Marion Vincent

Research Engineer - CNRS

 ORCID : https://orcid.org/0000-0002-1761-7491

Thèmes de Recherches

Recording and processing of brain activity (fNIRS, EEG, ECoG).
 

Publications
  • Thesis

Vincent, M. (2017, Nov. 7th). Measuring the Electrophysiological Effects of Direct Electrical Brain Stimulation during Awake Surgery of Low Grade Glioma (Doctoral dissertation, Université de Montpellier).

 

  • Pre-registered Study (in principle acceptance)

Guérin, S. M. R., Vincent, M. A., Karageorghis, C. I., & Delevoye-Turrell, Y. (2019). Effects of Motor Tempo on Frontal Brain Activity: An fNIRS Study. NeuroImage. Retrieved from https://osf.io/9ev64/

 

  • Journals

Boyer A., Ramdani, S., Duffau, H., Dali, M., Vincent, M., Mandonnet, E., Guiraud, D. and Bonnetblanc, F. Electrophysiological mapping during brain tumor surgery: a new insight into the human brain connectivity. Brain Topography (submitted)

Mandonnet, E., Vincent, M., Valero-Cabré, A., Facque, V., Dali, M., Barberis, M., Bonnetblanc F., Rheault, F., Volle, E., Descoteaux, M. and Margulies, D. S.Network-level causal analysis of set-shifting during Trail Making Test part B: A multimodal analysis of a glioma surgery case. Cortex (submitted, in revision)

Vincent, M., Bonnetblanc, F., Mandonnet, E., Boyer, A., Duffau, H., & Guiraud, D. (2019). Measuring the electrophysiological effects of direct electrical stimulation after awake brain surgery. Journal Of Neural Engineering. DOI: 10.1088/1741-2552/ab5cdd

Boyer, A., Duffau, H., Mandonnet, E., Vincent, M. A., Ramdani, S., Guiraud, D., & Bonnetblanc, F. (2019). Attenuation and delay of remote potentials evoked by direct electrical stimulation during brain surgery. Brain Topography, 1-6. DOI: 10.1007/s10548-019-00732-w

Vincent, M., Guiraud, D., Duffau, H., Mandonnet, E., & Bonnetblanc, F. (2017). Electrophysiological brain mapping: Basics of recording evoked potentials induced by electrical stimulation and its physiological spreading in the human brain. Clinical Neurophysiology, 128(10), 1886-1890.
DOI: 10.1016/j.clinph.2017.07.402

Vincent, M., Rossel, O., Hayashibe, M., Herbet, G., Duffau, H., Guiraud, D., & Bonnetblanc, F. (2016). The difference between electrical microstimulation and direct electrical stimulation–towards new opportunities for innovative functional brain mapping?. Reviews in the Neurosciences, 27(3), 231-258. DOI: 10.1515/revneuro-2015-0029

Vincent, M., Rossel, O., Poulin-Charronnat, B., Herbet, G., Hayashibe, M., Duffau, H., ... & Bonnetblanc, F. (2016). Case report: Remote neuromodulation with direct electrical stimulation of the brain, as evidenced by intra-operative EEG recordings during wide-awake neurosurgery. Clinical Neurophysiology, 127(2), 1752-1754. DOI: 10.1016/j.clinph.2015.11.005

 

  • Conference Proceedings (peer reviewed)

Boyer, A., Du au, H., Vincent, M., Ramdani, S., Mandonnet, E., Guiraud, D., 2018. Electrophysiological activity evoked by direct electrical stimulation of the human brain: Interest of the p0 component. In: Engineering in Medicine and Biology Society (EMBC), 2018 IEEE 40th Annual International Conference of the. IEEE. DOI: 10.1109/embc.2018.8512733

Vincent, M., Rossel, O., Duffau, H., Bonnetblanc, F., & Guiraud, D. (2016, August). A measure of cortico-cortical potentials evoked by 10Hz direct electrical stimulation of the brain and by means of a differential recording mode of electrocorticographic signals. In Engineering in Medicine and Biology Society (EMBC), 2016 IEEE 38th Annual International Conference of the (pp. 4543-4546). IEEE.
DOI: 10.1109/EMBC.2016.7591738

 

  • Oral Communications (upon abstract)

Guérin, S. M. R., Vincent, M. A., & Delevoye-Turrell, Y. N. (2019). Functional near-infrared spectroscopy to reveal the cerebral mechanisms underlying the adjustements of motor tempo. Proceedings of the 2nd Timing Research Forum, Querétaro, Mexico. Retrieved from https://trf2.inb.unam.mx/?page_id=4575

 

  • Poster Communications (upon abstract)

Guérin, S. M. R., Vincent, M. A., & Delevoye-Turrell, Y. N. (2019, July). Methodological considerations when using fNIRS in the assessment of cognitive control during whole-body motor behaviors. Poster presented at the 15th European Congress of Sport & Exercise Psychology, Münster, Germany.

Guérin, S. M. R., Vincent, M. A., Karageorghis C. I. & Delevoye-Turrell Y. (2018, October). Hemodynamic brain activations during rhythmic finger tapping: The effect of motor pacing on frontal HbO2. Poster presented at the biennial meeting of the Society for fNIRS, Tokyo, Japan.

Vincent, M., Duffau, H., Guiho, T., Hiairrassary, A., Mandonnet, E., Bonnetblanc, F., Guiraud, G. Measuring electrophysiological effects of direct electrical stimulation of the brain during wide awake surgery. NeuroFrance 2017, 13e colloque de la Société des Neurosciences, Bordeaux, France (2017) 

Vincent M., Bonnetblanc F., Hayashibe M., Rossel O., Poulin-Charronat B., Duffau H.  & Guiraud D. Electrophysiological effects of direct electrical stimulation during awake surgery: Methodological considerations. 7th International Conference IEEE EMBS Neural Engineering Conference, Montpellier, France (2015) 

 

  • Virtual Conference Proceeding

 

Internships and research projects

2019-2020: Tempo moteur spontanné et état cérébral optimal. (D. Lefebvre, M2 PPNSA, Univ. Lille) - Research internship

Porteurs du projet : M. Vincent, Y. Delevoye

Laboratoire : SCALab, UMR 9193 CNRS, Université de Lille

Lieu d’expérimentation : SCALab (Université Lille, Campus Pont de Bois), Equipex IrDIve (Imaginarium - Tourcoing)

 

2018-2019: Neurofeedback, marqueurs physiologiques et relaxation. (L. Quesnoy, M2 MIASHS, A. Dissaux, M1 MIASHS) - Research work

Porteurs du projet : L. Sparrow, M. Vincent

Laboratoire : SCALab, UMR 9193 CNRS, Université de Lille

Lieu d’expérimentation : SCALab (Université Lille, Campus Pont de Bois), Equipex IrDIve (Imaginarium - Tourcoing)

Ce projet a pour but de déterminer l'influence de différents rythmes musiquaux sur différents indicateurs physiologiques (EEG, HRV, AED) dans la mise en pratique de la relaxation.

 

2017 - 2018: Implementation of a Brain-Computer interface based on motor imagery (L. Quesnoy , M1 MIASH) - 2 months internship

Porteurs du projet : M. Vincent

Laboratoire : SCALab, UMR 9193 CNRS, Université de Lille

Lieu d’expérimentation : Equipex IrDIve, Imaginarium - Tourcoing

Developping a functional classi er that can detect the performance of two di fferent types of motor imagery - left and right hand movements using the EMOTIV EEG headset.

 

Teaching

2019 - 2020 : MASTER PPNSA - Master 1 - Introduction to Maltab - 6h (TP)

2018 - 2020 :  MASTER MIASHS - Master 1: Basics of physioloical signal acquisitions and signal pre-processing - 4h (CM), 4h (TP)

2018 - 2020 : DEPARTEMENT D'ORTHOPHONIE - License 1 - Brain awake surgery and intraoperative electrophisiological recordings - 1.5h (CM)

 

Contact

Marion Vincent
Laboratoire SCALab
Université de Lille
Domaine universitaire du Pont de Bois
BP 149
59653 Villeneuve d'Ascq Cedex
France
tél. :(+33)(0)3-20-41-66-22
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Vincent M., Bonnetblanc F., Hayashibe M., Rossel O., Poulin-Charronat B., Duffau H.  & Guiraud D. Electrophysiological effects of direct electrical stimulation during awake surgery: Methodological considerations.  7th International Conference IEEE EMBS Neural Engineering Conference, Montpellier, France (2015).

Vincent, M., Duffau, H., Guiho, T., Hiairrassary, A., Mandonnet, E., Bonnetblanc, F., Guiraud, G. Measuring electrophysiological effects of direct electrical stimulation of the brain during wide awake surgery. NeuroFrance 2017, 13e colloque de la Société des Neurosciences, Bordeaux, France (2017).

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