Scholars@Duke publication: An experimental and computational framework for modeling multi-muscle responses to transcranial magnetic stimulation of the human motor cortex

An experimental and computational framework for modeling multi-muscle responses to transcranial magnetic stimulation of the human motor cortex

Publication , Conference

Yarossi, M; Quivira, F; Dannhauer, M; Sommer, MA; Brooks, DH; Erdoǧmuş, D; Tunik, E

Published in: International IEEE/EMBS Conference on Neural Engineering, NER

May 16, 2019

Published version (DOI) Open Access Copy (Duke)

Current knowledge of coordinated motor control of multiple muscles is derived primarily from invasive stimulation-recording techniques in animal models. Similar studies are not generally feasible in humans, so a modeling framework is needed to facilitate knowledge transfer from animal studies. We describe such a framework that uses a deep neural network model to map finite element simulation of transcranial magnetic stimulation induced electric fields (E-fields) in motor cortex to recordings of multi-muscle activation. Critically, we show that model generalization is improved when we incorporate empirically derived physiological models for E-field to neuron firing rate and low-dimensional control via muscle synergies.

Duke Scholars

Author Marc A. Sommer Biomedical Engineering

Published In

International IEEE/EMBS Conference on Neural Engineering, NER

DOI

10.1109/NER.2019.8717159

EISSN

1948-3554

ISSN

1948-3546

Publication Date

May 16, 2019

Volume

2019-March

Start / End Page

1122 / 1125

Citation

APA

Chicago

ICMJE

MLA

NLM

Yarossi, M., Quivira, F., Dannhauer, M., Sommer, M. A., Brooks, D. H., Erdoǧmuş, D., & Tunik, E. (2019). An experimental and computational framework for modeling multi-muscle responses to transcranial magnetic stimulation of the human motor cortex. In International IEEE/EMBS Conference on Neural Engineering, NER (Vol. 2019-March, pp. 1122–1125). https://doi.org/10.1109/NER.2019.8717159

Yarossi, M., F. Quivira, M. Dannhauer, M. A. Sommer, D. H. Brooks, D. Erdoǧmuş, and E. Tunik. “An experimental and computational framework for modeling multi-muscle responses to transcranial magnetic stimulation of the human motor cortex.” In International IEEE/EMBS Conference on Neural Engineering, NER, 2019-March:1122–25, 2019. https://doi.org/10.1109/NER.2019.8717159.

Yarossi M, Quivira F, Dannhauer M, Sommer MA, Brooks DH, Erdoǧmuş D, et al. An experimental and computational framework for modeling multi-muscle responses to transcranial magnetic stimulation of the human motor cortex. In: International IEEE/EMBS Conference on Neural Engineering, NER. 2019. p. 1122–5.

Yarossi, M., et al. “An experimental and computational framework for modeling multi-muscle responses to transcranial magnetic stimulation of the human motor cortex.” International IEEE/EMBS Conference on Neural Engineering, NER, vol. 2019-March, 2019, pp. 1122–25. Scopus, doi:10.1109/NER.2019.8717159.

Yarossi M, Quivira F, Dannhauer M, Sommer MA, Brooks DH, Erdoǧmuş D, Tunik E. An experimental and computational framework for modeling multi-muscle responses to transcranial magnetic stimulation of the human motor cortex. International IEEE/EMBS Conference on Neural Engineering, NER. 2019. p. 1122–1125.

Published In

International IEEE/EMBS Conference on Neural Engineering, NER

DOI

10.1109/NER.2019.8717159

EISSN

1948-3554

ISSN

1948-3546

Publication Date

May 16, 2019

Volume

2019-March

Start / End Page

1122 / 1125