在 1.5T 场强下,磁共振合成技术尚不能用于髌软骨的形态学和功能评估。
Synthetic MRI is not yet ready for morphologic and functional assessment of patellar cartilage at 1.5Tesla.
机构信息
Guilloz Imaging Department, Central Hospital, Regional University Hospital Center of Nancy (CHRU-Nancy), 54000 Nancy, France.
Centre d'Investigation Clinique et d'Innovation Technologique, Université de Lorraine, Inserm, IADI, 54000 Nancy, France.
出版信息
Diagn Interv Imaging. 2021 Mar;102(3):181-187. doi: 10.1016/j.diii.2020.09.002. Epub 2020 Oct 5.
PURPOSE
The purpose of this study was to compare morphologic assessment and relaxometry of patellar hyaline cartilage between conventional sequences (fast spin-echo [FSE] T2-weighted fat-saturated and T2-mapping) and synthetic T2 short-TI inversion recovery (STIR) and T2 maps at 1.5T magnetic resonance imaging (MRI).
METHOD
The MRI examinations of the knee obtained at 1.5T in 49 consecutive patients were retrospectively studied. There were 21 men and 28 women with a mean age of 45±17.7 (SD) years (range: 18-88 years). Conventional and synthetic acquisitions were performed, including T2-weighted fat-saturated and T2-mapping sequences. Two radiologists independently compared patellar cartilage T2-relaxation time on conventional T2-mapping and synthetic T2-mapping images. A third radiologist evaluated the patellar cartilage morphology on conventional and synthetic T2-weighted images. The presence of artifacts was also assessed. Interobserver agreement for quantitative variables was assessed using intraclass correlation coefficient (ICC).
RESULTS
In vitro, conventional and synthetic T2 maps yielded similar mean T2 values 58.5±2.3 (SD) ms and 58.8±2.6 (SD) ms, respectively (P=0.414) and 6% lower than the expected experimental values (P=0.038). Synthetic images allowed for a 15% reduction in examination time compared to conventional images. On conventional sequences, patellar chondropathy was identified in 35 patients (35/49; 71%) with a mean chondropathy grade of 4.8±4.8 (SD). On synthetic images, 28 patients (28/49; 57%) were diagnosed with patellar chondropathy, with a significant 14% difference (P=0.009) and lower chondropathy scores (3.7±4.9 [SD]) compared to conventional images. Motion artifacts were more frequently observed on synthetic images (18%) than on conventional ones (6%). The interobserver agreement was excellent for both conventional and synthetic T2 maps (ICC>0.83). Mean cartilage T2 values were significantly greater on synthetic images (36.2±3.8 [SD] ms; range: 29-46ms) relative to conventional T2 maps (31.8±4.1 [SD] ms; range: 26-49ms) (P<0.0001).
CONCLUSION
Despite a decrease in examination duration, synthetic images convey lower diagnostic performance for chondropathy, greater prevalence of motion artifacts, and an overestimation of T2 values compared to conventional MRI sequences.
目的
本研究旨在比较常规序列(快速自旋回波[FSE] T2 加权脂肪饱和和 T2 映射)和合成 T2 短 TI 反转恢复(STIR)和 T2 图谱在 1.5T 磁共振成像(MRI)中髌软骨的形态评估和弛豫度。
方法
回顾性分析了 49 例连续患者在 1.5T 下进行的膝关节 MRI 检查。21 名男性和 28 名女性,平均年龄 45±17.7(SD)岁(范围:18-88 岁)。进行了常规和合成采集,包括 T2 加权脂肪饱和和 T2 映射序列。两名放射科医生独立比较了常规 T2 映射和合成 T2 映射图像上的髌软骨 T2 弛豫时间。第三位放射科医生评估了常规和合成 T2 加权图像上的髌软骨形态。还评估了伪影的存在。使用组内相关系数(ICC)评估定量变量的观察者间一致性。
结果
在体外,常规和合成 T2 图谱分别产生 58.5±2.3(SD)ms 和 58.8±2.6(SD)ms 的相似平均 T2 值(P=0.414),比预期的实验值低 6%(P=0.038)。与常规图像相比,合成图像可将检查时间缩短 15%。在常规序列上,35 名患者(35/49;71%)诊断为髌软骨病,平均软骨病评分 4.8±4.8(SD)。在合成图像上,28 名患者(28/49;57%)诊断为髌软骨病,差异显著 14%(P=0.009),软骨病评分较低(3.7±4.9[SD])与常规图像相比。与常规图像相比,合成图像上更频繁地观察到运动伪影(18%)。常规和合成 T2 图谱的观察者间一致性均为优秀(ICC>0.83)。与常规 T2 图谱(31.8±4.1[SD]ms;范围:26-49ms)相比,合成图像上的平均软骨 T2 值(36.2±3.8[SD]ms;范围:29-46ms)显著更高(P<0.0001)。
结论
尽管检查时间缩短,但与常规 MRI 序列相比,合成图像在软骨病方面的诊断性能较低,运动伪影的发生率较高,T2 值的估计值较高。
Zotero 插件