使用磁共振弹性成像(MRE)监测长新冠患者的肺硬度。
Monitoring of lung stiffness for long-COVID patients using magnetic resonance elastography (MRE).
作者信息
Bensamoun Sabine F, McGee Kiaran P, Chakouch Mashhour, Pouletaut Philippe, Charleux Fabrice
机构信息
Université de technologie de Compiègne, CNRS, BMBI (Biomechanics and Bioengineering), Compiègne, France.
Mayo Clinic & Foundation, Department of Radiology, Rochester, MN, USA.
出版信息
Magn Reson Imaging. 2025 Jan;115:110269. doi: 10.1016/j.mri.2024.110269. Epub 2024 Nov 2.
PURPOSE
Transaxial CT imaging is the main clinical imaging modality for the assessment of COVID-induced lung damage. However, this type of data does not quantify the functional properties of the lung. The objective is to provide non-invasive personalized cartographies of lung stiffness for long-COVID patients using MR elastography (MRE) and follow-up the evolution of this quantitative mapping over time.
METHODS
Seven healthy and seven long-COVID participants underwent CT and MRE imaging at total lung capacity. After CT test, a senior radiologist visually analyzed the lung structure. Less than one month later, a first MRI (1.5 T, GRE sequence) lung density test followed by a first MRE (SE-EPI sequence) test were performed. Gadolinium-doped water phantom and a pneumatic driver (vibration frequency: 50 Hz), placed on the sternum, were used for MRI and MRE tests, respectively. Personalized cartographies of the stiffness were obtained, by two medical imaging engineers, using a specific post processing (MMDI algorithm). The monitoring (lung density, stiffness) was carried out no later than 11 months for each COVID patient. Wilcoxon's tests and an intra-class correlation coefficient (ICC) were used for statistical analysis.
RESULTS
The density for long-COVID patients was significantly (P = 0.047) greater (170 kg.m) compared to healthy (125 kg.m) subjects. After the first MRE test, the stiffness measured for the healthy subjects was in the same range (median value (interquartile range, IQR): 0.93 (0.09) kPa), while the long-COVID patients showed a larger stiffness range (from 1.39 kPa to 2.05 kPa). After a minimum delay of 5 months, the second MRE test showed a decrease of stiffness (from 22 % to 40 %) for every long-COVID patient. The inter-operator agreement was excellent (intra-class correlation coefficient: 0.93 [0.78-0.97]).
CONCLUSION
The MRE test is sensitive enough to monitor disease-induced change in lung stiffness (increase with COVID symptoms and decrease with recovery). This non-invasive modality could yield complementary information as a new imaging biomarker to follow up long-COVID patients.
目的
横轴位CT成像为评估新冠病毒所致肺部损伤的主要临床成像方式。然而,此类数据无法对肺的功能特性进行量化。本研究旨在利用磁共振弹性成像(MRE)为新冠后综合征患者提供非侵入性的个性化肺硬度图谱,并随时间追踪这种定量图谱的变化。
方法
7名健康受试者和7名新冠后综合征患者在肺总量时接受CT和MRE成像检查。CT检查后,由一名资深放射科医生对肺部结构进行视觉分析。不到一个月后,先进行首次MRI(1.5T,GRE序列)肺密度检查,随后进行首次MRE(SE-EPI序列)检查。钆掺杂水模体和置于胸骨上的气动驱动器(振动频率:50Hz)分别用于MRI和MRE检查。由两名医学影像工程师采用特定的后处理方法(MMDI算法)获得个性化的硬度图谱。对每位新冠患者的监测(肺密度、硬度)不迟于11个月进行。采用威尔科克森检验和组内相关系数(ICC)进行统计分析。
结果
新冠后综合征患者的密度(170kg·m)显著高于健康受试者(125kg·m)(P = 0.047)。首次MRE检查后,健康受试者测得的硬度在相同范围内(中位数(四分位间距,IQR):0.93(±0.09)kPa),而新冠后综合征患者的硬度范围更大(从1.39kPa至2.05kPa)。至少间隔5个月后,第二次MRE检查显示每位新冠后综合征患者的硬度均有所下降(从22%至40%)。不同操作人员之间的一致性极佳(组内相关系数:0.93[0.78 - 0.97])。
结论
MRE检查足够灵敏,能够监测疾病引起的肺硬度变化(随新冠症状加重而增加,随恢复而降低)。这种非侵入性检查方式作为一种新的成像生物标志物,可为追踪新冠后综合征患者提供补充信息。
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