Listening to speech in the presence of other sounds

Although most research on the perception of speech has been conducted with speech presented without any competing sounds, we almost always listen to speech against a background of other sounds which we are adept at ignoring. Nevertheless, such additional irrelevant sounds can cause severe problems for speech recognition algorithms and for the hard of hearing as well as posing a challenge to theories of speech perception. A variety of different problems are created by the presence of additional sound sources: detection of features that are partially masked, allocation of detected features to the appropriate sound sources and recognition of sounds on the basis of partial information. The separation of sounds is arousing substantial attention in psychoacoustics and in computer science. An effective solution to the problem of separating sounds would have important practical applications.     

生后早期听觉剥夺、经验改变大鼠听皮层NMDA受体NR2B蛋白表达

应用蛋白质印迹检测技术,研究早期听觉剥夺、经验对大鼠听皮层NMDA受体NR2B蛋白表达的影响.结果表明,听觉剥夺使生后14天龄组和28天龄组动物听皮层NR2B蛋白表达水平明显下降(P<0.05,P<0.01),听觉剥夺7天后再给予纯音暴露则又使NR2B表达水平明显提高(P<0.05),呈现双向调节趋势.听觉剥夺和纯音暴露对生后42天龄组大鼠听皮层NR2B表达不再产生明显调节作用(P>0.05).结果提示,在大鼠生后发育关键期,听觉剥夺、经验可改变听皮层NMDA受体NR2B蛋白表达水平.研究结果为研究感觉功能发育可塑性的机制提供了重要实验资料.     

强噪声暴露后听觉脑干电反应及皮层电反应的变化

为了观察噪声作用豚鼠后,在暂时性或移和永久性阈移期间,听觉末梢和听觉各级中枢电反庆的变化规律,我们进行了６２ｄ的测定。听神经电反应振幅减小２９％（Ｐ＜０．０５）,耳蜗核电反应振幅减小２８％（Ｐ＜０．０５）,上橄榄核电反应反而增加２１％（Ｐ＜０．０５）,中脑下丘的电反应振幅进而增大３７％（Ｐ＜０．０５）,听觉皮层电反应振幅却意外地增加１３１％（Ｐ＜０．００１）。这说明强噪声（１２５ｄＢ １５０ｍｉｎ     

The development of stimulus‐specific auditory responses requires song exposure in male but not female zebra finches

Juvenile male zebra finches develop their song by imitation. Females do not sing but are attracted to males' songs. With functional magnetic resonance imaging and event‐related potentials we tested how early auditory experience shapes responses in the auditory forebrain of the adult bird. Adult male birds kept in isolation over the sensitive period for song learning showed no consistency in auditory responses to conspecific songs, calls, and syllables. Thirty seconds of song playback each day over development, which is sufficient to induce song imitation, was also sufficient to shape stimulus‐specific responses. Strikingly, adult females kept in isolation over development showed responses similar to those of males that were exposed to songs. We suggest that early auditory experience with songs may be required to tune perception toward conspecific songs in males, whereas in females song selectivity develops even without prior exposure to song. © 2009 Wiley Periodicals, Inc. Develop Neurobiol 2010     

Neural representation of spectral and temporal information in speech

Speech is the most interesting and one of the most complex sounds dealt with by the auditory system. The neural representation of speech needs to capture those features of the signal on which the brain depends in language communication. Here we describe the representation of speech in the auditory nerve and in a few sites in the central nervous system from the perspective of the neural coding of important aspects of the signal. The representation is tonotopic, meaning that the speech signal is decomposed by frequency and different frequency components are represented in different populations of neurons. Essential to the representation are the properties of frequency tuning and nonlinear suppression. Tuning creates the decomposition of the signal by frequency, and nonlinear suppression is essential for maintaining the representation across sound levels. The representation changes in central auditory neurons by becoming more robust against changes in stimulus intensity and more transient. However, it is probable that the form of the representation at the auditory cortex is fundamentally different from that at lower levels, in that stimulus features other than the distribution of energy across frequency are analysed.     

刺激家兔杏仁复合体对听皮层声反应影响的研究

实验在40只三碘季铵酚麻痹的家兔上进行。使用记录诱发电位以及单个神经元放电的方法,观察了刺激杏仁复合体对Woolsey AⅠ AⅡ以及嗅鼻沟后缘听区皮层声反应的影响。实验结果表明,刺激杏仁外侧核和基底核可以对皮层的声反应产生易化或抑制性影响。这种影响的潜伏期一般为10—25ms,时程为20—115ms,在1例动物上也观察到了2ms的最短潜伏期。这些结果表明杏仁核群对于听区皮层的抑制影响主要是经过多突触环路传递的,但也有可能经由单突触途径实现兴奋性影响。本文对杏仁复合体影响的意义作了讨论。     

Processing of spectral localization-informative changes in sound signals by neurons of inferior colliculus and auditory cortex of the house mouse Mus musculus

Comparative analysis was performed of sensitivity of three populations of neurons of the inferior colliculus central nucleus and of neurons of the auditory cortex A1 and AAF fields of the house mouse Mus musculus to series of signals of wideband noise with spectral notch shifting along the frequency axis and to series of the band noise signals with shifting band. Sensitivity to spectral notches in noise was estimated from a change of impulse activity depending on notch location on the frequency axis (modulation coefficients were determined as the normalized difference between the maximal and minimal spike number in neuronal responses to all noises with notch exposed in the series). It was shown that the highest modulation coefficient values and accordingly the highest frequency-dependent sensitivity to spectral notches in the noise were peculiar to inhibition-dependent inferior colliculus neurons. Statistical analysis confirmed that distribution of modulation coefficients for the group of the inhibition-dependent neurons differed statistically significantly from the distribution for groups of primary-like and V-shaped inferior colliculus neurons as well as of cortical neurons (U-test, p < 0.0001). The lowest sensitivity to spectral notches was revealed in the V-shaped inferior colliculus neurons and cortical neurons; in these groups, distribution of modulation coefficients did not differed statistically significantly (p > 0.3). Thus, although a part of cortical neurons does have the frequency-dependent selectivity to spectral localizationally informative changes in sound signals, its formation needs participation of the inferior colliculus and its inhibition-dependent neurons. Selectivity to direction of the shift of spectral changes in noise signals in neurons of the inferior colliculus and auditory cortex was similar and was manifested mainly as shift along the frequency axis of dependences of the spike number in the neuronal responses and latent periods on central frequency of notch in noise (the noise band).     

Identifying the Threshold of Iron Deficiency in the Central Nervous System of the Rat by the Auditory Brainstem Response

The deleterious effects of anemia on auditory nerve (AN) development have been well investigated; however, we have previously reported that significant functional consequences in the auditory brainstem response (ABR) can also occur as a consequence of marginal iron deficiency (ID). As the ABR has widespread clinical use, we evaluated the ability of this electrophysiological method to characterize the threshold of tissue ID in rats by examining the relationship between markers of tissue ID and severity of ABR latency defects. To generate various levels of ID, female Long-Evans rats were exposed to diets containing sufficient, borderline, or deficient iron (Fe) concentrations throughout gestation and offspring lifetime. We measured hematological indices of whole body iron stores in dams and offspring to assess the degree of ID. Progression of AN ID in the offspring was measured as ferritin protein levels at different times during postnatal development to complement ABR functional measurements. The severity of ABR deficits correlated with the level of Fe restriction in each diet. The sufficient Fe diet did not induce AN ID and consequently did not show an impaired ABR latency response. The borderline Fe diet, which depleted AN Fe stores but did not cause systemic anemia resulted in significantly increased ABR latency isolated to Peak I.The low Fe diet, which induced anemia and growth retardation, significantly increased ABR latencies of Peaks I to IV. Our findings indicate that changes in the ABR could be related to various degrees of ID experienced throughout development.     

大鼠初级听皮层神经元对声音空间信息的编码

尽管大脑听皮层神经元对声音空间信息的编码已有不少的研究报道,但其编码机制并不十分清楚,相关研究在大鼠的初级听皮层也未见详细的研究报道．用神经电生理学方法在大鼠初级听皮层考察了151个听神经元的听空间反应域,分析了神经元对来自不同空间方位声刺激反应的放电数和平均首次发放潜伏期的关系．结果表明,多数(52.32%)神经元对来自对侧听空间的声刺激反应较强,表现为对侧偏好型特征,其他神经元分别归类为同侧偏好型(18.54%)、中间偏好型(18.54%)、全向型(3.31%)和复杂型(7.28%)．多数神经元偏好的听空间区域的几何中心位于记录部位对侧听空间的中部和上部．绝大多数初级听皮层神经元对来自偏好听空间的声刺激反应的放电数较多、反应潜伏期较短,对来自非偏好听空间的声刺激反应的放电数较少、反应潜伏期较长,放电数与平均首次发放潜伏期呈显著负相关．在对声音空间信息的编码中,大脑初级听皮层可能综合放电数和潜伏期的信息以实现对声源方位的编码．     

The periotic of Moeritherium (Mammalia, Proboscidea): homology or homoplasy in the ear region of Tethytheria McKenna, 1975?

The periotic of Moeritherium is described for the first time. A number of potentially autapomorphic features are identified; however, in common with living elephants and seacows the moerithere periotic is shown to lack the fenestra cochleae and aqueductus cochleae typical of therian mammals. Instead, it possesses a secondarily undivided perilymphatic foramen, a feature considered to be a synapomorphy uniting Proboscidea and Sirenia within the Tethytheria. The supposedly more derived fossil proboscidean, Mimidotherium , along with the primitive fossil sirenian Prorastomus , possess the typical therian pattern of openings to the pars cochlearis of the periotic. It is therefore unclear whether the condition in Recent tethytheres is homologous or independently derived. It is argued that the presence in Moeritherium of a suite of periotic characters more derived than those in Mimidotherium undermines the primitive status of moeritheres relative to numidotheres and all other Proboscidea, and therefore weakens the hypothesis of a secondary reversal to a more primitive auditory region in Numidotheriurn. The biological role of auditory specializations in Recent tethytheres is shown to have been very different, and it is argued that this functional disparity extends to the most primitive members of each order. Demonstrable homoplasy in structure and lack of functional congruence in basal members of both Sirenia and Proboscidea are deemed to be indicative of an independent acquisition of similar structures in the ear region of Recent tethytheres.     

听觉选择性注意的可塑性及其神经机制研究

本文旨在研究音乐训练是否能增强基于音高和空间位置的听觉选择性注意力,以及音乐训练对听觉可塑性的神经机制.听觉感知实验中,受试者根据音高差异或空间位置差异,选择两个同时播放的数字之一.听觉认知实验在安静和噪声环境中播放频率分辨率不同的复合音,记录受试者听觉脑干频率跟随响应(frequency-following responses,FFRs).本文提出分析FFR的四种方法,即包络相关频率跟随响应(envelope-related frequency-following response,FFRENV)的短时锁相值、瞬时相位差极性图、相位差均值矢量以及时间细节结构相关频率跟随响应(temporal-fine-structure-related frequency-following response,FFRTFS)的幅度谱信噪比.实验结果表明,在完成基于音高的任务时,受过音乐训练的受试者准确率更高、反应时间更短.外界噪声不影响两组人群在基频(fundamental frequency,F0)的神经元锁相能力,但是显著降低了谐波处的神经元锁相能力.受过音乐训练的受试者的神经元在基频处的锁相能力和谐波处抗噪能力均增强,且其FFRTFS幅度谱信噪比与基于音高的行为学准确率呈正相关.因此,受过音乐训练的受试者其音高选择性注意感知能力的提高取决于认知神经能力的增强,经过音乐训练后,F0处FFRENV的锁相能力、谐波处FFRTFS的抗噪和持续锁相能力以及谐波处FFRTFS幅度谱信噪比均明显增强.音乐训练对听觉选择性注意具有显著的可塑性.     

Functional imaging of the auditory processing applied to speech sounds

In this paper, we describe domain-general auditory processes that we believe are prerequisite to the linguistic analysis of speech. We discuss biological evidence for these processes and how they might relate to processes that are specific to human speech and language. We begin with a brief review of (i) the anatomy of the auditory system and (ii) the essential properties of speech sounds. Section 4 describes the general auditory mechanisms that we believe are applied to all communication sounds, and how functional neuroimaging is being used to map the brain networks associated with domain-general auditory processing. Section 5 discusses recent neuroimaging studies that explore where such general processes give way to those that are specific to human speech and language.     

Diffusion tensor imaging of dolphin brains reveals direct auditory pathway to temporal lobe

The brains of odontocetes (toothed whales) look grossly different from their terrestrial relatives. Because of their adaptation to the aquatic environment and their reliance on echolocation, the odontocetes'' auditory system is both unique and crucial to their survival. Yet, scant data exist about the functional organization of the cetacean auditory system. A predominant hypothesis is that the primary auditory cortex lies in the suprasylvian gyrus along the vertex of the hemispheres, with this position induced by expansion of ‘associative′ regions in lateral and caudal directions. However, the precise location of the auditory cortex and its connections are still unknown. Here, we used a novel diffusion tensor imaging (DTI) sequence in archival post-mortem brains of a common dolphin (Delphinus delphis) and a pantropical dolphin (Stenella attenuata) to map their sensory and motor systems. Using thalamic parcellation based on traditionally defined regions for the primary visual (V1) and auditory cortex (A1), we found distinct regions of the thalamus connected to V1 and A1. But in addition to suprasylvian-A1, we report here, for the first time, the auditory cortex also exists in the temporal lobe, in a region near cetacean-A2 and possibly analogous to the primary auditory cortex in related terrestrial mammals (Artiodactyla). Using probabilistic tract tracing, we found a direct pathway from the inferior colliculus to the medial geniculate nucleus to the temporal lobe near the sylvian fissure. Our results demonstrate the feasibility of post-mortem DTI in archival specimens to answer basic questions in comparative neurobiology in a way that has not previously been possible and shows a link between the cetacean auditory system and those of terrestrial mammals. Given that fresh cetacean specimens are relatively rare, the ability to measure connectivity in archival specimens opens up a plethora of possibilities for investigating neuroanatomy in cetaceans and other species.     

高压氧不同给氧时机对豚鼠听觉声损伤防治效果的观察

将四组豚鼠在125dBSPL,1KHz强声中暴露3小时。一组动物于声暴露前后吸空气作为对照组。其余三组动物吸2ATA高压氧(HBO),每次30分钟。其中于声暴露前吸1次者为预防组;于声暴露后连续吸14天次者为治疗组;于声暴露前吸1次,声后吸14天次者为HBO防治组。声暴露后,各组动物短声诱发皮层听区电位听阈上升。对照组听力损失最重,达70dB;预防组和防治组仅损失53dB和51dB(同对照组比P<0.01);治疗组损失68.5dB。短纯音测昕结果与此类似。对照组耳蜗病理损伤长度平均为527μm;预防组和防治组分别为142μm和106μm(P<0.05);治疗组为295μm。由此可以认为HBO对声损伤具有显著的预防作用。 文中讨论了高压氧的预防机理及其治疗作用