Spatial Sensitivity in Field PAF of Cat Auditory Cortex

doi:10.1152/jn.00980.2002

Spatial Sensitivity in Field PAF of Cat Auditory Cortex

G. Christopher Stecker, Brian J. Mickey, Ewan A. Macpherson and John C. Middlebrooks

Kresge Hearing Research Institute, University of Michigan, Ann Arbor, Michigan 48109-0506

Submitted 29 October 2002; accepted in final form 5 February 2003

We compared the spatial tuning properties of neurons in twofields [primary auditory cortex (A1) and posterior auditoryfield (PAF)] of cat auditory cortex. Broadband noise burstsof 80-ms duration were presented from loudspeakers throughout360° in the horizontal plane (azimuth) or 260° in thevertical median plane (elevation). Sound levels varied from20 to 40 dB above units' thresholds. We recorded neural spikeactivity simultaneously from 16 sites in field PAF and/or A1of ${alpha}$ -chloralose-anesthetized cats. We assessed spatial sensitivityby examining the dependence of spike count and response latencyon stimulus location. In addition, we used an artificial neuralnetwork (ANN) to assess the information about stimulus locationcarried by spike patterns of single units and of ensemblesof 2–32 units. The results indicate increased spatialsensitivity, more uniform distributions of preferred locations,and greater tolerance to changes in stimulus intensity amongPAF units relative to A1 units. Compared to A1 units, PAF units responded at significantly longer latencies, and latenciesvaried more strongly with stimulus location. ANN analysis revealedsignificantly greater information transmission by spike patternsof PAF than A1 units, primarily reflecting the informationtransmitted by latency variation in PAF. Finally, informationrates grew more rapidly with the number of units included in neural ensembles for PAF than A1. The latter finding suggestsmore accurate population coding of space in PAF, made possibleby a more diverse population of neural response types.

Address reprint requests to: G. C. Stecker (E-mail: cstecker{at}umich.edu).

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