使用全身31P鸟笼式发射线圈和16元素接收阵列进行7T下的人体心脏代谢成像。

Using a whole-body 31P birdcage transmit coil and 16-element receive array for human cardiac metabolic imaging at 7T.

作者信息

Valkovič Ladislav, Dragonu Iulius, Almujayyaz Salam, Batzakis Alex, Young Liam A J, Purvis Lucian A B, Clarke William T, Wichmann Tobias, Lanz Titus, Neubauer Stefan, Robson Matthew D, Klomp Dennis W J, Rodgers Christopher T

机构信息

Oxford Centre for Clinical Magnetic Resonance Research (OCMR), BHF Centre of Research Excellence, University of Oxford, Oxford, United Kingdom.

Department of Imaging Methods, Institute of Measurement Science, Slovak Academy of Sciences, Bratislava, Slovakia.

出版信息

PLoS One. 2017 Oct 26;12(10):e0187153. doi: 10.1371/journal.pone.0187153. eCollection 2017.

DOI:10.1371/journal.pone.0187153

PMID:29073228

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5658155/

Abstract

PURPOSE

Cardiac phosphorus magnetic resonance spectroscopy (31P-MRS) provides unique insight into the mechanisms of heart failure. Yet, clinical applications have been hindered by the restricted sensitivity of the surface radiofrequency-coils normally used. These permit the analysis of spectra only from the interventricular septum, or large volumes of myocardium, which may not be meaningful in focal disease. Löring et al. recently presented a prototype whole-body (52 cm diameter) transmit/receive birdcage coil for 31P at 7T. We now present a new, easily-removable, whole-body 31P transmit radiofrequency-coil built into a patient-bed extension combined with a 16-element receive array for cardiac 31P-MRS.

MATERIALS AND METHODS

A fully-removable (55 cm diameter) birdcage transmit coil was combined with a 16-element receive array on a Magnetom 7T scanner (Siemens, Germany). Electro-magnetic field simulations and phantom tests of the setup were performed. In vivo maps of B1+, metabolite signals, and saturation-band efficiency were acquired across the torsos of eight volunteers.

RESULTS

The combined (volume-transmit, local receive array) setup increased signal-to-noise ratio 2.6-fold 10 cm below the array (depth of the interventricular septum) compared to using the birdcage coil in transceiver mode. The simulated coefficient of variation for B1+ of the whole-body coil across the heart was 46.7% (surface coil 129.0%); and the in vivo measured value was 38.4%. Metabolite images of 2,3-diphosphoglycerate clearly resolved the ventricular blood pools, and muscle tissue was visible in phosphocreatine (PCr) maps. Amplitude-modulated saturation bands achieved 71±4% suppression of phosphocreatine PCr in chest-wall muscles. Subjects reported they were comfortable.

CONCLUSION

This easy-to-assemble, volume-transmit, local receive array coil combination significantly improves the homogeneity and field-of-view for metabolic imaging of the human heart at 7T.

摘要

目的

心脏磷磁共振波谱成像（31P-MRS）能为心力衰竭机制提供独特见解。然而，临床应用一直受到通常使用的表面射频线圈灵敏度受限的阻碍。这些线圈仅允许从室间隔或大量心肌分析波谱，而这在局灶性疾病中可能并无意义。洛林等人最近展示了一款用于7T场强下31P成像的全身（直径52厘米）发射/接收鸟笼式线圈原型。我们现在展示一种新型的、易于拆卸的全身31P发射射频线圈，它内置在患者床的延伸部分，并与用于心脏31P-MRS的16元接收阵列相结合。

材料与方法

一个完全可移除（直径55厘米）的鸟笼式发射线圈与一个16元接收阵列在一台7T Magnetom扫描仪（德国西门子公司）上相结合。对该装置进行了电磁场模拟和体模测试。在八名志愿者的躯干上采集了体内B1 +、代谢物信号和饱和带效率图谱。

结果

与以收发模式使用鸟笼式线圈相比，组合式（体发射、局部接收阵列）装置在阵列下方10厘米处（室间隔深度）的信噪比提高了2.6倍。全身线圈在心脏区域的B1 +模拟变异系数为46.7%（表面线圈为129.0%）；体内测量值为38.4%。2,3 - 二磷酸甘油酸的代谢物图像清晰地分辨出心室血池，并且在磷酸肌酸（PCr）图谱中可见肌肉组织。调幅饱和带在胸壁肌肉中实现了对磷酸肌酸PCr 71±4%的抑制。受试者表示感觉舒适。

结论

这种易于组装的体发射、局部接收阵列线圈组合显著提高了7T场强下人体心脏代谢成像的均匀性和视野。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e52/5658155/724e3d0dbc54/pone.0187153.g001.jpg

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使用全身31P鸟笼式发射线圈和16元素接收阵列进行7T下的人体心脏代谢成像。

Using a whole-body 31P birdcage transmit coil and 16-element receive array for human cardiac metabolic imaging at 7T.

作者信息

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出版信息

PURPOSE

MATERIALS AND METHODS

RESULTS

CONCLUSION

目的

材料与方法

结果

结论

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