使用呼吸运动校正平均法的自由呼吸T2* 映射

Free-breathing T2* mapping using respiratory motion corrected averaging.

作者信息

Kellman Peter, Xue Hui, Spottiswoode Bruce S, Sandino Christopher M, Hansen Michael S, Abdel-Gadir Amna, Treibel Thomas A, Rosmini Stefania, Mancini Christine, Bandettini W Patricia, McGill Laura-Ann, Gatehouse Peter, Moon James C, Pennell Dudley J, Arai Andrew E

机构信息

National Heart, Lung, and Blood Institute, National Institutes of Health, DHHS, 10 Center Drive MSC-1061, Bethesda 20892, MD, USA.

出版信息

J Cardiovasc Magn Reson. 2015 Jan 24;17(1):3. doi: 10.1186/s12968-014-0106-9.

DOI:10.1186/s12968-014-0106-9

PMID:25616857

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4305251/

Abstract

BACKGROUND

Pixel-wise T2* maps based on breath-held segmented image acquisition are prone to ghost artifacts in instances of poor breath-holding or cardiac arrhythmia. Single shot imaging is inherently immune to ghost type artifacts. We propose a free-breathing method based on respiratory motion corrected single shot imaging with averaging to improve the signal to noise ratio.

METHODS

Images were acquired using a multi-echo gradient recalled echo sequence and T2* maps were calculated at each pixel by exponential fitting. For 40 subjects (2 cohorts), two acquisition protocols were compared: (1) a breath-held, segmented acquisition, and (2) a free-breathing, single-shot multiple repetition respiratory motion corrected average. T2* measurements in the interventricular septum and liver were compared for the 2-methods in all studies with diagnostic image quality.

RESULTS

In cohort 1 (N = 28) with age 51.4 ± 17.6 (m ± SD) including 1 subject with severe myocardial iron overload, there were 8 non-diagnostic breath-held studies due to poor image quality resulting from ghost artifacts caused by respiratory motion or arrhythmias. In cohort 2 (N = 12) with age 30.9 ± 7.5 (m ± SD), including 7 subjects with severe myocardial iron overload and 4 subjects with mild iron overload, a single subject was unable to breath-hold. Free-breathing motion corrected T2* maps were of diagnostic quality in all 40 subjects. T2* measurements were in excellent agreement (In cohort #1, T2FB = 0.95 x T2BH + 0.41, r2 = 0.93, N = 39 measurements, and in cohort #2, T2FB = 0.98 x T2BH + 0.05, r2 > 0.99, N = 22 measurements).

CONCLUSIONS

A free-breathing approach to T2* mapping is demonstrated to produce consistently good quality maps in the presence of respiratory motion and arrhythmias.

摘要

背景

基于屏气分段图像采集的逐像素T2*图在屏气不佳或心律失常的情况下容易出现鬼影伪影。单次成像天生不受鬼影类伪影的影响。我们提出了一种基于呼吸运动校正单次成像并进行平均以提高信噪比的自由呼吸方法。

方法

使用多回波梯度回波序列采集图像，并通过指数拟合在每个像素处计算T2图。对于40名受试者（2个队列），比较了两种采集方案：（1）屏气分段采集，（2）自由呼吸单次多次重复呼吸运动校正平均。在所有具有诊断图像质量的研究中，比较了两种方法在室间隔和肝脏中的T2测量值。

结果

在队列1（N = 28）中，年龄为51.4±17.6（m±SD），包括1名患有严重心肌铁过载的受试者，由于呼吸运动或心律失常引起的鬼影伪影导致图像质量差，有8项屏气研究无法诊断。在队列2（N = 12）中，年龄为30.9±7.5（m±SD），包括7名患有严重心肌铁过载的受试者和4名患有轻度铁过载的受试者，有1名受试者无法屏气。在所有40名受试者中，自由呼吸运动校正T2图均具有诊断质量。T2测量值具有极好的一致性（在队列1中，T2FB = 0.95×T2BH + 0.41，r2 = 0.93，N = 39次测量；在队列2中，T2FB = 0.98×T2BH + 0.05，r2>0.99，N = 22次测量）。

结论

在存在呼吸运动和心律失常的情况下，自由呼吸T2*映射方法被证明能始终如一地产生高质量的图。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cf44/4305251/37428d95a91c/12968_2014_106_Fig1_HTML.jpg

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使用呼吸运动校正平均法的自由呼吸T2* 映射

Free-breathing T2* mapping using respiratory motion corrected averaging.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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