V B Polianskii, D E Alymkulov, D V Evtikhin, B V Chernyshev
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We used a Wilcoxon signed-rank test to show the differences between reactions in response to visual and audio-visual stimuli. Audio-visual on-responses statistically exceeded the responses to visual stimuli at -150, -40 and 0 ms SOA for the all neurons. Two groups of neurons were revealed. The first group (n = 16) showed dependence of on-re- sponses on sound in a wide range of SOA: -150, -40, -20, 0, +20, +50 and +100 ms. Also the first group showed maximum increase of spike number (18-28%) in response to audio-visual stimulation. For the second group of neurons there were no significant SOA for on-responses. We haven't found a significant decrease of audio-visual response compared to a visual response. However, we found the tendency to reduction of audio-visual discharge at intervals SOA -750 and -80 ms (p < 0.07) for the first group and at SOA -500 and +20 ms (p < 0.1) for the second group of neurons. Also we revealed that on-responses are more influenced by sound than off-responses. We have researched the audio-visual interaction in the second phase of neuronal discharges (120-160 ms and later, n = 23). Sound influence on a second phase is weaker than on a first phase. Significant SOA for on-responses: 0 ms; for off-responses: +100 and +150 ms. This study has revealed similarities of audio-visual interaction range for animal and psychophysical researches. 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Sound by itself did not elicit a neuronal response. Factor analysis ANOVA revealed that SOA significantly influence on neuronal responses. Neuronal reaction included responses to increase (on-response) and decrease (off-response) of light intensity. Earliest phase of response (40-100 ms from visual stimuli substitution) is most affected by sound. Neuronal reactions of the every interval of SOA comprised both increase and decrease of discharge in response to addition of a sound. We used a Wilcoxon signed-rank test to show the differences between reactions in response to visual and audio-visual stimuli. Audio-visual on-responses statistically exceeded the responses to visual stimuli at -150, -40 and 0 ms SOA for the all neurons. Two groups of neurons were revealed. The first group (n = 16) showed dependence of on-re- sponses on sound in a wide range of SOA: -150, -40, -20, 0, +20, +50 and +100 ms. Also the first group showed maximum increase of spike number (18-28%) in response to audio-visual stimulation. For the second group of neurons there were no significant SOA for on-responses. We haven't found a significant decrease of audio-visual response compared to a visual response. However, we found the tendency to reduction of audio-visual discharge at intervals SOA -750 and -80 ms (p < 0.07) for the first group and at SOA -500 and +20 ms (p < 0.1) for the second group of neurons. Also we revealed that on-responses are more influenced by sound than off-responses. We have researched the audio-visual interaction in the second phase of neuronal discharges (120-160 ms and later, n = 23). Sound influence on a second phase is weaker than on a first phase. Significant SOA for on-responses: 0 ms; for off-responses: +100 and +150 ms. This study has revealed similarities of audio-visual interaction range for animal and psychophysical researches. 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引用次数: 0
摘要
实验记录了兔34个初级视觉皮层神经元在-750 ~ + 150 ms(共15个范围)的刺激起始异步(SOA)刺激下的细胞外活动。听觉刺激:2000hz, 70db, 40ms。视觉刺激:弱强度分别为0.3和1 cd/m2。声音本身并不能引起神经元的反应。因子分析方差分析显示,SOA对神经元反应有显著影响。神经元的反应包括对光强增加(有响应)和减少(无响应)的反应。早期反应阶段(视觉刺激替代后40-100 ms)受声音影响最大。在SOA的每个间隔中,神经元对声音的反应既有放电的增加,也有放电的减少。我们使用Wilcoxon符号秩检验来显示视觉和视听刺激反应之间的差异。所有神经元在-150、-40和0 ms SOA时的视听反应在统计学上超过了对视觉刺激的反应。显示两组神经元。第一组(n = 16)显示了在SOA的大范围内对声音的响应的依赖性:-150、-40、-20、0、+20、+50和+100 ms。在视听刺激下,第一组小鼠的脑尖峰数增加最多(18-28%)。在第二组神经元中,对非响应没有明显的SOA。我们还没有发现视听反应与视觉反应相比有明显的减少。然而,我们发现,第一组神经元在SOA -750和-80 ms (p < 0.07)间隔时,第二组神经元在SOA -500和+20 ms (p < 0.1)间隔时,视听放电有减少的趋势。我们还发现,开反应比关反应更容易受到声音的影响。我们研究了神经元放电第二阶段(120-160 ms及以后,n = 23)的视听相互作用。声音对第二阶段的影响比第一阶段弱。实时响应的重要SOA: 0毫秒;对于非响应:+100和+150毫秒。本研究揭示了动物和心理物理研究中视听互动范围的相似性。我们的结果允许。更详细地研究跨模态集成。
[How Sound Modulates Response to Light when Using Various Temporal Intervals between Stimuli of Different Modalities].
Extracellular activity of 34 primary visual cortex neurons of the rabbit was recorded in response to audiovisual stimulation with stimulus onset asynchronies (SOA) in range from -750 to + 150 ms (15 ranges in total). Auditory stimulus: 2000 Hz, 70 dB, 40 ms. Visual stimuli: two weak intensities 0.3 and 1 cd/m2. Sound by itself did not elicit a neuronal response. Factor analysis ANOVA revealed that SOA significantly influence on neuronal responses. Neuronal reaction included responses to increase (on-response) and decrease (off-response) of light intensity. Earliest phase of response (40-100 ms from visual stimuli substitution) is most affected by sound. Neuronal reactions of the every interval of SOA comprised both increase and decrease of discharge in response to addition of a sound. We used a Wilcoxon signed-rank test to show the differences between reactions in response to visual and audio-visual stimuli. Audio-visual on-responses statistically exceeded the responses to visual stimuli at -150, -40 and 0 ms SOA for the all neurons. Two groups of neurons were revealed. The first group (n = 16) showed dependence of on-re- sponses on sound in a wide range of SOA: -150, -40, -20, 0, +20, +50 and +100 ms. Also the first group showed maximum increase of spike number (18-28%) in response to audio-visual stimulation. For the second group of neurons there were no significant SOA for on-responses. We haven't found a significant decrease of audio-visual response compared to a visual response. However, we found the tendency to reduction of audio-visual discharge at intervals SOA -750 and -80 ms (p < 0.07) for the first group and at SOA -500 and +20 ms (p < 0.1) for the second group of neurons. Also we revealed that on-responses are more influenced by sound than off-responses. We have researched the audio-visual interaction in the second phase of neuronal discharges (120-160 ms and later, n = 23). Sound influence on a second phase is weaker than on a first phase. Significant SOA for on-responses: 0 ms; for off-responses: +100 and +150 ms. This study has revealed similarities of audio-visual interaction range for animal and psychophysical researches. Our results allows. to research cross-modal integration in more detail.
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