A POPULATION STUDY OF AUDITORY-NERVE FIBERS IN UNANESTHETIZED DECEREBRATE CATS - RESPONSE TO PURE-TONES

被引:30
作者
KIM, DO
CHANG, SO
SIRIANNI, JG
机构
[1] Division of Otolaryngology, Surgical Research Center, Neurological Science Center, University of Connecticut Health Center
关键词
D O I
10.1121/1.399412
中图分类号
O42 [声学];
学科分类号
070206 ; 082403 ;
摘要
Population responses of single auditory-nerve (AN) fibers to 1-kHz pure tones were investigated in unanesthetized decerebrate cats. Driven rate (spikes/s), Fourier component amplitude (spikes/s), and d'e = (driven rate)/(standard deviation) were examined. These results extend the presently available information. First, the AN population responses, previously observed only in anesthetized animals, are now observed in unanesthetized animals. The anesthetized and unanesthetized animal responses are qualitatively similar. Second, a detectability measure d'e was applied, a la signal detection theory, to populations of AN fibers. A previously unknown behavior of the low-spontaneous-rate (SR) (< 15 spikes/s) fibers was observed: the d'e increased to large values at moderate and high stimulus levels, giving rise to a large, sharply tuned peak in the d 'e-place profile, even when the driven rate was saturated. This behavior was absent in the high-SR (> 15 spikes/s) fibers. This observation suggests that the d'e of the low-SR fibers is the best code for stimulus intensity among the different response measures examined, and that the d 'e-place profile may be a more precise spatial code for stimulus frequency than the commonly considered rate-place code. © 1990, Acoustical Society of America. All rights reserved.
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页码:1648 / 1655
页数:8
相关论文
共 28 条
[1]   MORPHOLOGY AND RESPONSE PROPERTIES OF SINGLE OLIVOCOCHLEAR FIBERS IN THE GUINEA-PIG [J].
BROWN, MC .
HEARING RESEARCH, 1989, 40 (1-2) :93-109
[2]   ACOUSTICALLY EVOKED ACTIVITY OF SINGLE EFFERENT NEURONS IN THE GUINEA-PIG COCHLEA [J].
CODY, AR ;
JOHNSTONE, BM .
JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA, 1982, 72 (01) :280-282
[3]  
Egan JP, 1966, EXPT METHODS INSTRUM, P211
[4]  
Evans E. F., 1981, NEURONAL MECHANISMS, P69, DOI [10.1007/978-1-4684-3908-3_9, DOI 10.1007/978-1-4684-3908-3_9]
[5]  
EVANS EF, 1980, EXP BRAIN RES, V40, P115
[6]  
FEX J, 1962, ACTA PHYSIOL SCAND, V55, P1
[7]   A COCHLEAR NON-LINEAR TRANSMISSION-LINE MODEL COMPATIBLE WITH COMBINATION TONE PSYCHOPHYSICS [J].
FURST, M ;
GOLDSTEIN, JL .
JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA, 1982, 72 (03) :717-726
[8]  
Green DM, 1988, SIGNAL DETECTION THE
[9]   2-TONE DISTORTION PRODUCTS IN A NONLINEAR MODEL OF BASILAR-MEMBRANE [J].
HALL, JL .
JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA, 1974, 56 (06) :1818-1828
[10]   HYBRID-COMPUTER MODEL OF COCHLEAR PARTITION [J].
HUBBARD, AE ;
GEISLER, CD .
JOURNAL OF THE ACOUSTICAL SOCIETY OF AMERICA, 1972, 51 (06) :1895-&