The functional role of beta-oscillations in the supplementary motor area during reaching and grasping after stroke: A question of structural damage to the corticospinal tract

Fanny Quandt; Marlene Bönstrup; Robert Schulz; Jan E Timmermann; Maike Mund; Maximilian J Wessel; Friedhelm C Hummel

doi:10.1002/hbm.24582

The functional role of beta-oscillations in the supplementary motor area during reaching and grasping after stroke: A question of structural damage to the corticospinal tract

Standard

The functional role of beta-oscillations in the supplementary motor area during reaching and grasping after stroke: A question of structural damage to the corticospinal tract. / Quandt, Fanny; Bönstrup, Marlene; Schulz, Robert; Timmermann, Jan E; Mund, Maike; Wessel, Maximilian J; Hummel, Friedhelm C.

in: HUM BRAIN MAPP, Jahrgang 40, Nr. 10, 07.2019, S. 3091-3101.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Quandt, F, Bönstrup, M, Schulz, R, Timmermann, JE, Mund, M, Wessel, MJ & Hummel, FC 2019, 'The functional role of beta-oscillations in the supplementary motor area during reaching and grasping after stroke: A question of structural damage to the corticospinal tract', HUM BRAIN MAPP, Jg. 40, Nr. 10, S. 3091-3101. https://doi.org/10.1002/hbm.24582

APA

Quandt, F., Bönstrup, M., Schulz, R., Timmermann, J. E., Mund, M., Wessel, M. J., & Hummel, F. C. (2019). The functional role of beta-oscillations in the supplementary motor area during reaching and grasping after stroke: A question of structural damage to the corticospinal tract. HUM BRAIN MAPP, 40(10), 3091-3101. https://doi.org/10.1002/hbm.24582

Vancouver

Quandt F, Bönstrup M, Schulz R, Timmermann JE, Mund M, Wessel MJ et al. The functional role of beta-oscillations in the supplementary motor area during reaching and grasping after stroke: A question of structural damage to the corticospinal tract. HUM BRAIN MAPP. 2019 Jul;40(10):3091-3101. https://doi.org/10.1002/hbm.24582

Bibtex

@article{6a63cb4c476c4890ba79b15f16296e53,

title = "The functional role of beta-oscillations in the supplementary motor area during reaching and grasping after stroke: A question of structural damage to the corticospinal tract",

abstract = "Hand motor function is often severely affected in stroke patients. Non-satisfying recovery limits reintegration into normal daily life. Understanding stroke-related network changes and identifying common principles that might underlie recovered motor function is a prerequisite for the development of interventional therapies to support recovery. Here, we combine the evaluation of functional activity (multichannel electroencephalography) and structural integrity (diffusion tensor imaging) in order to explain the degree of residual motor function in chronic stroke patients. By recording neural activity during a reaching and grasping task that mimics activities of daily living, the study focuses on deficit-related neural activation patterns. The study showed that the functional role of movement-related beta desynchronization in the supplementary motor area (SMA) for residual hand motor function in stroke patients depends on the microstructural integrity of the corticospinal tract (CST). In particular, in patients with damaged CST, stronger task-related activity in the SMA was associated with worse residual motor function. Neither CST damage nor functional brain activity alone sufficiently explained residual hand motor function. The findings suggest a central role of the SMA in the motor network during reaching and grasping in stroke patients, the degree of functional relevance of the SMA is depending on CST integrity.",

author = "Fanny Quandt and Marlene B{\"o}nstrup and Robert Schulz and Timmermann, {Jan E} and Maike Mund and Wessel, {Maximilian J} and Hummel, {Friedhelm C}",

note = "{\textcopyright} 2019 Wiley Periodicals, Inc.",

year = "2019",

month = jul,

doi = "10.1002/hbm.24582",

language = "English",

volume = "40",

pages = "3091--3101",

journal = "HUM BRAIN MAPP",

issn = "1065-9471",

publisher = "Wiley-Liss Inc.",

number = "10",

}

RIS

TY - JOUR

T1 - The functional role of beta-oscillations in the supplementary motor area during reaching and grasping after stroke: A question of structural damage to the corticospinal tract

AU - Quandt, Fanny

AU - Bönstrup, Marlene

AU - Schulz, Robert

AU - Timmermann, Jan E

AU - Mund, Maike

AU - Wessel, Maximilian J

AU - Hummel, Friedhelm C

PY - 2019/7

Y1 - 2019/7

N2 - Hand motor function is often severely affected in stroke patients. Non-satisfying recovery limits reintegration into normal daily life. Understanding stroke-related network changes and identifying common principles that might underlie recovered motor function is a prerequisite for the development of interventional therapies to support recovery. Here, we combine the evaluation of functional activity (multichannel electroencephalography) and structural integrity (diffusion tensor imaging) in order to explain the degree of residual motor function in chronic stroke patients. By recording neural activity during a reaching and grasping task that mimics activities of daily living, the study focuses on deficit-related neural activation patterns. The study showed that the functional role of movement-related beta desynchronization in the supplementary motor area (SMA) for residual hand motor function in stroke patients depends on the microstructural integrity of the corticospinal tract (CST). In particular, in patients with damaged CST, stronger task-related activity in the SMA was associated with worse residual motor function. Neither CST damage nor functional brain activity alone sufficiently explained residual hand motor function. The findings suggest a central role of the SMA in the motor network during reaching and grasping in stroke patients, the degree of functional relevance of the SMA is depending on CST integrity.

AB - Hand motor function is often severely affected in stroke patients. Non-satisfying recovery limits reintegration into normal daily life. Understanding stroke-related network changes and identifying common principles that might underlie recovered motor function is a prerequisite for the development of interventional therapies to support recovery. Here, we combine the evaluation of functional activity (multichannel electroencephalography) and structural integrity (diffusion tensor imaging) in order to explain the degree of residual motor function in chronic stroke patients. By recording neural activity during a reaching and grasping task that mimics activities of daily living, the study focuses on deficit-related neural activation patterns. The study showed that the functional role of movement-related beta desynchronization in the supplementary motor area (SMA) for residual hand motor function in stroke patients depends on the microstructural integrity of the corticospinal tract (CST). In particular, in patients with damaged CST, stronger task-related activity in the SMA was associated with worse residual motor function. Neither CST damage nor functional brain activity alone sufficiently explained residual hand motor function. The findings suggest a central role of the SMA in the motor network during reaching and grasping in stroke patients, the degree of functional relevance of the SMA is depending on CST integrity.

U2 - 10.1002/hbm.24582

DO - 10.1002/hbm.24582

M3 - SCORING: Journal article

C2 - 30927325

VL - 40

SP - 3091

EP - 3101

JO - HUM BRAIN MAPP

JF - HUM BRAIN MAPP

SN - 1065-9471

IS - 10

ER -