Improving the temporal resolution of 3D phase contrast MR angiography using keyhole technique at low tesla open-MRI system

机译：在低特斯拉开放式MRI系统中使用锁孔技术提高3D相衬MR血管造影的时间分辨率

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Phase Contrast MR Angiography (PC MRA) takes longer scan time than other MRA technique. Especially, the 3D PC MRA images obtaining at low tesla MRI system takes more long scan time because the lower characteristic of hardware system than high tesla MRI system. The keyhole imaging was introduced that is a simple way to increase the temporal resolution of dynamic imaging studies. In this study, we applied the keyhole imaging technique to 3D PC MRA for improving the temporal resolution at low tesla MRI system. We also validated image quality and usefulness of combination of two techniques. All image data were obtained on a MagfinderII (Genpia, Korea) 0.32T MRI system. Using the 3D PC MRA pulse sequence, the vascular images for a human brain targeted on the Superior Sagittal Sinus (SSS) and Circle of Willis were obtained. The reference image was acquired fully sampled k-space data without velocity encoding gradients. Three flow sensitive images were obtained low frequency parts of k-space. The keyhole factor was used from 12.5% to 50% of the full k-space. We also used tukey window function to minimize the erroneous effects induced from frequency discontinuous. Moreover, the artifact power (AP) value was measured to validate the reconstructed image quality. Based on the our results, image artifacts that were considered as frequency discontinuous using the keyhole reconstruction were shown until use the 12.5% and 25% keyhole factors. Using above 50% keyhole factors, the images are similar to original image and the vessels in the brain are well observed. In conclusion, reconstructed images using keyhole technique combined 3D PC MRA data are enough to application at low tesla MRI system. Although our results are in the early stage of keyhole imaging and draw a conclusion from restrictive number of subjects, we considered that keyhole technique combined 3D PC MRA will give some advantages for improving the temporal resolution at low tesla MRI system.

机译：相衬MR血管造影（PC MRA）比其他MRA技术需要更长的扫描时间。尤其是，在低特斯拉MRI系统上获取的3D PC MRA图像需要更长的扫描时间，因为硬件系统的性能低于高特斯拉MRI系统。引入了锁孔成像，这是提高动态成像研究的时间分辨率的一种简单方法。在这项研究中，我们将锁孔成像技术应用于3D PC MRA，以提高低特斯拉MRI系统的时间分辨率。我们还验证了两种技术相结合的图像质量和实用性。所有图像数据均在MagfinderII（韩国Genpia）0.32T MRI系统上获得。使用3D PC MRA脉冲序列，获得了针对人的上矢状窦（SSS）和威利斯环的人脑血管图像。参考图像是在没有速度编码梯度的情况下采集的全采样k空间数据。获得了三个流动敏感图像，它们是k空间的低频部分。锁孔系数占整个k空间的12.5％至50％。我们还使用了tukey窗口函数来最大程度地减少频率不连续所引起的错误影响。此外，测量了伪像功率（AP）值以验证重建的图像质量。根据我们的结果，显示了使用锁孔重建被视为频率不连续的图像伪影，直到使用了12.5％和25％的锁孔因子。使用50％以上的钥匙孔因子，图像类似于原始图像，并且可以很好地观察到大脑中的血管。总之，使用锁孔技术结合3D PC MRA数据重建的图像足以在低特斯拉MRI系统中应用。尽管我们的结果仍处于锁孔成像的早期阶段，并从受限制的受试者人数中得出结论，但我们认为，结合3D PC MRA的锁孔技术将为提高低特斯拉MRI系统的时间分辨率提供一些优势。

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《Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC), 2011 IEEE》|2011年|p.3459-3461|共3页
会议地点 Valencia(ES)
作者
Lee Dong-Hoon; Hong Cheol-Pyo; Lee Man-Woo; Kim Hyoung-Jin; Jung Jae-Ho; Shin Woo-Ho; Kang Jin-Gu; Kang Su-Jin; Han Bong-Soo;
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Department of Radiological Science, Yonsei University, Wonju, Gangwondo, Korea;

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1. On Improving Temporal and Spatial Resolution of 3D Contrast-enhanced Body MR Angiography with Parallel Imaging. [J] . Chen Q, Quijano CV, Mai VM, Radiology . 2004,第3期

机译：关于通过并行成像提高3D对比度增强的人体MR血管造影的时空分辨率。
2. 3D time-of-flight MR angiography of the intracranial vessels: optimization of the technique with water excitation, parallel acquisition, eight-channel phased-array head coil and low-dose contrast administration. [J] . Ozsarlak O, Van Goethem JW, Parizel PM European radiology . 2004,第11期

机译：颅内血管的3D飞行时间MR血管造影：通过水激励，并行采集，八通道相控阵头线圈和低剂量对比剂给药对技术进行优化。
3. PC VIPR: A High-Speed 3D Phase-Contrast Method for Flow Quantification and High-Resolution Angiography [J] . Tianliang Gu, Frank R. Korosec, Walter F. Block, American Journal of Neuroradiology . 2005,第4期

机译：PC VIPR：用于流量量化和高分辨率血管造影的高速3D相衬方法
4. Improving the temporal resolution of 3D phase contrast MR angiography using keyhole technique at low tesla open-MRI system [C] . Lee Dong-Hoon, Hong Cheol-Pyo, Lee Man-Woo, IEEE Nuclear Science Symposium and Medical Imaging Conference . 2011

机译：低Tesla Open-MRI系统中锁孔技术提高3D相对比MR血管造影的时间分辨率
5. Improved temporal and spatial resolution in time -resolved contrast -enhanced magnetic resonance angiography. [D] . Vigen, Karl Kristopher. 2000

机译：在时间分辨的对比增强磁共振血管造影中改善了时间和空间分辨率。
6. PC VIPR: A High-Speed 3D Phase-Contrast Method for Flow Quantification and High-Resolution Angiography [O] . Tianliang Gu, Frank R. Korosec, Walter F. Block, 2005

机译：PC VIPR：用于流量量化和高分辨率血管造影的高速3D相位对比度方法
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Improving the temporal resolution of 3D phase contrast MR angiography using keyhole technique at low tesla open-MRI system

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