使用度量优化门控进行胎儿心脏动态成像。

Dynamic imaging of the fetal heart using metric optimized gating.

机构信息

Departments of Medical Biophysics and Medical Imaging, University of Toronto, Toronto, Canada.

出版信息

Magn Reson Med. 2013 Dec;70(6):1598-607. doi: 10.1002/mrm.24614. Epub 2013 Feb 4.

DOI:10.1002/mrm.24614

PMID:23382068

Abstract

PURPOSE

Advances in fetal cardiovascular magnetic resonance imaging have been limited by the absence of a reliable cardiac gating signal. The purpose of this work was to develop and validate metric-optimized gating (MOG) for cine imaging of the fetal heart.

THEORY AND METHODS

Cine MR and electrocardiogram data were acquired in healthy adult volunteers for validation of the MOG method. Comparison of MOG and electrocardiogram reconstructions was performed based on the image quality for each method, and the difference between MOG and electrocardiogram trigger times. Fetal images were also acquired, their quality evaluated by experienced radiologists, and the theoretical error in the MOG trigger times were calculated.

RESULTS

Excellent agreement between electrocardiogram and MOG reconstructions was observed. The experimental errors in adult MOG trigger times for all five volunteers were ± (7, 25, 17, 8, and 13) ms. Fetal images captured normal and diseased cardiac dynamics.

CONCLUSION

MOG for cine imaging of the fetal myocardium was developed and validated in adults. Using MOG, the first gated MR images of the human fetal myocardium were obtained. Small moving structures were visualized during radial contraction, thus capturing normal fetal cardiac wall motion and permitting assessment of cardiac function.

摘要

目的

胎儿心血管磁共振成像的进展受到缺乏可靠的心脏门控信号的限制。本研究旨在开发和验证用于胎儿心脏电影成像的度量优化门控（MOG）方法。

理论与方法

在健康成年志愿者中采集电影磁共振和心电图数据，以验证 MOG 方法。基于每种方法的图像质量和 MOG 与心电图触发时间的差异，对 MOG 和心电图重建进行了比较。还采集了胎儿图像，由有经验的放射科医生对其质量进行评估，并计算了 MOG 触发时间的理论误差。

结果

观察到心电图和 MOG 重建之间具有极好的一致性。对于所有五个志愿者，成人 MOG 触发时间的实验误差分别为±（7、25、17、8 和 13）ms。胎儿图像捕捉到了正常和病变的心脏动力学。

结论

在成人中开发并验证了用于胎儿心肌电影成像的 MOG。使用 MOG，获得了人类胎儿心肌的首个门控磁共振图像。在径向收缩期间可以可视化小的运动结构，从而捕捉正常胎儿的心脏壁运动，并允许评估心脏功能。

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使用度量优化门控进行胎儿心脏动态成像。

Dynamic imaging of the fetal heart using metric optimized gating.

机构信息

出版信息

PURPOSE

THEORY AND METHODS

RESULTS

CONCLUSION

目的

理论与方法

结果

结论

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