使用同步多层成像和压缩感知加速技术，在长饱和时间下进行全收缩期首次通过心肌静息灌注。

All-systolic first-pass myocardial rest perfusion at a long saturation time using simultaneous multi-slice imaging and compressed sensing acceleration.

作者信息

Ferrazzi Giulio, McElroy Sarah, Neji Radhouene, Kunze Karl P, Nazir Muhummad Sohaib, Speier Peter, Stäb Daniel, Forman Christoph, Razavi Reza, Chiribiri Amedeo, Roujol Sébastien

机构信息

School of Biomedical Engineering and Imaging Sciences, Faculty of Life Sciences and Medicine, King's College London, London, United Kingdom.

IRCCS San Camillo Hospital, Venice, Italy.

出版信息

Magn Reson Med. 2021 Aug;86(2):663-676. doi: 10.1002/mrm.28712. Epub 2021 Mar 10.

DOI:10.1002/mrm.28712

PMID:33749026

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7611406/

Abstract

PURPOSE

To enable all-systolic first-pass rest myocardial perfusion with long saturation times. To investigate the change in perfusion contrast and dark rim artefacts through simulations and surrogate measurements.

METHODS

Simulations were employed to investigate optimal saturation time for myocardium-perfusion defect contrast and blood-to-myocardium signal ratios. Two saturation recovery blocks with long/short saturation times (LTS/STS) were employed to image 3 slices at end-systole and diastole. Simultaneous multi-slice balanced steady state free precession imaging and compressed sensing acceleration were combined. The sequence was compared to a 3 slice-by-slice clinical protocol in 10 patients. Quantitative assessment of myocardium-peak pre contrast and blood-to-myocardium signal ratios, as well as qualitative assessment of perceived SNR, image quality, blurring, and dark rim artefacts, were performed.

RESULTS

Simulations showed that with a bolus of 0.075 mmol/kg, a LTS of 240-470 ms led to a relative increase in myocardium-perfusion defect contrast of 34% ± 9%-28% ± 27% than a STS = 120 ms, while reducing blood-to-myocardium signal ratio by 18% ± 10%-32% ± 14% at peak myocardium. With a bolus of 0.05 mmol/kg, LTS was 320-570 ms with an increase in myocardium-perfusion defect contrast of 63% ± 13%-62% ± 29%. Across patients, LTS led to an average increase in myocardium-peak pre contrast of 59% (P < .001) at peak myocardium and a lower blood-to-myocardium signal ratio of 47% (P < .001) and 15% (P < .001) at peak blood/myocardium. LTS had improved motion robustness (P = .002), image quality (P < .001), and decreased dark rim artefacts (P = .008) than the clinical protocol.

CONCLUSION

All-systolic rest perfusion can be achieved by combining simultaneous multi-slice and compressed sensing acceleration, enabling 3-slice cardiac coverage with reduced motion and dark rim artefacts. Numerical simulations indicate that myocardium-perfusion defect contrast increases at LTS.

摘要

目的

实现具有长饱和时间的全收缩期首次通过静息心肌灌注。通过模拟和替代测量研究灌注对比和暗边伪影的变化。

方法

采用模拟研究心肌灌注缺损对比和血心肌信号比的最佳饱和时间。采用两个具有长/短饱和时间（LTS/STS）的饱和恢复块在收缩末期和舒张末期对3个层面进行成像。将同时多层平衡稳态自由进动成像与压缩感知加速相结合。将该序列与10例患者的3个层面逐层面临床方案进行比较。对心肌对比剂峰值前和血心肌信号比进行定量评估，以及对感知信噪比、图像质量、模糊和暗边伪影进行定性评估。

结果

模拟显示，在团注剂量为0.075 mmol/kg时，与STS = 120 ms相比，240 - 470 ms的LTS导致心肌灌注缺损对比相对增加34% ± 9% - 28% ± 27%，同时在心肌峰值时血心肌信号比降低18% ± 10% - 32% ± 14%。在团注剂量为0.05 mmol/kg时，LTS为320 - 570 ms，心肌灌注缺损对比增加63% ± 13% - 62% ± 29%。在所有患者中，LTS导致心肌峰值时心肌对比剂峰值前平均增加59%（P <.001），在血/心肌峰值时血心肌信号比降低47%（P <.001）和15%（P <.001）。与临床方案相比，LTS具有更好的运动稳健性（P =.002）、图像质量（P <.001），且暗边伪影减少（P =.008）。

结论

通过同时多层和压缩感知加速相结合可实现全收缩期静息灌注，实现3个层面的心脏覆盖，减少运动和暗边伪影。数值模拟表明，在长饱和时间下心肌灌注缺损对比增加。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d2d0/7611406/0f7fe7a39f05/EMS128764-f001.jpg

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使用同步多层成像和压缩感知加速技术，在长饱和时间下进行全收缩期首次通过心肌静息灌注。

All-systolic first-pass myocardial rest perfusion at a long saturation time using simultaneous multi-slice imaging and compressed sensing acceleration.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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