Electrophysiology and morphology of neurons in rat perirhinal cortex.

The intrinsic membrane properties of perirhinal cortical neurons were studied by intracellular recording in in vitro rat brain slices. Gross morphology was also examined through injection of the fluorescent dye carboxyfluorescein. The cells encountered displayed a diversity of electrophysiological properties, and were similar to cells reported in other neocortical areas with regard to spiking patterns, afterpotentials, and morphology. However, very few (4%) intrinsically bursting neurons were encountered. Two pyramidal cells with thick apical dendrites were filled, and both fired doublets of action potentials for their first suprathreshold events. Of the filled pyramidal cells with thin apical dendrites, most (9/11) fired single action potentials for their first suprathreshold events. A variety of classification schemes were used to group the data, and several schemes were found to be equally successful. According to one of the schemes, cells recorded with carboxyfluorescein filled electrodes had significantly greater action potential widths at half-amplitude and more depolarized resting potentials than cells recorded without this dye.