Defective inhibition and inter-regional phase synchronization in pianists with musician's dystonia: an EEG study.

María Herrojo Ruiz; Patricia Senghaas; Michael Grossbach; Hans-Christian Jabusch; Marc Bangert; Friedhelm Hummel; Christian Gerloff; Eckart Altenmüller

Defective inhibition and inter-regional phase synchronization in pianists with musician's dystonia: an EEG study.

Standard

Defective inhibition and inter-regional phase synchronization in pianists with musician's dystonia: an EEG study. / Ruiz, María Herrojo; Senghaas, Patricia; Grossbach, Michael; Jabusch, Hans-Christian; Bangert, Marc; Hummel, Friedhelm; Gerloff, Christian; Altenmüller, Eckart.

In: HUM BRAIN MAPP, Vol. 30, No. 8, 8, 2009, p. 2689-2700.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Ruiz, MH, Senghaas, P, Grossbach, M, Jabusch, H-C, Bangert, M, Hummel, F, Gerloff, C & Altenmüller, E 2009, 'Defective inhibition and inter-regional phase synchronization in pianists with musician's dystonia: an EEG study.', HUM BRAIN MAPP, vol. 30, no. 8, 8, pp. 2689-2700. <http://www.ncbi.nlm.nih.gov/pubmed/19117335?dopt=Citation>

APA

Ruiz, M. H., Senghaas, P., Grossbach, M., Jabusch, H-C., Bangert, M., Hummel, F., Gerloff, C., & Altenmüller, E. (2009). Defective inhibition and inter-regional phase synchronization in pianists with musician's dystonia: an EEG study. HUM BRAIN MAPP, 30(8), 2689-2700. [8]. http://www.ncbi.nlm.nih.gov/pubmed/19117335?dopt=Citation

Vancouver

Ruiz MH, Senghaas P, Grossbach M, Jabusch H-C, Bangert M, Hummel F et al. Defective inhibition and inter-regional phase synchronization in pianists with musician's dystonia: an EEG study. HUM BRAIN MAPP. 2009;30(8):2689-2700. 8.

Bibtex

@article{ebbd8ad33f43441188a26eebfeec8a2b,

title = "Defective inhibition and inter-regional phase synchronization in pianists with musician's dystonia: an EEG study.",

abstract = "Recent neurophysiological studies have associated focal-task specific dystonia (FTSD) with impaired inhibitory function. However, it remains unknown whether FTSD also affects the inhibition (INH) of long-term overlearned motor programs. Consequently, we investigated in a Go/NoGo paradigm the neural correlates associated with the activation (ACT) and inhibition of long-term overlearned motor memory traces in pianists with musician's dystonia (MD), a form of FTSD, during a relevant motor task under constraint timing conditions with multichannel EEG. In NoGo trials, the movement related cortical potentials showed a positive shift after the NoGo signal related to inhibition and was significantly smaller over sensorimotor areas in musicians with MD. Further, we observed an increase at 850-900 ms in the power of beta oscillations which was significantly weaker for the patient group. The role of the inter-electrode phase coupling in the sensorimotor integration of inhibitory processes turned out to be the most relevant physiological marker: the global phase synchronization during INH exhibited an increase between 230 and 330 ms and 7-8 Hz, increase which was significantly smaller for pianists with MD. This effect was due to a weaker phase synchronization between the supplementary motor cortex and left premotor and sensorimotor electrodes in patients. Thus, our findings support the hypothesis of a deficient phase coupling between the neuronal assemblies required to inhibit motor memory traces in patients with MD. EMG recorded from the right flexor pollicis longus muscle confirmed that patients with MD had a disrupted INH in NoGo trials.",

author = "Ruiz, {Mar{\'i}a Herrojo} and Patricia Senghaas and Michael Grossbach and Hans-Christian Jabusch and Marc Bangert and Friedhelm Hummel and Christian Gerloff and Eckart Altenm{\"u}ller",

year = "2009",

language = "Deutsch",

volume = "30",

pages = "2689--2700",

journal = "HUM BRAIN MAPP",

issn = "1065-9471",

publisher = "Wiley-Liss Inc.",

number = "8",

}

RIS

TY - JOUR

T1 - Defective inhibition and inter-regional phase synchronization in pianists with musician's dystonia: an EEG study.

AU - Ruiz, María Herrojo

AU - Senghaas, Patricia

AU - Grossbach, Michael

AU - Jabusch, Hans-Christian

AU - Bangert, Marc

AU - Hummel, Friedhelm

AU - Gerloff, Christian

AU - Altenmüller, Eckart

PY - 2009

Y1 - 2009

N2 - Recent neurophysiological studies have associated focal-task specific dystonia (FTSD) with impaired inhibitory function. However, it remains unknown whether FTSD also affects the inhibition (INH) of long-term overlearned motor programs. Consequently, we investigated in a Go/NoGo paradigm the neural correlates associated with the activation (ACT) and inhibition of long-term overlearned motor memory traces in pianists with musician's dystonia (MD), a form of FTSD, during a relevant motor task under constraint timing conditions with multichannel EEG. In NoGo trials, the movement related cortical potentials showed a positive shift after the NoGo signal related to inhibition and was significantly smaller over sensorimotor areas in musicians with MD. Further, we observed an increase at 850-900 ms in the power of beta oscillations which was significantly weaker for the patient group. The role of the inter-electrode phase coupling in the sensorimotor integration of inhibitory processes turned out to be the most relevant physiological marker: the global phase synchronization during INH exhibited an increase between 230 and 330 ms and 7-8 Hz, increase which was significantly smaller for pianists with MD. This effect was due to a weaker phase synchronization between the supplementary motor cortex and left premotor and sensorimotor electrodes in patients. Thus, our findings support the hypothesis of a deficient phase coupling between the neuronal assemblies required to inhibit motor memory traces in patients with MD. EMG recorded from the right flexor pollicis longus muscle confirmed that patients with MD had a disrupted INH in NoGo trials.

AB - Recent neurophysiological studies have associated focal-task specific dystonia (FTSD) with impaired inhibitory function. However, it remains unknown whether FTSD also affects the inhibition (INH) of long-term overlearned motor programs. Consequently, we investigated in a Go/NoGo paradigm the neural correlates associated with the activation (ACT) and inhibition of long-term overlearned motor memory traces in pianists with musician's dystonia (MD), a form of FTSD, during a relevant motor task under constraint timing conditions with multichannel EEG. In NoGo trials, the movement related cortical potentials showed a positive shift after the NoGo signal related to inhibition and was significantly smaller over sensorimotor areas in musicians with MD. Further, we observed an increase at 850-900 ms in the power of beta oscillations which was significantly weaker for the patient group. The role of the inter-electrode phase coupling in the sensorimotor integration of inhibitory processes turned out to be the most relevant physiological marker: the global phase synchronization during INH exhibited an increase between 230 and 330 ms and 7-8 Hz, increase which was significantly smaller for pianists with MD. This effect was due to a weaker phase synchronization between the supplementary motor cortex and left premotor and sensorimotor electrodes in patients. Thus, our findings support the hypothesis of a deficient phase coupling between the neuronal assemblies required to inhibit motor memory traces in patients with MD. EMG recorded from the right flexor pollicis longus muscle confirmed that patients with MD had a disrupted INH in NoGo trials.

M3 - SCORING: Zeitschriftenaufsatz

VL - 30

SP - 2689

EP - 2700

JO - HUM BRAIN MAPP

JF - HUM BRAIN MAPP

SN - 1065-9471

IS - 8

M1 - 8

ER -