在大鼠深部脑刺激和异氟烷诱导的爆发抑制期间，具有 200 毫秒时间分辨率的事件重现多波段 SWIFT 功能 MRI。

Event-recurring multiband SWIFT functional MRI with 200-ms temporal resolution during deep brain stimulation and isoflurane-induced burst suppression in rat.

机构信息

A. I. Virtanen Institute for Molecular Sciences, University of Eastern Finland, Kuopio, Finland.

Center for Magnetic Resonance Research, University of Minnesota, Minneapolis, Minnesota, USA.

出版信息

Magn Reson Med. 2022 Jun;87(6):2872-2884. doi: 10.1002/mrm.29154. Epub 2022 Jan 5.

DOI:10.1002/mrm.29154

PMID:34985145

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9160777/

Abstract

PURPOSE

To develop a high temporal resolution functional MRI method for tracking repeating events in the brain.

METHODS

We developed a novel functional MRI method using multiband sweep imaging with Fourier transformation (SWIFT), termed event-recurring SWIFT (EVER-SWIFT). The method is able to image similar repeating events with subsecond temporal resolution. Here, we demonstrate the use of EVER-SWIFT for detecting functional MRI responses during deep brain stimulation of the medial septal nucleus and during spontaneous isoflurane-induced burst suppression in the rat brain at 9.4 T with 200-ms temporal resolution.

RESULTS

The EVER-SWIFT approach showed that the shapes and time-to-peak values of the response curves to deep brain stimulation significantly differed between downstream brain regions connected to the medial septal nucleus, resembling findings obtained with traditional 2-second temporal resolution. In contrast, EVER-SWIFT allowed for detailed temporal measurement of a spontaneous isoflurane-induced bursting activity pattern, which was not achieved with traditional temporal resolution.

CONCLUSION

The EVER-SWIFT technique enables subsecond 3D imaging of both stimulated and spontaneously recurring brain activities, and thus holds great potential for studying the mechanisms of neuromodulation and spontaneous brain activity.

摘要

目的

开发一种高时间分辨率的功能磁共振成像方法，用于跟踪大脑中的重复事件。

方法

我们开发了一种使用多频带扫频成像与傅里叶变换（SWIFT）的新型功能磁共振成像方法，称为事件重复 SWIFT（EVER-SWIFT）。该方法能够以亚秒级的时间分辨率对相似的重复事件进行成像。在这里，我们演示了 EVER-SWIFT 在 9.4T 下用于检测内侧隔核深部脑刺激期间以及大鼠大脑中自发异氟烷诱导爆发抑制期间的功能磁共振响应的用途，时间分辨率为 200ms。

结果

EVER-SWIFT 方法表明，深部脑刺激的响应曲线的形状和达到峰值的时间值在与内侧隔核相连的下游脑区之间有显著差异，类似于使用传统的 2 秒时间分辨率获得的发现。相比之下，EVER-SWIFT 允许对自发异氟烷诱导的爆发活动模式进行详细的时间测量，而传统的时间分辨率则无法实现。

结论

EVER-SWIFT 技术能够对刺激和自发重复的脑活动进行亚秒级的 3D 成像，因此在研究神经调节和自发脑活动的机制方面具有很大的潜力。

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