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W4200417163 abstract "Response nonlinearities are ubiquitous throughout the brain, especially within sensory cortices where changes in stimulus intensity typically produce compressed responses. Although this relationship is well established in electrophysiological measurements, it remains controversial whether the same nonlinearities hold for population-based measurements obtained with human fMRI. We propose that these purported disparities are not contingent on measurement type and are instead largely dependent on the visual system state at the time of interrogation. We show that deploying a contrast adaptation paradigm permits reliable measurements of saturating sigmoidal contrast response functions (10 participants, 7 female). When not controlling the adaptation state, our results coincide with previous fMRI studies, yielding nonsaturating, largely linear contrast responses. These findings highlight the important role of adaptation in manifesting measurable nonlinear responses within human visual cortex, reconciling discrepancies reported in vision neuroscience, re-establishing the qualitative relationship between stimulus intensity and response across different neural measures and the concerted study of cortical gain control. SIGNIFICANCE STATEMENT Nonlinear stimulus–response relationships govern many essential brain functions, ranging from the sensory to cognitive level. Certain core response properties previously shown to be nonlinear with nonhuman electrophysiology recordings have yet to be reliably measured with human neuroimaging, prompting uncertainty and reconsideration. The results of this study stand to reconcile these incongruencies in the vision neurosciences, demonstrating the profound impact adaptation can have on brain activation throughout the early visual cortex. Moving forward, these findings facilitate the study of modulatory influences on sensory processing (i.e., arousal and attention) and help establish a closer link between neural recordings in animals and hemodynamic measurements from human fMRI, resuming a concerted effort to understand operations in the mammalian cortex." @default.
W4200417163 created "2021-12-31" @default.
W4200417163 creator A5020718871 @default.
W4200417163 creator A5028760133 @default.
W4200417163 creator A5085486442 @default.
W4200417163 date "2021-12-17" @default.
W4200417163 modified "2023-10-10" @default.
W4200417163 title "Saturating Nonlinearities of Contrast Response in Human Visual Cortex" @default.
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W4200417163 doi "https://doi.org/10.1523/jneurosci.0106-21.2021" @default.
W4200417163 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34921048" @default.
W4200417163 hasPublicationYear "2021" @default.
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