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Published January 31, 2017 | Supplemental Material + Published
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Scene-selective coding by single neurons in the human parahippocampal cortex

Mormann, Florian ORCID icon
Kornblith, Simon
Cerf, Moran
Ison, Matias J.
Kraskov, Alexander
Tran, Michelle
Knieling, Simeon
Quiroga, Rodrigo Quian
Koch, Christof ORCID icon
Fried, Itzhak ORCID icon
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Abstract

Imaging, electrophysiological, and lesion studies have shown a relationship between the parahippocampal cortex (PHC) and the processing of spatial scenes. Our present knowledge of PHC, however, is restricted to the macroscopic properties and dynamics of bulk tissue; the behavior and selectivity of single parahippocampal neurons remains largely unknown. In this study, we analyzed responses from 630 parahippocampal neurons in 24 neurosurgical patients during visual stimulus presentation. We found a spatially clustered subpopulation of scene-selective units with an associated event-related field potential. These units form a population code that is more distributed for scenes than for other stimulus categories, and less sparse than elsewhere in the medial temporal lobe. Our electrophysiological findings provide insight into how individual units give rise to the population response observed with functional imaging in the parahippocampal place area.

Additional Information

© 2017 National Academy of Sciences. Freely available online through the PNAS open access option. Edited by Larry R. Squire, Veterans Affairs San Diego Healthcare System, San Diego, CA, and approved November 4, 2016 (received for review May 21, 2016). Published ahead of print January 17, 2017. We thank all our subjects for their participation; E. Behnke, T. Fields, E. Ho, V. Isiaka, E. Isham, K. Laird, N. Parikshak, and A. Postolova for technical assistance with the recordings; and D. Tsao for useful discussion. This research was supported by grants from the Volkswagen Foundation (Lichtenberg Program), the German Research Council (DFG MO930/4-1 and SFB 1089), the National Institute of Neurological Disorders and Stroke, the G. Harold and Leila Y. Mathers Foundation, the Gimbel Discovery Fund, the Dana Foundation, the Human Frontiers Science Program, and a National Science Foundation Graduate Research Fellowship (to S. Kornblith). Author contributions: F.M., S. Kornblith, C.K., and I.F. designed research; F.M., M.C., M.J.I., A.K., R.Q.Q., and I.F. performed research; F.M., M.T., and S. Knieling assessed electrode localizations; I.F. performed all neurosurgical procedures; F.M. and S. Kornblith analyzed data; and F.M., S. Kornblith, C.K., and I.F. wrote the paper. The authors declare no conflict of interest. This article is a PNAS Direct Submission. This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1608159113/-/DCSupplemental.

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