Functional Specialization in Auditory Cortex: Responses to Frequency-Modulated Stimuli in the Cat's Posterior Auditory Field

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Functional Specialization in Auditory Cortex: Responses to Frequency-Modulated Stimuli in the Cat's Posterior Auditory Field

Peter Heil and Dexter R. F. Irvine

Department of Psychology, Monash University, Clayton, Victoria 3168, Australia

Heil, Peter and Dexter R. F. Irvine. Functional specialization in auditory cortex: responses to frequency-modulatedstimuli in the cat's posterior auditory field. J. Neurophysiol.79: 3041-3059, 1998. The mammalian auditory cortex contains multiplefields but their functional role is poorly understood. Here weexamine the responses of single neurons in the posterior auditoryfield (P) of barbiturate- and ketamine-anesthetized cats to frequency-modulated(FM) sweeps. FM sweeps traversed the excitatory response areaof the neuron under study, and FM direction and the linear rateof change of frequency (RCF) were varied systematically. In someneurons, sweeps of different sound pressure levels (SPLs) alsowere tested. The response magnitude (number of spikes correctedfor spontaneous activity) of nearly all field P neurons variedwith RCF. RCF response functions displayed a variety of shapes,but most functions were of low-pass characteristic or peaked atrather low RCFs (<100 kHz/s). Neurons with strong responses tohigh RCFs (high-pass or nonselective RCF response function characteristics)all displayed spike count $---$ SPL functions to tone burst onsets thatwere monotonic or weakly nonmonotonic. RCF response functionsand best RCFs often changed with SPL. For most neurons, FM directionalsensitivity, quantified by a directional sensitivity (DS) index,also varied with RCF and SPL, but the mean and width of the distributionof DS indices across all neurons was independent of RCF. Analysisof response timing revealed that the phasic response of a neuronis triggered when the instantaneous frequency of the sweep reachesa particular value, the effective F_i. For a given neuron, valuesof effective F_i were independent of RCF, but depended on FM directionand SPL and were associated closely with the boundaries of theneuron's frequency versus amplitude response area. The standarddeviation (SD) of the latency of the first spike of the responsedecreased with RCF. When SD was expressed relative to the rateof change of stimulus frequency, the resulting index of frequencyjitter increased with RCF and did so rather uniformly in all neuronsand largely independent of SPL. These properties suggest thatmany FM parameters are represented by, and may be encoded in,orderly temporal patterns across different neurons in additionto the strength of responses. When compared with neurons in primaryand anterior auditory fields, field P neurons respond better torelatively slow FMs. Together with previous studies of responsesto modulations of amplitude, such as tone onsets, our findingssuggest more generally that field P may be best suited for processingsignals that vary relatively slowly over time.

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				Z. M. Fuzessery, M. D. Richardson, and M. S. Coburn Neural Mechanisms Underlying Selectivity for the Rate and Direction of Frequency-Modulated Sweeps in the Inferior Colliculus of the Pallid Bat J Neurophysiol, September 1, 2006; 96(3): 1320 - 1336. [Abstract] [Full Text] [PDF]

				K. N. O'Connor, C. I. Petkov, and M. L. Sutter Adaptive Stimulus Optimization for Auditory Cortical Neurons J Neurophysiol, December 1, 2005; 94(6): 4051 - 4067. [Abstract] [Full Text] [PDF]

				J. K. Bizley, F. R. Nodal, I. Nelken, and A. J. King Functional Organization of Ferret Auditory Cortex Cereb Cortex, October 1, 2005; 15(10): 1637 - 1653. [Abstract] [Full Text] [PDF]

				B. Godey, C. A. Atencio, B. H. Bonham, C. E. Schreiner, and S. W. Cheung Functional Organization of Squirrel Monkey Primary Auditory Cortex: Responses to Frequency-Modulation Sweeps J Neurophysiol, August 1, 2005; 94(2): 1299 - 1311. [Abstract] [Full Text] [PDF]

				A. Brechmann and H. Scheich Hemispheric shifts of sound representation in auditory cortex with conceptual listening Cereb Cortex, May 1, 2005; 15(5): 578 - 587. [Abstract] [Full Text] [PDF]

				A. Fishbach, Y. Yeshurun, and I. Nelken Neural Model for Physiological Responses to Frequency and Amplitude Transitions Uncovers Topographical Order in the Auditory Cortex J Neurophysiol, December 1, 2003; 90(6): 3663 - 3678. [Abstract] [Full Text] [PDF]

				W. E. O'Neill and W. O. Brimijoin Directional Selectivity for FM Sweeps in the Suprageniculate Nucleus of the Mustached Bat Medial Geniculate Body J Neurophysiol, July 1, 2002; 88(1): 172 - 187. [Abstract] [Full Text] [PDF]

				D. A Hall, I. S Johnsrude, M. P Haggard, A. R Palmer, M. A Akeroyd, and A. Q. Summerfield Spectral and Temporal Processing in Human Auditory Cortex Cereb Cortex, February 1, 2002; 12(2): 140 - 149. [Abstract] [Full Text] [PDF]

				A. Brechmann, F. Baumgart, and H. Scheich Sound-Level-Dependent Representation of Frequency Modulations in Human Auditory Cortex: A Low-Noise fMRI Study J Neurophysiol, January 1, 2002; 87(1): 423 - 433. [Abstract] [Full Text] [PDF]

				W. C. Loftus and M. L. Sutter Spectrotemporal Organization of Excitatory and Inhibitory Receptive Fields of Cat Posterior Auditory Field Neurons J Neurophysiol, July 1, 2001; 86(1): 475 - 491. [Abstract] [Full Text] [PDF]

				A. Fishbach, I. Nelken, and Y. Yeshurun Auditory Edge Detection: A Neural Model for Physiological and Psychoacoustical Responses to Amplitude Transients J Neurophysiol, June 1, 2001; 85(6): 2303 - 2323. [Abstract] [Full Text] [PDF]

				M. I. Sanderson and J. A. Simmons Neural Responses to Overlapping FM Sounds in the Inferior Colliculus of Echolocating Bats J Neurophysiol, April 1, 2000; 83(4): 1840 - 1855. [Abstract] [Full Text] [PDF]