underlying the behavioural improvements usually associated with an external (EF) compared with an internal focus of attention (IF) remain poorly investigated. Surround inhibition in the primary cortex has been shown to be more pronounced with an EF, indicating a more spatial restriction of the motor command. However, the influence of different foci on the temporal aspect of the motor command, such as the modulation of fast versus slow(er) motor pathways, remains unknown and was therefore investigated in this study. Fourteen participants were asked to press on a pedal with the right foot to match its position with a target line displayed on a screen. The deviation of the pedal from the target line was used as a behavioural parameter and compared between both foci (EF vs IF). Additionally, conditioned H-reflexes were evoked during the motor task to assess the excitability of fast (direct) and slower (more indirect) motor pathways when adopting an EF or IF. With an EF compared to an IF, the motor performance was enhanced (P = .001; + 24%) and the activation of slow(er) motor pathways was reduced (P < 0.001, − 11.73%). These findings demonstrate for the first time that using different attentional strategies (EF and IF) has an influence on the excitability of slow(er) motor pathways. Together with the increased intracortical inhibition and surround inhibition known from previous studies, the diminished activation in the slow(er) motor pathways further explains why using an EF is a more economic strategy.

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Intracortical Inhibition Within the Primary Motor Cortex Can Be Modulated by Changing the Focus of Attention

Cited by 14 publications

References 53 publications

Human motor fatigability as evoked by repetitive movements results from a gradual breakdown of surround inhibition

Human motor fatigability as evoked by repetitive movements results from a gradual breakdown of surround inhibition

Sex differences in Parkinson's disease: A transcranial magnetic stimulation study

Effects of an external compared to an internal focus of attention on the excitability of fast and slow(er) motor pathways

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