Research engineer - CNRS
Contact:
etienne.guillaud@u-bordeaux.fr
+33 (0)5 57 57 16 37
Site : Carreire
Team:
Motor neuron and synaptic partners (Motoneurone et partenaires synaptiques - MotoPSyn)
In charge of the Human Movement Analysis Platform
Domain:
Sensori-motor Integrations / Motor Systems / Control of posture and movement/
Research axis:
- Interlimb coordination in human locomotion
- Multi-sensorial integration and control of locomotion, gait, posture and reaching
- Adaptation to spatial environment (parabolic flight)
Scientific expertise:
- Vestibular control of human balance and locomotor activities
- Vestibular control of arm movements
- Visuo-vestibular integration for movement control
Technical expertise:
- Kinematics
- Kinetics
- Electromyography
- Oculography
- Biomechanics
- Acquisition software development
- Analysis software development
- Automated quantified walk analysis in human
- Magneto-encephalography
- Scientific platform management
- Bestaven E, Guillaud E, Cazalets J-R (2012) Is “circling” behavior in humans related to postural asymmetry? PLoS ONE 7(9): e43861.
- Guillaud, E., Simoneau, M., Blouin, J. (2011). Prediction of the body rotation-induced torques on the arm during reaching movements: Evidence from a proprioceptively deafferented subject. Neuropsychologia, 49(7) : 2055-9.
- Guillaud, E., Blouin, J, Bresciani, J-P., Guerraz, M., Simoneau, M. (2010). Insights into the control of arm movement during body motion as revealed by EMG analyses. Brain Research, 1309 : 40-52.
- Guillaud, E., Gauthier, G.M., Vercher, J.-L., & Blouin, J. (2006). Visuo-ocular and vestibular signal fusion in arm motor control. Journal of Neurophysiology, 95(2): 1134-46.
- Guillaud, E., Simoneau, M., Gauthier, G., & Blouin, J. (2006). Controlling reaching movements during self-motion: body-fixed versus earth-fixed targets. Motor Control, 10(4): 330-47.
- Bresciani, J-P., Guillaud, E., Guerraz, M., Simoneau, M., Gauthier, G., Buethoff, H. H., & Blouin, J. (2006). Vestibular-evoked hand stabilisation during body motion. Perception, 35: 179-179.