Assessment of Lung Nodule Detection and Lung CT Screening Reporting and Data System Classification Using Zero Echo Time Pulmonary MRI
Xinhui Wang, Yingying Cui, Ying Wang, Shuo Liu, Nan Meng, Wei Wei, Yan Bai, Yu Shen, Jinxia Guo, Zhiping Guo, Meiyun Wang - Radiology, Nuclear Medicine and imaging
Background
The detection rate of lung nodules has increased considerably with CT as the primary method of examination, and the repeated CT examinations at 3 months, 6 months or annually, based on nodule characteristics, have increased the radiation exposure of patients. So, it is urgent to explore a radiation‐free MRI examination method that can effectively address the challenges posed by low proton density and magnetic field inhomogeneities.
Purpose
To evaluate the potential of zero echo time (ZTE) MRI in lung nodule detection and lung CT screening reporting and data system (lung‐RADS) classification, and to explore the value of ZTE‐MRI in the assessment of lung nodules.
Study Type
Prospective.
Population
54 patients, including 21 men and 33 women.
Field Strength/Sequence
Chest CT using a 16‐slice scanner and ZTE‐MRI at 3.0T based on fast gradient echo.
Assessment
Nodule type (ground‐glass nodules, part‐solid nodules, and solid nodules), lung‐RADS classification, and nodule diameter (manual measurement) on CT and ZTE‐MRI images were recorded.
Statistical Tests
The percent of concordant cases, Kappa value, intraclass correlation coefficient (ICC), Wilcoxon signed‐rank test, Spearman's correlation, and Bland–Altman. The p‐value <0.05 is considered significant.
Results
A total of 54 patients (age, 54.8 ± 11.9 years; 21 men) with 63 nodules were enrolled. Compared with CT, the total nodule detection rate of ZTE‐MRI was 85.7%. The intermodality agreement of ZTE‐MRI and CT lung nodules type evaluation was substantial (Kappa = 0.761), and the intermodality agreement of ZTE‐MRI and CT lung‐RADS classification was moderate (Kappa = 0.592). The diameter measurements between ZTE‐MRI and CT showed no significant difference and demonstrated a high degree of interobserver (ICC = 0.997–0.999) and intermodality (ICC = 0.956–0.985) agreements.
Data Conclusion
The measurement of nodule diameter by pulmonary ZTE‐MRI is similar to that by CT, but the ability of lung‐RADS to classify nodes from MRI images still requires further research.
Level of Evidence
2
Technical Efficacy
Stage 2