诱发认知电位实验中使用按钮的反应时间(R300)

Klochkova Oi
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引用次数: 0

摘要

诱发认知电位是一种很有前途的实验技术,可用于诊断各种认知障碍,特别是与各种记忆障碍有关的认知障碍。研究人员特别感兴趣的是认知诱发电位的潜伏期,当涉及到各种刺激的识别。目的采用Luria法测定非文字记忆容量。研究在刺激反应中观察到的诱发认知电位的生理性质和功能作用,并确定该反应中涉及的意识控制程度。为此,对实验数据进行统计分析,以确定工作记忆容量与认知电位潜伏期之间的数值相关性。设计对166名健康受试者和63名患有脑病理性疾病(循环性脑病和其他脑循环疾病)的受试者进行认知Eps测量,这些受试者因年龄和性别而异。测量采用Neurosoft neuromvp - 4计算机脑电图系统,该系统采用测量P300波大潜伏期神经反应的标准方法。测量是在设置中完成的,受试者必须识别重要的刺激,并通过按下按钮对它们做出反应。显著的刺激用2 kHz的音调表示,而不显著的刺激用频繁重复的1 kHz的音调表示。脑电波记录在Cz-M1和Cz-M2输出。该方法可以检测N2、P3a和N3的主要响应成分并测量其潜伏期。根据Luria的概述,工作记忆容量是由暴露后不久正确复制的10-15个单词集中的单词数量决定的。结果记忆容量与脑电位潜伏期之间存在显著的非线性关系,并采用修正双曲函数拟合。此外,患有记忆障碍的受试者观察到更大的潜伏期,而男性受试者的潜伏期通常比女性受试者短得多。一个更有趣的观察是,在许多情况下,绝对反应时间小于作为有意识决定的认知潜在峰值,这表明它在许多情况下是一种自动反应。结论:这种认知潜能测量,作为一种工具方法,允许临床心理学家在他的诊断库中有更大的灵活性,因为它甚至可以在单词测试不能使用的情况下使用。同时,对刺激的反应时间比有意识反应的潜伏期短,也为自动反应的同时编码理论增加了分量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Time of Reaction in Using the Pushing of Button in Exper- iment of Evoked Cognitive Potentials (R300)
Background Evoked cognitive potentials are a promising experimental technique that can be useful in diagnosis of various cognitive disorders, especially connected to the various memory impairments. Of particular interest to researchers is the study of the cognitive evoked potentials’ latency when recognition of various stimuli is involved. Objective The method of Luria was used to determine the volume of verbal memory. To study the physiological nature and functional role of evoked cognitive potentials observed during the reaction to stimuli, and to determine the degree of conscious control involved in this reaction. To do so the experimental data were statistically analyzed to determine the numerical correlation between the working memory capacity and the cognitive potential’s latency. Design The cognitive Eps were measured for 166 healthy subjects and 63 others that had some pathological brain condition (circulatory encephalopathy and other brain circulatory disorders), varied by the age and gender. Measurements were done with the Neurosoft Neuro-MVP 4 computerized encephalography system, which implemented the standard method of large latency neural response measurement for P300 waves. Measurements were done in the setup where the subject had to recognize the significant stimuli and react to them by pressing a button. The significant stimulus was represented by a 2 kHz tone, while the insignificant stimuli were the frequently repeated 1 kHz tones. The brainwaves were registered in Cz-M1 and Cz-M2 outputs. This method allowed detection and latency measurements of the main response components N2, P3a and N3. Working memory capacity was determined by the number of words from a 10-15 word sets correctly reproduced shortly after exposures, as outlined by Luria. Results A statistically significant non-linear correlation was observed between the memory capacity and the EP’s latency, which was fitted by a modified hyperbolic function. Additionally, greater latencies were observed for subjects suffering from the memory disorders, and much shorter latencies were in general noted for the male subjects as opposed to the female ones. One more interesting observation was that in many cases the absolute reaction time was less than the cognitive potential peak taken as a conscious decision, suggesting that it is in many cases an automatic reaction. Conclusions: This cognitive potentials measurement, being an instrumental method, allows a clinical psychologist much greater flexibility in his diagnostic repertory, as it can be used even in the cases where word tests cannot. Also, the reaction time shorter than the latency of conscious reaction to stimuli adds weight to the simultaneous codes theory of automatic reactions.
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