AI Article Synopsis
- Researchers examined how differences in the physical properties of optic radiation may influence the timing of the initial visual response (C1) in healthy individuals.
- They collected data on C1 latency using magnetoencephalography (MEG) and MRI from 20 subjects, finding the most reliable measurements with high-contrast stimuli in the lower visual field.
- A regression model based on MRI data could explain over 20% of the variability in C1 latency, indicating that tissue properties along the optic radiation play a role, while the corticospinal tract showed no predictive value for visual latency differences.
Article Abstract
Although the non-invasive measurement of visually evoked responses has been extensively studied, the structural basis of variabilities in latency in healthy humans is not well understood. We investigated how tissue properties of optic radiation could predict interindividual variability in the latency of the initial visually evoked component (C1), which may originate from the primary visual cortex (V1). We collected C1 peak latency data using magnetoencephalography (MEG) and checkerboard stimuli, and multiple structural magnetic resonance imaging (MRI) data from 20 healthy subjects. While we varied the contrast and position of the stimuli, the C1 measurement was most reliable when high-contrast stimuli were presented to the lower visual field (LVF). We then attempted to predict interindividual variability in C1 peak latency in this stimulus condition with a multiple regression model using MRI parameters along the optic radiation. We found that this model could predict >20% of variance in C1 latency, when the data were averaged across the hemispheres. The model using the corticospinal tract did not predict variability in C1 latency, suggesting that there is no evidence for generalization to a non-visual tract. In conclusion, our results suggest that the variability in neural latencies in the early visual cortex in healthy subjects can be partly explained by tissue properties along the optic radiation. We discuss the challenges of predicting neural latency using current structural neuroimaging methods and other factors that may explain interindividual variance in neural latency.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7333978 | PMC |
| http://dx.doi.org/10.1523/ENEURO.0545-19.2020 | DOI Listing |
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