The impact of electrode selection for ocular correction on the reward positivity and late positive potential components in adolescents.

Psychophysiology Pub Date : 2024-03-01 Epub Date: 2023-12-04 DOI:10.1111/psyp.14497
Samantha Pegg, Anh Dao, Lisa Venanzi, Kaylin Hill, Autumn Kujawa
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Abstract

Electroencephalography (EEG) data processing to derive event-related potentials (ERPs) follows a standard set of procedures to maximize signal-to-noise ratio. This often includes ocular correction, which corrects for artifacts introduced by eye movements, typically measured by electrooculogram (EOG) using facial electrodes near the eyes. Yet, attaching electrodes to the face may be uncomfortable for some populations, best to avoid in some situations, and contribute to data loss. Eye movements can also be measured using electrodes in a standard 10-20 EEG cap. An examination of the impact of electrode selection on ERPs is needed to inform best practices. The present study examined data quality when using different electrodes to measure eye movements for ocular correction (i.e., facial electrodes, cap electrodes, and no ocular correction) for two well-established and widely studied ERP components (i.e., reward positivity, RewP; and late positive potential, LPP) elicited in adolescents (N = 34). Results revealed comparable split-half reliability and standardized measurement error (SME) between facial and cap electrode approaches, with lower SME for the RewP with facial or cap electrodes compared to no ocular correction. Few significant differences in mean amplitude of ERPs were observed, but the LPP to positive images differed when using facial compared to cap electrodes. Findings provide preliminary evidence of the ability to collect high-quality ERP data without facial electrodes. However, when using cap electrodes for EOG measurement and ocular correction, it is recommended to use consistent procedures across the sample or statistically examine the impact of ocular correction procedures on results.

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矫正电极选择对青少年奖赏正性和晚期正电位成分的影响。
脑电图(EEG)数据处理得到事件相关电位(erp)遵循一套标准的程序,以最大限度地提高信噪比。这通常包括眼部矫正,它纠正由眼球运动引起的伪影,通常通过眼电图(EOG)测量,使用靠近眼睛的面部电极。然而,对某些人群来说,将电极贴在脸上可能会不舒服,在某些情况下最好避免,并且会导致数据丢失。眼球运动也可以使用标准10-20 EEG帽中的电极来测量。需要检查电极选择对erp的影响,以提供最佳实践信息。本研究考察了使用不同电极测量眼球运动以进行眼部矫正(即面部电极、帽电极和不进行眼部矫正)时的数据质量,这些电极测量了两个已建立并被广泛研究的ERP成分(即奖励积极性、RewP;晚期阳性电位(LPP)在青少年中诱发(N = 34)。结果显示,面部和帽电极方法之间的分半可靠性和标准化测量误差(SME)相当,与没有眼部矫正相比,使用面部或帽电极的RewP的SME更低。观察到的erp平均振幅差异不大,但与帽电极相比,使用面部电极对阳性图像的LPP有所不同。研究结果为不使用面部电极收集高质量ERP数据的能力提供了初步证据。然而,当使用帽电极进行眼电测量和眼部矫正时,建议在整个样本中使用一致的程序或统计检查眼部矫正程序对结果的影响。
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