Affiliation:
1. Department of Psychiatry and Behavioral Sciences Stanford University School of Medicine Stanford California USA
2. Neuroscience Graduate Group University of Pennsylvania Perelman School of Medicine Philadelphia Pennsylvania USA
3. Department of Psychology and Wu Tsai Neurosciences Institute Stanford University Stanford California USA
Abstract
AbstractRepetitive sensory stimulation has been shown to induce neuroplasticity in sensory cortical circuits, at least under certain conditions. We measured the plasticity‐inducing effect of repetitive contrast‐reversal‐sweep steady‐state visual‐evoked potential (ssVEP) stimuli, hoping to employ the ssVEP's high signal‐to‐noise electrophysiological readout in the study of human visual cortical neuroplasticity. Steady‐state VEP contrast‐sweep responses were measured daily for 4 days (four 20‐trial blocks per day, 20 participants). No significant neuroplastic changes in response amplitude were observed either across blocks or across days. Furthermore, response amplitudes were stable within‐participant, with measured across‐block and across‐day coefficients of variation (CV = SD/mean) of 15–20 ± 2% and 22–25 ± 2%, respectively. Steady‐state VEP response phase was also highly stable, suggesting that temporal processing delays in the visual system vary by at most 2–3 ms across blocks and days. While we fail to replicate visual stimulation‐dependent cortical plasticity, we show that contrast‐sweep steady‐state VEPs provide a stable human neurophysiological measure well suited for repeated‐measures longitudinal studies.
Subject
Experimental and Cognitive Psychology,Neuropsychology and Physiological Psychology,Biological Psychiatry,Cognitive Neuroscience,Developmental Neuroscience,Endocrine and Autonomic Systems,Neurology,Experimental and Cognitive Psychology,Neuropsychology and Physiological Psychology,General Neuroscience