出生后发育关键期声富集环境对成年大鼠间隙探测和频率识别能力有正向调节作用。

IF 3.1 4区 医学 Q2 Medicine
Neural Plasticity Pub Date : 2021-03-12 eCollection Date: 2021-01-01 DOI:10.1155/2021/6611922
Kateryna Pysanenko, Natalia Rybalko, Zbyněk Bureš, Daniel Šuta, Jiří Lindovský, Josef Syka
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引用次数: 4

摘要

在整个生命过程中,感觉系统会适应感觉环境,为相关任务提供最佳反应。在一个发育中的系统中,感官输入引起的变化是永久性的,直到成年后都可以检测到。之前,我们已经证明,从出生后第14天(P14)到第28天,在复杂的声学环境(频谱和时间调制的声音)中饲养大鼠幼崽,永久性地改善了下丘和听觉皮层神经元的反应特征,影响了张力局部排列、反应阈值和强度、频率选择性,以及神经元尖峰模式的随机性和可重复性。在这项研究中,我们使用了一套基于声惊吓反应(ASR)及其脉冲前抑制(PPI)记录的行为测试,旨在进一步证明发育性声增强的持续有益作用。营养丰富的动物通常对令人震惊的声音并不更敏感,而且,由噪音或纯音脉冲引起的ASR PPI与对照组相当。然而,当脉冲前刺激表现为背景音频率的变化或背景噪音的无声间隙时,他们确实表现出更明显的PPI。在较低(55 dB SPL)的背景声强度下,强化组与对照组的ASR PPI差异显著,而在较高(65 ~ 75 dB SPL)的背景声强度下差异不显著。因此,在声音丰富的环境中饲养幼鼠,在更困难的测试条件下,频率分辨率和间隙检测能力得到提高,即刺激清晰度变差。我们通过行为测试证实,在发育的关键时期,声音丰富的环境会影响听觉系统的频率和时间处理,这些变化会持续到成年。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Acoustically Enriched Environment during the Critical Period of Postnatal Development Positively Modulates Gap Detection and Frequency Discrimination Abilities in Adult Rats.

Acoustically Enriched Environment during the Critical Period of Postnatal Development Positively Modulates Gap Detection and Frequency Discrimination Abilities in Adult Rats.

Acoustically Enriched Environment during the Critical Period of Postnatal Development Positively Modulates Gap Detection and Frequency Discrimination Abilities in Adult Rats.

Acoustically Enriched Environment during the Critical Period of Postnatal Development Positively Modulates Gap Detection and Frequency Discrimination Abilities in Adult Rats.

Throughout life, sensory systems adapt to the sensory environment to provide optimal responses to relevant tasks. In the case of a developing system, sensory inputs induce changes that are permanent and detectable up to adulthood. Previously, we have shown that rearing rat pups in a complex acoustic environment (spectrally and temporally modulated sound) from postnatal day 14 (P14) to P28 permanently improves the response characteristics of neurons in the inferior colliculus and auditory cortex, influencing tonotopical arrangement, response thresholds and strength, and frequency selectivity, along with stochasticity and the reproducibility of neuronal spiking patterns. In this study, we used a set of behavioral tests based on a recording of the acoustic startle response (ASR) and its prepulse inhibition (PPI), with the aim to extend the evidence of the persistent beneficial effects of the developmental acoustical enrichment. The enriched animals were generally not more sensitive to startling sounds, and also, their PPI of ASR, induced by noise or pure tone pulses, was comparable to the controls. They did, however, exhibit a more pronounced PPI when the prepulse stimulus was represented either by a change in the frequency of a background tone or by a silent gap in background noise. The differences in the PPI of ASR between the enriched and control animals were significant at lower (55 dB SPL), but not at higher (65-75 dB SPL), intensities of background sound. Thus, rearing pups in the acoustically enriched environment led to an improvement of the frequency resolution and gap detection ability under more difficult testing conditions, i.e., with a worsened stimulus clarity. We confirmed, using behavioral tests, that an acoustically enriched environment during the critical period of development influences the frequency and temporal processing in the auditory system, and these changes persist until adulthood.

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来源期刊
Neural Plasticity
Neural Plasticity Neuroscience-Neurology
CiteScore
5.70
自引率
0.00%
发文量
0
审稿时长
1 months
期刊介绍: Neural Plasticity is an international, interdisciplinary journal dedicated to the publication of articles related to all aspects of neural plasticity, with special emphasis on its functional significance as reflected in behavior and in psychopathology. Neural Plasticity publishes research and review articles from the entire range of relevant disciplines, including basic neuroscience, behavioral neuroscience, cognitive neuroscience, biological psychology, and biological psychiatry.
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