Faculty Directory
Eric J. Perreault

Chair of Biomedical Engineering

Professor of Physical Medicine and Rehabilitation

Contact

Evanston Campus: 2145 Sheridan Road, Tech E322, Evanston, IL 60208-3107
Chicago Campus: 345 East Superior Street, Rehabilitation Institute of Chicago, Floor 14, Chicago, IL 60611


Email Eric Perreault

Departments

Biomedical Engineering

Affiliations

Master of Science in Robotics Program

Education

Ph.D. Biomedical Engineering, Case Western Reserve University, Cleveland, OH

M.S. Eng. Electrical Engineering, McGill University, Montréal, PQ

B.S. Eng. Electrical Engineering, McGill University, Montréal, PQ


Research Interests

Research in our group focuses on understanding the neural and biomechanical factors involved in the normal control of multi-joint movement and posture and how these factors are modified following neuromotor pathologies such as stroke and spinal cord injury. The goal of this research is to provide a scientific basis for understanding normal and pathological motor control that can be used to guide rehabilitative strategies and user interface development for restoring function to individuals with motor deficits. A combination of experimentation, system identification and computer simulations is being used to achieve this goal. 


Selected Publications

    Selected Recent Publications

    1. Wang, A. B., E. J. Perreault, T. J. Royston and S. S. M. Lee (2019). "Changes in shear wave propagation within skeletal muscle during active and passive force generation." J Biomech 94: 115-122.
    2. Lee, H. and E. J. Perreault (2019). "Stabilizing stretch reflexes are modulated independently from the rapid release of perturbation-triggered motor plans." Sci Rep 9(1): 13926.
    3. Heckman, R. L. and E. J. Perreault (2019). "Uncertainty in when a perturbation will arrive influences the preparation and release of triggered responses." Exp Brain Res 237(9): 2353-2365.
    4. Ludvig, D., Plocharski, M., Plocharski, P., & Perreault, E. J. (2017). Mechanisms contributing to reduced knee stiffness during movement. Experimental Brain Research, 235(10), 2959–2970.
    5. Schearer E, Liao YW, Perreault E, Tresch M, Memberg W, Kirsch R, and Lynch K (2016) Semiparametric Identification of Human Arm Dynamics for Flexible Control of a Functional Electrical Stimulation Neuroprosthesis. IEEE Trans Neural Syst Rehabil Eng.
    6. Steele KM, Tresch MC, and Perreault EJ (2015) Consequences of biomechanically constrained tasks in the design and interpretation of synergy analyses. Journal of Neurophysiology, 113(7): 2102-2113.
    7. Honeycutt CF, Kharouta M, and Perreault EJ (2013) Evidence for reticulospinal contributions to coordinated finger movements in humans. J Neurophysiol 110(7):1476-83.
    8. Corbett EA, Kording KP, Perreault EJ (2013) Real-time Evaluation of a Non-invasive Neuroprosthetic Interface for Control of Reach. IEEE Trans Neur Sys Rehab Eng 21(4):674-683.
    9. Ludvig D and Perreault EJ (2012) System identification of physiological systems using short data segments. IEEE Trans Biomed Eng in press.
    10. Hu, X, Murray, WM and Perreault EJ (2012). Biomechanical constraints on the feedforward regulation of endpoint stiffness. J Neurophysiol 108(8):2083-91.