Electrophysiological Signature Reveals Laminar Structure of the Porcine Hippocampus

Alexandra V. Ulyanova(California University of Pennsylvania), Paul F. Koch(California University of Pennsylvania), Carlo Cottone(California University of Pennsylvania), Michael R. Grovola(Veterans Health Administration), Christopher D. Adam(Veterans Health Administration), Kevin D. Browne(Veterans Health Administration), Maura T. Weber(California University of Pennsylvania), Robin Russo(California University of Pennsylvania), Kimberly G. Gagnon(California University of Pennsylvania), Douglas H. Smith(California University of Pennsylvania), H. Isaac Chen(Veterans Health Administration), Victoria E. Johnson(California University of Pennsylvania), D. Kacy Cullen(Veterans Health Administration), John A. Wolf(Veterans Health Administration)
eNeuro
September 1, 2018
10.1523/eneuro.0102-18.2018
Cited by 20Open Access
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Abstract

electrophysiological recordings of simultaneous laminar field potentials and single-unit activity in multiple layers of the dorsal hippocampus to physiologically identify and quantify these layers under anesthesia. Consistent with previous reports, we found the porcine hippocampus to have the expected archicortical laminar structure, with some anatomical and histological features comparable to the rodent and others to the primate hippocampus. Importantly, we found these distinct features to be reflected in the laminar electrophysiology. This characterization, as well as our electrophysiology-based methodology targeting the porcine hippocampal lamina combined with high-channel-count silicon probes, will allow for analysis of spike-field interactions during normal and disease states in both anesthetized and future awake behaving neurophysiology in this large animal.

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