Authors
Mickiewicz, E., Franch, M., Katlowitz, K., Chavez, A. G., Zhu, H., Chericoni, A., Yan, X., Belanger, J., Ismail, T., Paulo, D., Goldman, A., Krishnan, V., Maheshwari, A., Bartoli, E., Heilbronner, S., Provenza, N., Sheth, S., Hayden, B.
Abstract
The hippocampus plays a central role in encoding abstract conceptual and semantic information. However, little is known about the topography of that encoding. We leveraged the rare opportunity to examine neural responses densely along a small portion of the human hippocampus, specifically, the mediolateral axis of the anterior body. We collected responses to passive language listening using Neuropixels probes in three anesthetized patients during clinically indicated neurosurgical procedures. We computed semantic tuning functions for each recording site by regressing threshold crossing events and single unit responses against semantic embeddings from GPT-2, Word2Vec, and SBERT. We find that tuning functions of more distant recording sites are more dissimilar, supporting the hypothesis semantotopic organization. Multiple semantic features showed systematic changes along that axis, including animacy, concreteness, and familiarity; notably, effects were individual-specific. Surprisingly, we also found a small but significant increase in semantic similarity as a function of distance between recording sites, on a shorter spatial scale, suggesting a modest periodic organization. Together, these results demonstrate the presence of a multiscale functional organization of semantics in the hippocampus.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 03 Nov 2025.
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