Refocus on stopping! Replication of reduced right amygdala reactivity to negative, visual primes during inhibition of motor responses

Q4 Neuroscience Neuroimage. Reports Pub Date : 2023-03-01 DOI:10.1016/j.ynirp.2022.100151
Miriam Kampa , Alexandra Sebastian , Oliver Tüscher , Rudolf Stark , Tim Klucken
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Abstract

Several practices contribute to low replication rates in neuroimaging; unreported analytical flexibility, publication biases, the lack of data sharing, the use of underpowered samples, and many more. In the current study, we tried to replicate emotional interference during motor response inhibition in a sample of N = 57 healthy students at a different study site. The failure to inhibit impulses in highly emotional situations is a characteristic of many mental disorders. Apart from this, exaggerated emotional responses can debilitate social and cognitive functioning in healthy participants. Functional magnetic resonance imaging was acquired while participants performed a combined stop signal and Simon task with neutral and negative, visual primes. Negative, visual primes led to prolonged reaction times and stopping latencies. FMRI data showed that negative, visual primes led to increased activation in the bilateral amygdala and enhanced visual processing. Consistent with other studies on emotional interference, we observed decreased activation in regions of the central-executive network and reduced deactivation in the ventromedial prefrontal cortex for negative trials. Replicating the results of our former studies (Kampa et al., 2018, 2020), we found an interaction effect in the right amygdala. Concurrent inhibition of motor responses thus seemed to downregulate the processing of negative stimuli in the right amygdala. We performed exploratory brain-behavior correlation analyses to test if increased right amygdala activation to negative primes was associated with a decrement in performance. We found no such relationship; however, because of the low statistical power, we cannot decide conclusively on the relationship between the right amygdala, and behavioral interference. We discuss potential solutions for overcoming the power problem associated with brain-behavior correlation analyses.

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重新集中精力停止!在抑制运动反应期间,减少右杏仁核对负面视觉启动反应的复制
几种做法导致神经影像学的低复制率;未报告的分析灵活性、出版偏见、缺乏数据共享、使用动力不足的样本等等。在目前的研究中,我们试图在不同研究地点的一个N=57名健康学生的样本中复制运动反应抑制期间的情绪干扰。在高度情绪化的情况下无法抑制冲动是许多精神障碍的特征。除此之外,夸大的情绪反应会削弱健康参与者的社交和认知功能。当参与者在中性和负性视觉素数下执行停止信号和西蒙任务时,获得了功能性磁共振成像。负面的视觉刺激会导致反应时间延长和停止延迟。FMRI数据显示,负面的视觉启动会增加双侧杏仁核的激活,并增强视觉处理。与其他关于情绪干扰的研究一致,在阴性试验中,我们观察到中央执行网络区域的激活减少,腹内侧前额叶皮层的失活减少。复制我们以前的研究结果(Kampa等人,20182020),我们发现右侧杏仁核存在相互作用效应。因此,对运动反应的同时抑制似乎下调了右侧杏仁核对负面刺激的处理。我们进行了探索性的大脑行为相关性分析,以测试右侧杏仁核激活增加到负启动是否与表现下降有关。我们没有发现这样的关系;然而,由于统计能力低,我们无法最终确定右侧杏仁核与行为干预之间的关系。我们讨论了克服与大脑行为相关性分析相关的权力问题的潜在解决方案。
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来源期刊
Neuroimage. Reports
Neuroimage. Reports Neuroscience (General)
CiteScore
1.90
自引率
0.00%
发文量
0
审稿时长
87 days
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