Age Differences in Learning-Related Neurophysiological Changes

IF 0.9 4区 心理学 Q4 NEUROSCIENCES
Angelica M. Tinga, N. Menger, Tycho T. de Back, M. Louwerse
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引用次数: 1

Abstract

Abstract. Research in young adults has demonstrated that neurophysiological measures are able to provide insight into learning processes. However, to date, it remains unclear whether neurophysiological changes during learning in older adults are comparable to those in younger adults. The current study addressed this issue by exploring age differences in changes over time in a range of neurophysiological outcome measures collected during visuomotor sequence learning. Specifically, measures of electroencephalography (EEG), skin conductance, heart rate, heart rate variability, respiration rate, and eye-related measures, in addition to behavioral performance measures, were collected in younger ( Mage = 27.24 years) and older adults ( Mage = 58.06 years) during learning. Behavioral responses became more accurate over time in both age groups during visuomotor sequence learning. Yet, older adults needed more time in each trial to enhance the precision of their movement. Changes in EEG during learning demonstrated a stronger increase in theta power in older compared to younger adults and a decrease in gamma power in older adults while increasing slightly in younger adults. No such differences between the two age groups were found on other neurophysiological outcome measures, suggesting changes in brain activity during learning to be more sensitive to age differences than changes in peripheral physiology. Additionally, differences in which neurophysiological outcomes were associated with behavioral performance on the learning task were found between younger and older adults. This indicates that the neurophysiological underpinnings of learning may differ between younger and older adults. Therefore, the current findings highlight the importance of taking age into account when aiming to gain insight into behavioral performance through neurophysiology during learning.
学习相关神经生理变化的年龄差异
摘要对年轻人的研究表明,神经生理学测量能够提供对学习过程的洞察。然而,到目前为止,尚不清楚老年人在学习过程中的神经生理变化是否与年轻人具有可比性。目前的研究通过探索视觉运动序列学习期间收集的一系列神经生理结果测量值随时间变化的年龄差异来解决这个问题。具体而言,除了行为表现测量外,还收集了学习期间年轻人(年龄27.24岁)和老年人(年龄58.06岁)的脑电图(EEG)、皮肤电导、心率、心率变异性、呼吸率和眼睛相关测量。随着时间的推移,在视觉运动序列学习过程中,两个年龄组的行为反应都变得更加准确。然而,老年人在每次试验中需要更多的时间来提高他们的运动精度。学习过程中脑电图的变化表明,老年人的θ波功率比年轻人增加得更多,老年人的伽马波功率减少,而年轻人则略有增加。在其他神经生理结果测量中,两个年龄组之间没有发现这种差异,这表明在学习过程中大脑活动的变化对年龄差异比周围生理的变化更敏感。此外,在学习任务中的神经生理结果与行为表现之间的差异在年轻人和老年人之间被发现。这表明学习的神经生理基础可能在年轻人和老年人之间有所不同。因此,目前的研究结果强调了在学习过程中通过神经生理学来了解行为表现时考虑年龄的重要性。
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来源期刊
Journal of Psychophysiology
Journal of Psychophysiology 医学-神经科学
CiteScore
2.60
自引率
7.70%
发文量
25
审稿时长
>12 weeks
期刊介绍: The Journal of Psychophysiology is an international periodical that presents original research in all fields employing psychophysiological measures on human subjects. Contributions are published from psychology, physiology, clinical psychology, psychiatry, neurosciences, and pharmacology. Communications on new psychophysiological methods are presented as well. Space is also allocated for letters to the editor and book reviews. Occasional special issues are devoted to important current issues in psychophysiology.
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