短轴“单周期堆栈式”单次激发压缩感知电影在最小屏气时间内分析小儿心室功能的可靠性。

Reliability of pediatric ventricular function analysis by short-axis "single-cycle-stack-advance" single-shot compressed-sensing cines in minimal breath-hold time.

机构信息

Cardiovascular Magnetic Resonance Unit, Royal Brompton & Harefield NHS Foundation Trust, London, UK.

Research Office, Royal Brompton & Harefield NHS Foundation Trust, London, UK.

出版信息

Eur Radiol. 2022 Apr;32(4):2581-2593. doi: 10.1007/s00330-021-08335-5. Epub 2021 Oct 29.

DOI:10.1007/s00330-021-08335-5

PMID:34713331

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8921124/

Abstract

OBJECTIVES

Cardiovascular magnetic resonance (CMR) cine imaging by compressed sensing (CS) is promising for patients unable to tolerate long breath-holding. However, the need for a steady-state free-precession (SSFP) preparation cardiac cycle for each slice extends the breath-hold duration (e.g. for 10 slices, 20 cardiac cycles) to an impractical length. We investigated a method reducing breath-hold duration by half and assessed its reliability for biventricular volume analysis in a pediatric population.

METHODS

Fifty-five consecutive pediatric patients (median age 12 years, range 7-17) referred for assessment of congenital heart disease or cardiomyopathy were included. Conventional multiple breath-hold SSFP short-axis (SAX) stack cines served as the reference. Real-time CS SSFP cines were applied without the steady-state preparation cycle preceding each SAX cine slice, accepting the limitation of omitting late diastole. The total acquisition time was 1 RR interval/slice. Volumetric analysis was performed for conventional and "single-cycle-stack-advance" (SCSA) cine stacks.

RESULTS

Bland-Altman analyses [bias (limits of agreement)] showed good agreement in left ventricular (LV) end-diastolic volume (EDV) [3.6 mL (- 5.8, 12.9)], LV end-systolic volume (ESV) [1.3 mL (- 6.0, 8.6)], LV ejection fraction (EF) [0.1% (- 4.9, 5.1)], right ventricular (RV) EDV [3.5 mL (- 3.34, 10.0)], RV ESV [- 0.23 mL (- 7.4, 6.9)], and RV EF [1.70%, (- 3.7, 7.1)] with a trend toward underestimating LV and RV EDVs with the SCSA method. Image quality was comparable for both methods (p = 0.37).

CONCLUSIONS

LV and RV volumetric parameters agreed well between the SCSA and the conventional sequences. The SCSA method halves the breath-hold duration of the commercially available CS sequence and is a reliable alternative for volumetric analysis in a pediatric population.

KEY POINTS

• Compressed sensing is a promising accelerated cardiovascular magnetic resonance imaging technique. • We omitted the steady-state preparation cardiac cycle preceding each cine slice in compressed sensing and achieved an acquisition speed of 1 RR interval/slice. • This modification called "single-cycle-stack-advance" enabled the acquisition of an entire short-axis cine stack in a single short breath hold. • When tested in a pediatric patient group, the left and right ventricular volumetric parameters agreed well between the "single-cycle-stack-advance" and the conventional sequences.

摘要

目的

心脏磁共振电影成像的压缩感知（CS）有望用于无法耐受长时间屏气的患者。然而，为每一层准备稳态自由进动（SSFP）心脏周期会延长屏气时间（例如，10 层需要 20 个心脏周期），使其变得不切实际。我们研究了一种将屏气时间减半的方法，并评估了其在儿科人群中进行双心室容积分析的可靠性。

方法

连续纳入 55 例因先天性心脏病或心肌病就诊的儿科患者（中位年龄 12 岁，范围 7-17 岁）。以常规多屏气 SSFP 短轴（SAX）堆栈电影作为参考。实时 CS SSFP 电影在没有为每个 SAX 电影片预先准备稳态周期的情况下应用，接受省略晚期舒张的限制。总采集时间为 1 个 RR 间隔/片。对常规和“单周期堆栈推进”（SCSA）电影堆栈进行容积分析。

结果

Bland-Altman 分析[偏差（一致性界限）]显示左心室（LV）舒张末期容积（EDV）[3.6 mL（-5.8，12.9）]、LV 收缩末期容积（ESV）[1.3 mL（-6.0，8.6）]、LV 射血分数（EF）[0.1%（-4.9，5.1）]、右心室（RV）EDV[3.5 mL（-3.34，10.0）]、RV ESV[-0.23 mL（-7.4，6.9）]和 RV EF[1.70%（-3.7，7.1）]具有良好的一致性，SCSA 方法有低估 LV 和 RV EDV 的趋势。两种方法的图像质量相当（p = 0.37）。

结论

SCSA 和常规序列之间 LV 和 RV 容积参数具有良好的一致性。SCSA 方法将商用 CS 序列的屏气时间减半，是儿科人群容积分析的可靠替代方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/699f/8921124/3f9ed1436492/330_2021_8335_Fig1_HTML.jpg

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短轴“单周期堆栈式”单次激发压缩感知电影在最小屏气时间内分析小儿心室功能的可靠性。

Reliability of pediatric ventricular function analysis by short-axis "single-cycle-stack-advance" single-shot compressed-sensing cines in minimal breath-hold time.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

KEY POINTS

目的

方法

结果

结论

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