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通过动态磁共振成像量化正常膈肌运动、形态及其发育变化。

Quantifying Normal Diaphragmatic Motion and Shape and their Developmental Changes via Dynamic MRI.

作者信息

Hao You, Udupa Jayaram K, Tong Yubing, Wu Caiyun, McDonough Joseph M, Gogel Samantha, Mayer Oscar H, Alnoury Mostafa, Cahill Patrick J, Anari Jason B, Torigian Drew A

出版信息

medRxiv. 2024 May 13:2024.05.12.24306850. doi: 10.1101/2024.05.12.24306850.

DOI:10.1101/2024.05.12.24306850
PMID:38798322
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11118591/
Abstract

BACKGROUND

The diaphragm is a critical structure in respiratory function, yet in-vivo quantitative description of its motion available in the literature is limited.

RESEARCH QUESTION

How to quantitatively describe regional hemi-diaphragmatic motion and curvature via free-breathing dynamic magnetic resonance imaging (dMRI)?

STUDY DESIGN AND METHODS

In this prospective cohort study we gathered dMRI images of 177 normal children and segmented hemi-diaphragm domes in end-inspiration and end-expiration phases of the constructed 4D image. We selected 25 points uniformly located on each 3D hemi-diaphragm surface. Based on the motion and local shape of hemi-diaphragm at these points, we computed the velocities and sagittal and coronal curvatures in 13 regions on each hemi-diaphragm surface and analyzed the change in these properties with age and gender.

RESULTS

Our cohort consisted of 94 Females, 6-20 years (12.09 + 3.73), and 83 Males, 6-20 years (11.88 + 3.57). We observed velocity range: ∼2mm/s to ∼13mm/s; Curvature range -Sagittal: ∼3m to ∼27m ; Coronal: ∼6m to ∼20m . There was no significant difference in velocity between genders, although the pattern of change in velocity with age was different for the two groups. Strong correlations in velocity were observed between homologous regions of right and left hemi-diaphragms. There was no significant difference in curvatures between genders or change in curvatures with age.

INTERPRETATION

Regional motion/curvature of the 3D diaphragmatic surface can be estimated using free-breathing dynamic MRI. Our analysis sheds light on here-to-fore unknown matters such as how the pediatric 3D hemi-diaphragm motion/shape varies regionally, between right and left hemi-diaphragms, between genders, and with age.

摘要

背景

膈肌是呼吸功能中的关键结构,但文献中关于其运动的体内定量描述有限。

研究问题

如何通过自由呼吸动态磁共振成像(dMRI)定量描述半膈肌区域的运动和曲率?

研究设计与方法

在这项前瞻性队列研究中,我们收集了177名正常儿童的dMRI图像,并在构建的4D图像的吸气末和呼气末阶段分割半膈肌穹顶。我们在每个3D半膈肌表面均匀选取25个点。基于这些点处半膈肌的运动和局部形状,我们计算了每个半膈肌表面13个区域的速度、矢状面和冠状面曲率,并分析了这些特性随年龄和性别的变化。

结果

我们的队列包括94名女性,年龄6 - 20岁(12.09 ± 3.73),以及83名男性,年龄6 - 20岁(11.88 ± 3.57)。我们观察到速度范围:约2mm/s至约13mm/s;曲率范围 - 矢状面:约3m⁻¹至约27m⁻¹;冠状面:约6m⁻¹至约20m⁻¹。尽管两组速度随年龄变化的模式不同,但性别之间速度无显著差异。左右半膈肌同源区域的速度之间存在强相关性。性别之间曲率无显著差异,曲率也不随年龄变化。

解读

使用自由呼吸动态MRI可以估计3D膈肌表面的区域运动/曲率。我们的分析揭示了此前未知的问题,例如小儿3D半膈肌运动/形状在区域、左右半膈肌之间、性别之间以及随年龄如何变化。