Connectivity in the neural control of muscles in stroke

The lack of objective and robust measurements of motor recovery is a general problem in stroke rehabilitation. After the ischemic event, the motor impairment is assessed using clinical scales that provide only a general overview of the patient’s conditions, without detailed information on the activation of the individual muscles and the pathological co-contractions. In recent years, the hypothesis that the coordination of multiple muscles is wired at the neural level in a synergistic way has received strong experimental evidence. Therefore, the possibility to better understand the recruitment of multiple muscles and use this information for the assessment of motor recovery is extremely relevant for stroke rehabilitation. The project NeuralCon aims to investigate the neural mechanisms behind the control of multiple muscles of the lower limb in healthy individuals and its degeneration in acute stroke patients.


The project will address the characterization of the neural coupling between muscles using innovative signal processing approaches applied to the high-density surface electromiographic signals during voluntary contractions. From the electromiographic signals, we will extract information regarding the coupling between multiple motor neurons in different motor pools. The final aim will be the development of a new generation of biomarkers based on the concurrent neural activation of several muscles in the lower limb of acute stroke individuals. The project will combine expertise in several fields: neuroscience of human movement, clinical neurophysiology, stochastic signal processing and computational neuroscience. The NeuralCon project will produce substantial progress toward a better understanding of the neural pathways involved in the coordination of voluntary movements and its modifications in cerebrovascular diseases.


Selected Publications

  • Negro, Francesco, Marta Cogliati, Alessandro Cudicio, Luciano Bissolotti, and Claudio Orizio. "Neural Biomarkers of Functional Recovery in Patients with Injured Motor System." In International Conference on NeuroRehabilitation, pp. 907-910. Springer, Cham, 2018.
  • Murphy, Spencer A., Francesco Negro, Dario Farina, Tanya Onushko, Matthew J. Durand, Sandra K. Hunter, Brian D. Schmit, and Allison S. Hyngstrom. "Stroke Increases Ischemia-related Decreases in Motor Unit Discharge Rates." Journal of neurophysiology (2018).
  • Thompson, Christopher K.*, Francesco Negro*, Michael D. Johnson, Matthew R. Holmes, Laura Miller McPherson, Randall K. Powers, Dario Farina, and Charles J. Heckman. "Robust and accurate decoding of motoneuron behaviour and prediction of the resulting force output." The Journal of physiology (2018). * co-first authors
  • Negro, Francesco, and Claudio Orizio. "Robust estimation of average twitch contraction forces of populations of motor units in humans." Journal of Electromyography and Kinesiology 37 (2017): 132-140.
  • Martinez‐Valdes, E., F. Negro, C. M. Laine, D. Falla, F. Mayer, and D. Farina. "Tracking motor units longitudinally across experimental sessions with high‐density surface electromyography." The Journal of physiology 595, no. 5 (2017): 1479-1496.

Contact Information

Francesco Negro, PhD

Department of Clinical and Experimental Sciences

Università degli Studi di Brescia

Viale Europa 11

25123 Brescia

Italy

Tel: +39 0303717452

Fax: +39 0303717443

Email: francesco.negro@unibs.it