利用氘代谢成像在 3T 下对中枢神经系统病变患者进行葡萄糖代谢的 3D 图谱绘制。
Deuterium metabolic imaging for 3D mapping of glucose metabolism in humans with central nervous system lesions at 3T.
机构信息
Department of Electrical Engineering, Stanford University, Stanford, California, USA.
Department of Radiology, Stanford University, Stanford, California, USA.
出版信息
Magn Reson Med. 2024 Jan;91(1):39-50. doi: 10.1002/mrm.29830. Epub 2023 Oct 5.
Abstract
PURPOSE
To explore the potential of 3T deuterium metabolic imaging (DMI) using a birdcage H radiofrequency (RF) coil in both healthy volunteers and patients with central nervous system (CNS) lesions.
METHODS
A modified gradient filter, home-built H volume RF coil, and spherical k-space sampling were employed in a three-dimensional chemical shift imaging acquisition to obtain high-quality whole-brain metabolic images of H-labeled water and glucose metabolic products. These images were acquired in a healthy volunteer and three subjects with CNS lesions of varying pathologies. Hardware and pulse sequence experiments were also conducted to improve the signal-to-noise ratio of DMI at 3T.
RESULTS
The ability to quantify local glucose metabolism in correspondence to anatomical landmarks across patients with varying CNS lesions is demonstrated, and increased lactate is observed in one patient with the most active disease.
CONCLUSION
DMI offers the potential to examine metabolic activity in human subjects with CNS lesions with DMI at 3T, promising for the potential of the future clinical translation of this metabolic imaging technique.
摘要
目的
探讨使用鸟笼 H 射频(RF)线圈在健康志愿者和中枢神经系统(CNS)病变患者中进行 3T 氘代谢成像(DMI)的潜力。
方法
在三维化学位移成像采集中采用改良的梯度滤波器、自制的 H 容积 RF 线圈和球形 k 空间采样,以获得高质量的 H 标记水和葡萄糖代谢产物的全脑代谢图像。这些图像是在一名健康志愿者和三名患有不同病理 CNS 病变的受试者中获得的。还进行了硬件和脉冲序列实验,以提高 3T 时 DMI 的信噪比。
结果
证明了在具有不同 CNS 病变的患者中,根据解剖标志对局部葡萄糖代谢进行定量的能力,并在一名疾病活动度最高的患者中观察到乳酸增加。
结论
DMI 有可能在 3T 时对患有 CNS 病变的人体受试者进行代谢活性检查,有望为该代谢成像技术的未来临床转化提供可能。
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