The effect of acoustically enriched environment on structure and function of the developing auditory system

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-09-05 DOI:10.1016/j.heares.2024.109110
Zbyněk Bureš , Jana Svobodová Burianová , Kateryna Pysanenko , Josef Syka
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Abstract

It has long been known that environmental conditions, particularly during development, affect morphological and functional properties of the brain including sensory systems; manipulating the environment thus represents a viable way to explore experience-dependent plasticity of the brain as well as of sensory systems. In this review, we summarize our experience with the effects of acoustically enriched environment (AEE) consisting of spectrally and temporally modulated complex sounds applied during first weeks of the postnatal development in rats and compare it with the related knowledge from the literature. Compared to controls, rats exposed to AEE showed in neurons of several parts of the auditory system differences in the dendritic length and in number of spines and spine density. The AEE exposure permanently influenced neuronal representation of the sound frequency and intensity resulting in lower excitatory thresholds, increased frequency selectivity and steeper rate-intensity functions. These changes were present both in the neurons of the inferior colliculus and the auditory cortex (AC). In addition, the AEE changed the responsiveness of AC neurons to frequency modulated, and also to a lesser extent, amplitude-modulated stimuli. Rearing rat pups in AEE leads to an increased reliability of acoustical responses of AC neurons, affecting both the rate and the temporal codes. At the level of individual spikes, the discharge patterns of individual neurons show a higher degree of similarity across stimulus repetitions. Behaviorally, rearing pups in AEE resulted in an improvement in the frequency resolution and gap detection ability under conditions with a worsened stimulus clarity. Altogether, the results of experiments show that the exposure to AEE during the critical developmental period influences the frequency and temporal processing in the auditory system, and these changes persist until adulthood. The results may serve for interpretation of the effects of the application of enriched acoustical environment in human neonatal medicine, especially in the case of care for preterm born children.

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丰富的声学环境对发育中听觉系统结构和功能的影响
众所周知,环境条件(尤其是在发育过程中)会影响大脑(包括感觉系统)的形态和功能特性;因此,操纵环境是探索大脑和感觉系统依赖经验的可塑性的一种可行方法。在这篇综述中,我们总结了在大鼠出生后最初几周内使用由频谱和时间调制的复杂声音组成的声学富集环境(AEE)所产生的影响,并将其与文献中的相关知识进行了比较。与对照组相比,暴露于 AEE 的大鼠听觉系统多个部位的神经元在树突长度、棘突数量和棘突密度方面存在差异。暴露于 AEE 会永久性地影响神经元对声音频率和强度的表征,导致兴奋阈值降低、频率选择性增加以及速率-强度函数变陡。这些变化同时出现在下丘和听觉皮层(AC)的神经元中。此外,AEE还改变了AC神经元对频率调制刺激的反应能力,其次是对振幅调制刺激的反应能力。在 AEE 中饲养幼鼠会提高交流神经元声学反应的可靠性,同时影响速率和时间编码。在单个尖峰水平上,单个神经元的放电模式在刺激重复中显示出更高程度的相似性。从行为上看,在刺激清晰度变差的条件下,用 AEE 饲养幼崽可提高频率分辨率和间隙检测能力。总之,实验结果表明,在发育的关键时期接触 AEE 会影响听觉系统的频率和时间处理,这些变化会一直持续到成年。这些结果可用于解释在人类新生儿医学中应用丰富声学环境的影响,尤其是在早产儿护理中。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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