Suresh T, Iwane F, Zhang, M, McElmurry M, Manesiya, M, Freedberg, M V., Hussain, SJ. (2025). Motor sequence learning elicits mu peak-specific corticospinal plasticity. JNeurophysiology. [Link]
Lowe T, Suresh T, Oro E G, Freedberg M, Hussain SJ, Griffin L. (2025). Local Vibration of the Hamstrings Induces Changes in Cortical and Spinal Excitability to the Antagonist Quadriceps Following ACL Reconstruction. Medicine and Science in Sports and Exercise.
[Link]Ahmed N, Suresh T, Hussain SJ, Freedberg M (2025). Investigating the effect of task engagement during intertrial rest periods on micro offline gains. Scientific Reports.
[Link]Suresh, T, & Hussain, S. J. (2023). Re-evaluating the contribution of sensorimotor mu rhythm phase and power to human corticospinal output: A replication study. Brain Stimulation. [Link]
Shaikh AI, Das M, Roy A, Baby B, Dhar D, Abigayil J, Varghese VS, Mathew V, Aaron S, Sivadasan A, Premkumar P, Suresh T, Prabhakar AT. (2021). Role of pain-related evoked potential in the diagnosis of meralgia paresthetica. Ann Indian Acad Neurol, 24:379-82. [Link]
Prabhakar AT, Suresh T, Kurian DS, Mathew V, Shaik AI, Aaron S, et al. (2019). Timed vibration sense and joint position sense testing in the diagnosis of distal sensory polyneuropathy. J Neurosci Rural Pract, 10:273-7. [Link]
Suresh T, Kumar A, Mutha P. (2025). Reactivation protects human motor memories against interference from competing inputs. bioRxiv. [Link]
Khatri U, Suresh T, Marquez V, Manesiya M, Borich M, Hussain, SJ (2025). Developing personalized brain state-dependent TMS to target residual corticospinal connections after stroke. [Link]
Sensorimotor mu phase dependent mechanisms of human motor learning and control. University of Oxford, July 2025.
Motor sequence learning elicits mu peak-specific corticospinal plasticity. Brainbox Initiative Webinar, May 2025.
The Human Machine: Discovering the wonders of how we move. Morton Elementary School, Marysville, MI, Jan 2024.
Mechanisms of human motor learning and memory. 2nd ReproRehab Research Summit, University of Southern California, CA, Sept 2023.
The magic of movement and memories. Science National Honor Society, Houston, TX, Jan 2023.
Practice-dependent corticospinal plasticity is sensorimotor mu phase dependent. Gandhinagar, India: Non-invasive Brain Stimulation - Advances in Research and Clinical Practice, Dec 2022.
Khatri U, Suresh T, Marquez V, Manesiya M, Borich M, Hussain, SJ. Personalized poststroke brain state-dependent TMS targeting the residual corticospinal tract is feasible. Atlanta, Georgia: American Society of Neurorehabilitation Annual Meeting, 2025.
Suresh T, Iwane F, Zhang, M, McElmurry M, Manesiya, M, Freedberg, M V, & Hussain, SJ. Behaviorally-relevant corticospinal plasticity is most strongly expressed during sensorimotor mu rhythm trough phases. Chicago, Illinois: Society for Neuroscience, 2024
Using high-density EEG to record and analyze brain activity patterns during motor learning and execution.
Employing non-invasive brain stimulation to investigate causal relationships in motor cortex function.
Developing and implementing novel experimental protocols to study skill acquisition and memory formation.