Our sensors and software are used in a variety of research capacities. Learn more about their application in the following publications:
Spraker, M.B., Corcos, D.M., Kurani, A., Prodoehl, J., Swinnen, S.P., Vaillancourt, D.E. (2012). Specific cerebellar regions are related to force amplitude and rate of force development. Neuroimage 59: 1647-1656.
Spraker, M.B. Prodoehl, J., Corcos, D.M., Comella, C.L., Vaillancourt, D.E. (2010). Basal ganglia hypoactivity during grip force in drug naïve Parkinson’s disease. Human Brain Mapping 31(12):1928-1941.
Prodoehl, J., Spraker, M.B., Corcos, D.M., Comella, C.L., Vaillancourt, D.E. (2010) Blood oxygenation level dependent activation in basal ganglia nuclei relates to specific symptoms in de novo Parkinson’s disease. Movement Disorders 25(13): 2035-2043.
Coombes, S.A, Corcos, D.M., Pavuluri, M., Vaillancourt, D.E. (2012). Maintaining force control despite changes in emotional context engages dorsomedial prefrontal and premotor cortex. Cerebral Cortex 22(3): 616-627.
Misra, G., Coombes, S.A. (2014) Neuroimaging Evidence of Motor Control and Pain Processing in the Human Midcingulate Cortex. Cerebral Cortex Epub ahead of print.
Neely, K.A., Kurani, A.S., Shukla, P., Planetta, P.J., Wagle Shukla, A., Goldman, J.G., Corcos, D.M., Okun, M.S., Vaillancourt, D.E. (2014). Functional Brain Activity Relates to 0-3 and 3-8 Hz Force Oscillations in Essential Tremor. Cerebral Cortex Epub ahead of print.
M.S., Vaillancourt, D.E. (2015). Functional Brain Activity Relates to 0-3 and 3-8 Hz Force Oscillations in Essential Tremor. Cerebral Cortex 25(11); 4191-4202.