An affordable solution for investigating zebra finch intracranial electroencephalography (iEEG) signals

Mohammad-Mahdi Abolghasemi, Shahriar Rezghi Shirsavar, Milad Yekani
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Abstract

The Zebra finch is a well-studied animal for studying neural mechanisms of speech, and electrophysiology is the primary technique for understanding the song system in them. Most of the studies on zebra finches have focused on intracerebral recordings. However, these methods are only affordable for limited laboratories. Recently, different open-source hardware for acquiring EEG signals has been developed. It is unclear whether these solutions suit zebra finch studies as they have not been evaluated. Electrocorticography signals can provide a preliminary guide for more in-depth inquiries and also aid in understanding the global behavior of the bird's brain, as opposed to the more common localized approach. We provide a detailed protocol for acquiring iEEG data from zebra finches with an open-source device. We implemented stainless steel electrodes on the brain's surface and recorded the brain signals from two recording sites. To validate our method, we ran two different experiments. In the first experiment, we recorded neural activity under various concentrations of isoflurane and extracted the suppression duration to measure anesthesia depth. In the second experiment, we head-fixed the birds and presented them with different auditory stimuli to evaluate event-related potential (ERP). Results showed a significant increase in the suppression duration by increasing the anesthesia depth and evident ERP response to auditory stimuli. These findings indicate that by our methodology, we can successfully collect iEEG signals from awake and anesthetized birds. These findings pave the way for future studies to use iEEG to investigate bird cognition.
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研究斑马鱼颅内脑电图(iEEG)信号的经济型解决方案
斑马雀是一种研究语言神经机制的动物,电生理学是了解斑马雀鸣唱系统的主要技术。对斑马雀的研究大多集中于脑内记录。然而,这些方法只有有限的实验室才能负担得起。最近,用于采集脑电信号的各种开源硬件相继问世。由于尚未对这些解决方案进行评估,因此尚不清楚它们是否适合斑马鱼研究。皮层电图信号可以为更深入的研究提供初步指导,也有助于了解斑马鱼大脑的整体行为,而不是更常见的局部行为。我们提供了使用开源设备获取斑马雀 iEEG 数据的详细方案。我们在大脑表面安装了不锈钢电极,并从两个记录点记录大脑信号。为了验证我们的方法,我们进行了两个不同的实验。在第一个实验中,我们记录了不同浓度异氟醚下的神经活动,并提取了抑制持续时间来测量麻醉深度。在第二项实验中,我们将鸟类头部固定,并向其提供不同的听觉刺激,以评估事件相关电位(ERP)。结果显示,随着麻醉深度的增加,抑制持续时间明显延长,听觉刺激的ERP反应也明显增加。这些发现表明,通过我们的方法,我们可以成功地从清醒和麻醉的鸟类身上收集 iEEG 信号。这些发现为今后利用iEEG研究鸟类认知铺平了道路。
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