Perry B. Hoeltzell scite author profile

1. Multi-unit recordings were made from SI cortex of barbiturte-anesthetized cats. In four cats, multiple vertical penetrations were made at closely spaced intervals. In 12 cats, long surface-parallel penetrations were made in the rostrocaudal or the lateromedial directions with observations taken every 100 micron. 2. Evidence is presented suggesting that cytoarchitectonic area 3a receives input from deep receptors and area 3b receives input from cutaneous receptors. 3. Within area 3b there was an abrupt change in submodality such that the rostral portion of 3b was activated by slowly adapting (SA) afferents, while the caudal portion was activated by rapidly adapting (RA) afferents. 4. The change in modality from deep to cutaneous occurred at the 3a/3b border, but the change in submodality occurred within area 3b and there was no obvious anatomical correlate of the latter transition. 5. These data suggest that there are modality- and submodality-specific bands in register with the bands of cytoarchitecture that extend across the mediolateral dimension of primary somatosensory cortex (SI). 6. A particular receptor population (or populations) from all regions of the body delivers information to each functionally specific band--one map is found in area 3a and two are in area 3b. If this pattern holds for the rest of cat SI, then there must be additional maps of the body in cytoarchitectonic areas 1 and 2.

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Conductivity in the somatosensory cortex of the cat — evidence for cortical anisotropy

Hoeltzell

Dykes

1979

Brain Research

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Segregation of modality and submodality information in SI cortex of the cat

Rasmusson¹,

Dykes²,

Hoeltzell³

1979

Brain Research

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