节省时间的儿科神经成像磁共振成像协议：回波链长度和带宽对图像质量的影响。

Time-saving synthetic magnetic resonance imaging protocols for pediatric neuroimaging: impact of echo train length and bandwidth on image quality.

机构信息

Department of Radiology, School of Medicine, Kyungpook National University, Daegu, South Korea.

Department of Radiology, Kyungpook National University Chilgok Hospital, Daegu, South Korea.

出版信息

Pediatr Radiol. 2022 Nov;52(12):2401-2412. doi: 10.1007/s00247-022-05389-5. Epub 2022 Jun 4.

DOI:10.1007/s00247-022-05389-5

PMID:35661908

Abstract

BACKGROUND

Synthetic MRI is a time-efficient imaging technique that provides both quantitative MRI and contrast-weighted images simultaneously. However, a rather long single scan time can be challenging for children.

OBJECTIVE

To evaluate the clinical feasibility of time-saving synthetic MRI protocols adjusted for echo train length and receiver bandwidth in pediatric neuroimaging based on image quality assessment and quantitative data analysis.

MATERIALS AND METHODS

In total, we included 33 children ages 1.6-17.4 years who underwent synthetic MRI using three sets of echo train length and receiver bandwidth combinations (echo train length [E]12-bandwidth [B in KHz]22, E16-B22 and E16-B83) at 3 T. The image quality and lesion conspicuity of synthetic contrast-weighted images were compared between the suggested protocol (E12-B22) and adjusted protocols (E16-B22 and E16-B83). We also compared tissue values (T1, T2, proton-density values) and brain volumetry.

RESULTS

For the E16-B83 combination, image quality was sufficient except for 15.2% of T1-W and 3% of T2-W fluid-attenuated inversion recovery (FLAIR) images, with remarkable scan time reduction (up to 35%). The E16-B22 combination demonstrated a comparable image quality to E12-B22 (P>0.05) with a scan time reduction of up to 8%. There were no significant differences in lesion conspicuity among the three protocols (P>0.05). Tissue value measurements and brain tissue volumes obtained with the E12-B22 protocol and adjusted protocols showed excellent agreement and strong correlations except for gray matter volume and non-white matter/gray matter/cerebrospinal fluid volume in E12-B22 vs. E16-B83.

CONCLUSION

The adjusted synthetic protocols produced image quality sufficient or comparable to that of the suggested protocol while maintaining lesion conspicuity with reduced scan time. The quantitative values were generally consistent with the suggested MRI-protocol-derived values, which supports the clinical application of adjusted protocols in pediatric neuroimaging.

摘要

背景

合成 MRI 是一种高效的成像技术，可同时提供定量 MRI 和对比加权图像。然而，较长的单次扫描时间可能对儿童具有挑战性。

目的

基于图像质量评估和定量数据分析，评估针对回波链长度和接收器带宽进行调整的节省时间的合成 MRI 方案在儿科神经成像中的临床可行性。

材料与方法

本研究共纳入 33 名年龄在 1.6-17.4 岁的儿童，他们在 3T 上使用三组回波链长度和接收器带宽组合（回波链长度 [E]12-带宽 [B 在 kHz]22、E16-B22 和 E16-B83）进行了合成 MRI。比较了建议方案（E12-B22）和调整方案（E16-B22 和 E16-B83）的合成对比加权图像的图像质量和病变显示。我们还比较了组织值（T1、T2、质子密度值）和脑容积。

结果

对于 E16-B83 组合，除了 15.2%的 T1-W 和 3%的 T2-W 液体衰减反转恢复（FLAIR）图像外，图像质量足够，且扫描时间显著缩短（最多 35%）。E16-B22 组合的图像质量与 E12-B22 相当（P>0.05），扫描时间缩短了 8%。在三种方案中，病变显示无显著差异（P>0.05）。E12-B22 方案和调整方案获得的组织值测量和脑组织体积显示出极好的一致性和较强的相关性，除了 E12-B22 与 E16-B83 比较时灰质体积和非白质/灰质/脑脊液体积外。

结论

调整后的合成方案在保持病变显示的同时，产生了足够或与建议方案相当的图像质量，同时减少了扫描时间。定量值通常与建议的 MRI 协议衍生值一致，这支持调整后的协议在儿科神经成像中的临床应用。

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节省时间的儿科神经成像磁共振成像协议：回波链长度和带宽对图像质量的影响。

Time-saving synthetic magnetic resonance imaging protocols for pediatric neuroimaging: impact of echo train length and bandwidth on image quality.

机构信息

出版信息

BACKGROUND

OBJECTIVE

MATERIALS AND METHODS

RESULTS

CONCLUSION

背景

目的

材料与方法

结果

结论

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