SNR 优化的 P 功能 MRS 用于检测视觉刺激过程中线粒体和细胞外 pH 值的变化。

SNR optimized P functional MRS to detect mitochondrial and extracellular pH change during visual stimulation.

机构信息

Department of Radiology, University Medical Center Utrecht, Utrecht, the Netherlands.

出版信息

NMR Biomed. 2019 Nov;32(11):e4137. doi: 10.1002/nbm.4137. Epub 2019 Jul 22.

DOI:10.1002/nbm.4137

PMID:31329342

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6900119/

Abstract

UNLABELLED

Energy metabolism of the human visual cortex was investigated by performing P functional MRS.

INTRODUCTION

The human brain is known to be the main glucose demanding organ of the human body and neuronal activity can increase this energy demand. In this study we investigate whether alterations in pH during activation of the brain can be observed with MRS, focusing on the mitochondrial inorganic phosphate (Pi) pool as potential marker of energy demand.

METHODS

Six participants were scanned with 16 consecutive P-MRSI scans, which were divided in 4 blocks of 8:36 minutes of either rest or visual stimulation. Since the signals from the mitochondrial compartments of Pi are low, multiple approaches to achieve high SNR P measurements were combined. This included: a close fitting P RF coil, a 7 T-field strength, Ernst angle acquisitions and a stimulus with a large visual angle allowing large spectroscopy volumes containing activated tissue.

RESULTS

The targeted resonance downfield of the main Pi peak could be distinguished, indicating the high SNR of the P spectra. The peak downfield of the main Pi peak is believed to be connected to mitochondrial performance. In addition, a BOLD effect in the PCr signal was observed as a signal increase of 2-3% during visual stimulation as compared to rest. When averaging data over multiple volunteers, a small subtle shift of about 0.1 ppm of the downfield Pi peak towards the main Pi peak could be observed in the first 4 minutes of visual stimulation, but no longer in the 4 to 8 minute scan window. Indications of a subtle shift during visual stimulation were found, but this effect remains small and should be further validated.

CONCLUSION

Overall, the downfield peak of Pi could be observed, revealing opportunities and considerations to measure specific acidity (pH) effects in the human visual cortex.

摘要

未加标签

通过进行 P 功能磁共振波谱学研究，研究了人类视觉皮层的能量代谢。

引言

众所周知，人体大脑是人体主要的葡萄糖需求器官，神经元活动会增加这种能量需求。在这项研究中，我们通过磁共振波谱学检查来观察大脑激活过程中 pH 值的变化，重点关注作为能量需求潜在标志物的线粒体无机磷（Pi）池。

方法

对 6 名参与者进行了 16 次连续的 P-MRSI 扫描，这些扫描分为 4 组，每组 8 次，每次 36 分钟，分别为休息或视觉刺激。由于来自 Pi 线粒体隔室的信号较低，因此采用了多种方法来实现高信噪比的 Pi 测量。这包括：紧密贴合的 Pi 射频线圈、7T 场强、恩斯特角采集和具有大视角的刺激，以允许包含激活组织的大光谱体积。

结果

可以区分出主要 Pi 峰的目标共振下峰，表明 Pi 谱的高信噪比。主 Pi 峰的峰下峰被认为与线粒体功能有关。此外，在视觉刺激期间观察到 PCr 信号的 BOLD 效应，与休息相比信号增加了 2-3%。当对多个志愿者的数据进行平均时，在视觉刺激的前 4 分钟内，可以观察到下峰 Pi 峰向主 Pi 峰的微小微妙偏移约 0.1ppm，但在 4 到 8 分钟的扫描窗口内不再观察到。在视觉刺激期间发现了微妙偏移的迹象，但这种效应仍然很小，需要进一步验证。

结论

总体而言，观察到了 Pi 的下峰，为在人类视觉皮层中测量特定酸度（pH）效应提供了机会和考虑因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6fae/6900119/452be2428fe2/NBM-32-na-g001.jpg

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SNR 优化的 P 功能 MRS 用于检测视觉刺激过程中线粒体和细胞外 pH 值的变化。

SNR optimized P functional MRS to detect mitochondrial and extracellular pH change during visual stimulation.

机构信息

出版信息

UNLABELLED

INTRODUCTION

METHODS

RESULTS

CONCLUSION

未加标签

引言

方法

结果

结论

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