PT  - JOURNAL ARTICLE
AU  - Michael D. Nunez
AU  - Aishwarya Gosai
AU  - Joachim Vandekerckhove
AU  - Ramesh Srinivasan
TI  - The latency of a visual evoked potential tracks the onset of decision making
AID  - 10.1101/275727
DP  - 2018 Jan 01
TA  - bioRxiv
PG  - 275727
4099  - http://biorxiv.org/content/early/2018/09/05/275727.short
4100  - http://biorxiv.org/content/early/2018/09/05/275727.full
AB  - Encoding of a sensory stimulus is believed to be the first step in perceptual decision making. Previous research has shown that electrical signals recorded from the human brain track evidence accumulation during perceptual decision making (Gold and Shadlen, 2007; O’Connell et al., 2012; Philiastides et al., 2014). In this study we directly tested the hypothesis that the latency of the N200 recorded by EEG (a negative peak occurring between 150 and 275 ms after stimulus presentation in human participants) reflects the visual encoding time (VET) required for completion of figure-ground segregation before evidence accumulation. We show that N200 latencies vary across individuals, are modulated by external visual noise, and increase response time by x milliseconds when they increase by x milliseconds, reflecting a linear regression slope of 1. Simulations of cognitive decision-making theory show that variation in human response times not related to evidence accumulation (including VET) are tracked by the fastest response times. A relationship with a slope of 1 between N200 latencies and VET was found by fitting a linear model between trial-averaged N200 latencies and the 10th percentiles of response times. A slope of 1 was also found between single-trial N200 latencies and response times. Fitting a novel neuro-cognitive model of decision-making also yielded a slope of 1 between N200 latency and non-decision time in multiple visual noise conditions, indicating that N200 latencies track the completion of visual encoding and the onset of evidence accumulation. The N200 waveforms were localized to the cortical surface at distributed temporal and extrastriate locations, consistent with a distributed network engaged in figure-ground segregation of the target stimulus.Significance Statement Encoding of a sensory stimulus is believed to be the first step in perceptual decision making. In this study, we report evidence that visual evoked potentials (EPs) around 200 ms after stimulus presentation track the time of visual figure-ground segregation before the onset of evidence accumulation during decision making. These EP latencies vary across individuals, are modulated by external visual noise, and increase response time by x milliseconds when they increase by x milliseconds. Hierarchical Bayesian model-fitting was also used to relate these EPs to a specific cognitive parameter that tracks time related to visual encoding in a decision-making model of response time. This work adds to the growing literature that suggests that EEG signals can track the component cognitive processes of decision making.MDN, JV, and RS were supported by NSF grant #1658303. AG was supported by the Summer Undergraduate Research Program at the University of California, Irvine. Siyi Deng and Sam Thorpe are thanked for their contributions to the FEM solutions and anatomical fMRI image generation. Gabriel Weindel is thanked for his early comments and reanalysis of the public data paired with this paper. We would also like to thank Paul L. Nunez for his comments on the spline Laplacian-localization technique used in this paper. Two anonymous reviewers are appreciated for their comments that lead to the improvement of this work. This study extends initial work presented in Chapter 4 of the PhD dissertation by Nunez (2017).Author ContributionsMDN, JV, and RS designed research. AG and MDN performed research. MDN analyzed data. MDN, AG, JV, and RS wrote the paper.