The principal projection pathway between the olfactory bulb and the prepyriform cortex in the cat

The anatomy and neuroelectric properties of the lateral olfactory tract (LOT) were investigated in the cat. Electron micrographs were obtained from sampled areas across the rostro‐caudal projection of the pathway. Fiber diameters were estimated and axon spectra were obtained from three regions corresponding to penduncle, mid‐LOT, and caudal‐LOT. The mean inside diameter for all measured axons was 1.13 ± 0.53 μm. The greatest number was found in the peduncle (approximately 600,000 axons). Mid‐LOT and caudal‐LOT each contained approximately 250,000 axons. Unmyelinated processes were estimated to be more numerous than the myelinated axons. Synaptic structures were also observed in the LOT. Crosssectional area measurements of the LOT were obtained from tissue repared for light microscopy. The area decreased from about 0.3 to 0.2 mm2 across the projection from olfactory bulb to cortex. The anatomical data were used to predict the conduction properties of transmission over the LOT. The olfactory bulb mitral cells were stimulated electrically and conduction velocity and temporal dispersion were evaluated in the tract. The strength‐duration and stimulus‐response curves and the potential profile during stimulation were also obtained. The time constant for LOT axons was 0.3 msec. The stimulus‐response curve was sigmoidal in shape for both presynaptic and postsynaptic responses. The relationship between input (the action potentials) and output (cortical postsynaptic potentials) was linear up to 90 times threshold. Action potentials were conducted at 20 m/sec across the pathway over the peduncle and decreased to about 10 m/sec in caudal aspects. The potential profile for action potentials decayed exponentially into the depths of the cortex whereas the synaptic potential was a surface negative dipole field. The axon spectra were convolved with the electrophysiological properties of the LOT Yto mathematically reconstruct action potentials. The empirically derived monoand biphasic curves fitted reasonably well with experimentally derived data under various stimulus conditions.