Harnischfeger G, Neuweiler G, Schlegel P
J Neurophysiol. 1985 Jan;53(1):89-109. doi: 10.1152/jn.1985.53.1.89.
Single-unit responses to tonal stimulation with interaural disparities were recorded in the nuclei of the superior olivary complex (SOC) and the central nucleus of the inferior colliculus (ICC) of the echolocating bat, Molossus ater. Seventy-six units were recorded from the ICC and 74 from the SOC; of the SOC units, 31 were histologically verified in the medial superior olive (MSO), 10 in the lateral superior olive (LSO), and 33 in unidentified areas of the SOC. Best frequencies (BFs) of the units ranged from 10.3 to 89.6 kHz, and Q10 dB values ranged from 2 to 70 dB. Most ICC neurons responded phasically to stimulus onset and were either inhibitory/excitatory [I/E; (53)] or excitatory/excitatory [E/E; (21)] units. In the MSO, 23 units responded tonically and 7 phasically on, 18 were E/E or E/OF (facilitatory for other input) units, and 11 were I/E neurons. All LSO neurons responded in a "chopper" fashion, and the binaural neurons were E/I units. In E/E units the excitatory response to binaural stimulation was frequently larger than the sum of the monaurally evoked responses. Many neurons with E/I or I/E inputs had very steep binaural impulse-count functions and were sensitive to small interaural intensity differences. Twenty-eight units (24%) responded with a change in firing rate of at least 20% to interaural time differences of +/- 500 microseconds. Within this sample, 11 units (8 from ICC, 2 from MSO, and 1 from SOC) were sensitive to interaural time differences of only +/- 50 microseconds. Of these 11 units, 10 were I/E units responding phasically only to stimulus onset and were also sensitive to intensity differences (delta I), being suppressed completely by the inhibitory input over a delta I range of 20 dB or less. Of 117 units tested in the ICC and SOC nuclei, 86 units (76%) were not sensitive to interaural time disparities within +/- 500 microseconds. Because the BFs of these units sensitive to interaural transient time differences (delta t) ranged between 18 and 90 kHz, responses were elicited by pure tones, and responses did not change periodically with the period equal to that of the stimulus frequency, we conclude that the neurons reacted to interaural differences of stimulus-onset time (transient time difference) but not to phase differences (ongoing time difference). Sensitivity to interaural time differences was also correlated with interaural intensity differences.(ABSTRACT TRUNCATED AT 400 WORDS)
在食虫蝙蝠黑犬吻蝠的上橄榄复合体(SOC)核团和下丘中央核(ICC)中,记录了对具有双耳差异的音调刺激的单神经元反应。从ICC记录了76个神经元,从SOC记录了74个神经元;在SOC的神经元中,31个经组织学验证位于内侧上橄榄核(MSO),10个位于外侧上橄榄核(LSO),33个位于SOC的未明确区域。这些神经元的最佳频率(BFs)范围为10.3至89.6千赫兹,Q10 dB值范围为2至70分贝。大多数ICC神经元对刺激开始呈相位反应,为抑制性/兴奋性[I/E;(53)]或兴奋性/兴奋性[E/E;(21)]神经元。在MSO中,23个神经元呈紧张性反应,7个呈相位反应,18个是E/E或E/OF(对其他输入有易化作用)神经元,11个是I/E神经元。所有LSO神经元均以“斩波器”方式反应,双耳神经元为E/I神经元。在E/E神经元中,对双耳刺激的兴奋性反应通常大于单耳诱发反应之和。许多具有E/I或I/E输入的神经元具有非常陡峭的双耳冲动计数功能,并且对小的双耳强度差异敏感。28个神经元(24%)对±500微秒的双耳时间差异反应时放电率至少有20%的变化。在这个样本中,11个神经元(8个来自ICC,2个来自MSO,1个来自SOC)仅对±50微秒的双耳时间差异敏感。在这11个神经元中,10个是I/E神经元,仅对刺激开始呈相位反应,并且也对强度差异(ΔI)敏感,在20分贝或更小的ΔI范围内被抑制性输入完全抑制。在ICC和SOC核团中测试的117个神经元中,86个神经元(76%)对±500微秒内的双耳时间差异不敏感。由于这些对双耳瞬态时间差异(Δt)敏感的神经元的BFs在18至90千赫兹之间,反应由纯音诱发,并且反应不会随等于刺激频率周期而周期性变化,我们得出结论,这些神经元对刺激开始时间的双耳差异(瞬态时间差异)有反应,但对相位差异(持续时间差异)无反应。对双耳时间差异的敏感性也与双耳强度差异相关。(摘要截断于400字)
