Chiang-Shan Ray Li MD
Associate Professor of Psychiatry and of Neurobiology
Research Interests
Psychophysics; Neural imaging
Research Summary
Our research focuses on combining psychophysics, neural imaging, and computation to understand how brain works at the systems level. In particular, we are interested in the neural processes of cognitive control and how deficits in these processes may contribute to the pathogenesis of substance use disorders and other relevant psychiatric conditions.
Selected Publications
- Li C-SR, Lin S-C (2002) Inhibition of return in temporal order saccades. Vision Res 42: 2089-2093.
- Li C-SR, Lin W-H, Chang H-L, Hung Y-W (2004) A psychophysical measure of attention deficit in children with attention deficit hyperactivity disorder. J Abnorm Psychol 113: 228-236.
- Li C-SR, Huang C, Constable T, Sinha R (2006) Imaging response inhibition in a stop signal task – neural correlates independent of signal monitoring and post-response processing. J Neurosci 26: 186-192.
- Li C-SR, Yan P, Bergquist KL, Sinha R. (2007) Greater activation of the “Default” Brain Circuitry Predicts Stop Signal Errors. NeuroImage 38: 640-648.
- Li C-SR, Huang C, Yan P, Paliwal P, Constable RT, Sinha R (2008) Neural correlates of post-error slowing in a stop signal task. J Cognit Neurosci 20: 1021-1029.
- Li C-SR, Huang C, Yan P, Bhagawar Z, Milivojevic V, Sinha R (2008) Neural correlates of impulse control during stop signal inhibition in cocaine dependent men. Neuropsychopharmacology 33: 1798-1807.
- Li C-SR, Chao HH-A, Lee TW (2009) The neural correlates of speeded compared to delayed responses in a stop signal task: an indirect analogue of risk taking and association with an anxiety trait. Cereb Cortex 19: 839-848.
- Li C-SR, Chao HH-A, Lee TW (2009) The neural correlates of speeded compared to delayed responses in a stop signal task: an indirect analogue of risk taking and association with an anxiety trait. Cereb Cortex 19: 839-848.
- Li C-SR, Luo X, Yan P, Bergquist K, Sinha R (2009) Altered Impulse Control in Alcohol Dependence: Neural Measures of Stop Signal Performance. Alcoholism: Clin Exp Res. 33: 740-750.
- Duann J-R, Ide S, Luo, X, Li C-SR (2009) Functional connectivity delineates distinct roles of the inferior frontal cortex and pre-supplementary motor area during stop signal inhibition. J Neurosci 29: 10171-10179.
Selected Publications
- Li C-SR, Lin S-C (2002) Inhibition of return in temporal order saccades. Vision Res 42: 2089-2093.
- Li C-SR, Lin W-H, Chang H-L, Hung Y-W (2004) A psychophysical measure of attention deficit in children with attention deficit hyperactivity disorder. J Abnorm Psychol 113: 228-236.
- Li C-SR, Huang C, Constable T, Sinha R (2006) Imaging response inhibition in a stop signal task – neural correlates independent of signal monitoring and post-response processing. J Neurosci 26: 186-192.
- Li C-SR, Yan P, Bergquist KL, Sinha R. (2007) Greater activation of the “Default” Brain Circuitry Predicts Stop Signal Errors. NeuroImage 38: 640-648.
- Li C-SR, Huang C, Yan P, Paliwal P, Constable RT, Sinha R (2008) Neural correlates of post-error slowing in a stop signal task. J Cognit Neurosci 20: 1021-1029.
- Li C-SR, Huang C, Yan P, Bhagawar Z, Milivojevic V, Sinha R (2008) Neural correlates of impulse control during stop signal inhibition in cocaine dependent men. Neuropsychopharmacology 33: 1798-1807.
- Li C-SR, Chao HH-A, Lee TW (2009) The neural correlates of speeded compared to delayed responses in a stop signal task: an indirect analogue of risk taking and association with an anxiety trait. Cereb Cortex 19: 839-848.
- Li C-SR, Chao HH-A, Lee TW (2009) The neural correlates of speeded compared to delayed responses in a stop signal task: an indirect analogue of risk taking and association with an anxiety trait. Cereb Cortex 19: 839-848.
- Li C-SR, Luo X, Yan P, Bergquist K, Sinha R (2009) Altered Impulse Control in Alcohol Dependence: Neural Measures of Stop Signal Performance. Alcoholism: Clin Exp Res. 33: 740-750.
- Duann J-R, Ide S, Luo, X, Li C-SR (2009) Functional connectivity delineates distinct roles of the inferior frontal cortex and pre-supplementary motor area during stop signal inhibition. J Neurosci 29: 10171-10179.
- Zhang, S, LI C-SR (In Press) A neural measure of behavioral engagement: low frequency blood oxygenation level dependent signal in the precuneus. NeuroImage.
