Center for Magnetic Resonance in Biology and Medicine
CRMBM-CEMEREM UMR 7339

CALLOT Virginie

By Super Administrateur on 16 July 2018

CALLOT Virginie

virginie.callot@univ-amu.fr
Phone : +33491388465

CNS

iLab-Spine

Research Director (PhD)

at CNRS

Head of Spinal Cord MR Imaging research group

Coordinator of the IRL/LIA iLab-Spine

Research Director (PhD)

Download my Resume (EN)

Detailed Activities

The general objective of the Spinal Cord MR Imaging research group is to improve the non invasive characterization of the spinal cord impairments and to help in the description of the spinal cord pathophysiological mechanisms using quantitative and multi-parametric Magnetic Resonance Imaging.
The global project relies on methodological developments (MR techniques leading to structural and functional information, post-processing tools such as probabilistic MR atlas) and their applications to dedicated spinal cord pathologies. The project is developed transversally, on mouse models using the 11.75T MR system, and on humans using clinical research (1.5T, 3T) and ultra-high field (7T) MR systems.
Current pathological investigations include Multiple Sclerosis (MS) and Amyotrophic Lateral Sclerosis (ALS) in collaboration with the Neurology Department of La Timone Hospital (APHM, Pr. B. Audoin, Pr. J. Pelletier, Pr. S. Attarian, Dr. A. Verschueren), as well as Cervicarthrosic Myelopathy (CSM) in collaboration with the Neurosurgery Department of the North Hospital (APHM, Pr. PH. Roche), but also normal Ageing and sport-related microtraumatism such as encountered in Rugby.
One part of the project additionally combines MR and biomechanical computational modeling in order to provide an extensive and multi-physic description of traumatic and degenerative spinal cord pathologies (International Research Laboratory (IRL/LIA) “ iLab-Spine ”, France/Canada).

Keywords

  • Image Processing
  • Microstructure/architecture
  • New MR Biomarkers
  • Perfusion Methods
  • Quantitative MRI
  • Spinal Cord
  • Ultra-high field MRI
  • MR Templates
  • Morphometry
  • Diffusion
  • Probabilistic atlas
  • Neurodegenerative pathologies

General Information

. Member of CoNRS (Comité National de la Recherche Scientifique) – Section 28 (Pharmacologie, ingénierie et technologies pour la santé, imagerie biomédicale) from 2021-2025

. Scientific Council member of FLI-RE2 (France Life Imaging – Réseau d’Expertise « Instrumentation et Innovation Technologique »)

. Scientific Council member of the IRME (Institut pour la Recherche sur la Moelle Epinière)

. Vice Chair of the Club de Recherche sur la Moelle Epinière et ses Pathologies (CMEP)

. Member of the CRMBM Unit Council

. Co-director of the iLab-Spine (International Research Laboratory (IRL/LIA) on Spine Imaging and Biomechanics, France/Canada) from 2015-2024

. Board member of the SFRMBM (Société Française de Résonance Magnétique Biologique et Médicale) from 2012-2019

Research Projects

Publications :

180164 CALLOT 1 harvard-cite-them-right-no-et-al 50 date desc year 1885 https://crmbm.univ-amu.fr/wp-content/plugins/zotpress/
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De Leener, B., Taso, M., Cohen-Adad, J. and Callot, V. (2016) “Segmentation of the human spinal cord,” Magma (New York, N.Y.), 29(2), pp. 125–153. Available at: https://doi.org/10.1007/s10334-015-0507-2.
Fradet, L., Arnoux, P.-J., Callot, V. and Petit, Y. (2016) “Geometrical variations in white and gray matter affect the biomechanics of spinal cord injuries more than the arachnoid space,” Advances in Mechanical Engineering, 8(8), p. 168781401666470. Available at: https://doi.org/10.1177/1687814016664703.
Lévy, S., Benhamou, M., Naaman, C., Rainville, P., Callot, V. and Cohen-Adad, J. (2015) “White matter atlas of the human spinal cord with estimation of partial volume effect,” NeuroImage, 119, pp. 262–271. Available at: https://doi.org/10.1016/j.neuroimage.2015.06.040.
Prevost, V.H., Girard, O.M., Callot, V., Cozzone, P.J. and Duhamel, G. (2015) “Fast imaging strategies for mouse kidney perfusion measurement with pseudocontinuous arterial spin labeling (pCASL) at ultra high magnetic field (11.75 tesla),” Journal of Magnetic Resonance Imaging, 42(4), pp. 999–1008. Available at: https://doi.org/10.1002/jmri.24874.
Taso, M., Fradet, L., Callot, V. and Arnoux, P.J. (2015) “Anteroposterior compression of the spinal cord leading to cervical myelopathy: a finite element analysis,” Computer Methods in Biomechanics and Biomedical Engineering, 18 Suppl 1, pp. 2070–2071. Available at: https://doi.org/10.1080/10255842.2015.1069625.
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