Abstract
1. Single-neuron responses were recorded in high-frequency regions of primary auditory cortex (AI) of anesthetized cats. Best-frequency tone pips were presented to each ear independently via sealed stimulus delivery systems, and the sound pressure level (SPL) at each ear was independently manipulated. Each neuron was studied with many dichotic combinations of SPL, chosen to incorporate a broad range of the two synthetic interaural level variables, interaural level difference (ILD) and average binaural level (ABL). This paper illustrates the common forms of binaural SPL selectivity observed in a sample of 204 single neurons located in AI. 2. Most neurons (> 90%) were jointly influenced by ILD and ABL. A small proportion of bilaterally excitable (EE) neurons responded to ABL rather independently of ILD. Only one neuron was determined to respond to ILD independently of ABL. 3. Nonmonotonic selectivity for one or both of the binaural level cues was evident in > 60% of our sample. Within the most effective range of ILD values, response strength was usually related nonmonotonically to related both to ILD and ABL. We have described units exhibiting this kind of dual nonmonotonic selectivity for the two binaural variables as being influenced by a Two-Way Intensity Network (TWIN). 4. Each of the response forms identified in an earlier study of the gerbil inferior colliculus were found in this study of cat auditory cortex. However the classes were evident in markedly different proportions. In particular, TWIN responses alone accounted for 36.2% of the sample, nearly four times the proportion found in the inferior colliculus in a previous study. 5. Units with similar binaural responses do not necessarily have similar monaural properties. For example, the typically nonmonotonic relation between response strength and ABL was often observed in the absence of a monaurally demonstrable nonmonotonicity. There is no simple relation between a neuron's classification according to the sign of monaural influence and its response to ILD and ABL. In particular, EE neurons exhibited remarkably diverse binaural properties. 6. Since responses of nearly all AI neurons are influenced jointly by ABL and ILD, we contend that single neurons in primary auditory cortex are not specifically tuned to either cue. ILD and ABL are mathematical expressions relating the SPLs at the two ears to each other (as the difference and average, respectively) and any such combination is expressed most simply as a particular combination of SPL at each ear.(ABSTRACT TRUNCATED AT 400 WORDS)
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