Dixon Imaging of Bone stress injury of knee- comparison to conventional Intermediate-weighted MR imaging

SM journal of clinical and medical imaging Pub Date : 2020-09-28 DOI:10.36879/jcmi.20.000125

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Abstract

Objectives: Dixon sequence is a chemical shift-based MR sequence that produces four sets of images (water only, fat only, in-phase, and out-of-phase) images and is currently being used in various musculoskeletal applications. The aim of this study was to test the sensitivity of detection and determine the extent of the lesion on the Dixon imaging versus conventional proton density weighted (PDW) imaging in the domain of bone stress injury (BSI) and obtain inter-reader performance. Methods: In this retrospective cross-sectional study, 32 consecutive BSI were compared on conventional imaging versus different Dixon images in terms of area of bone marrow edema, inter-trabecular fracture detection and fracture conspicuity. Inter-reader reliability was also evaluated. p<0.05 was considered statistically significant. Results: The Dixon imaging showed excellent quality except two cases with some motion degradation. BSI detection on Dixon water image is equivalent to the routine fat suppressed fluid sensitive intermediate weighted sequence. BSI area on water image is not significantly different from the intertrabecular lesion area on opposed-phase imaging (p=0.9531). The opposed-phase images detected more number of fractures than the water, PDW, & in-phase images (p<0.0001, =0.0008, and <0.0001, respectively) with superior fracture conspicuity than the water, PDW, & in-phase images (p value <0.0001, =0.0085, and =0.0035, respectively). Fair to moderate inter-reader agreement was seen. Conclusions: Dixon imaging is as sensitive as conventional fat suppressed fluid sensitive imaging of the knee for the identification of bone bruise with superior detection and improved characterization of the intertrabecular fractures. Advances in knowledge: In the domain of bone stress injury (BSI), Dixon opposed-phase MR images detect more number of fractures with better conspicuity than water-only, PDW, and in-phase images.

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膝关节应力性骨损伤的Dixon成像与常规中加权MR成像的比较

目的:Dixon序列是一种基于化学位移的MR序列，可产生四组图像(仅水、仅脂肪、同相和非同相)，目前用于各种肌肉骨骼应用。本研究的目的是测试检测的敏感性，并确定Dixon成像与传统质子密度加权(PDW)成像在骨应激损伤(BSI)领域的病变程度，并获得阅读器间性能。方法:对32例连续BSI患者进行回顾性横断面研究，比较常规影像学与不同dixon影像学在骨髓水肿面积、骨小梁间骨折检测及骨折显著性方面的差异。读者间信度也进行了评估。P <0.05为差异有统计学意义。结果:除2例患者有运动功能减退外，Dixon成像质量良好。对Dixonwater图像的BSI检测相当于常规的脂肪抑制流体敏感中间加权序列。水像上BSI区域与对相成像上的小梁间病变区域无显著差异(p=0.9531)。相反相位图像比水、PDW和同相图像检测到更多的裂缝(p<0.0001， =0.0008， <0.0001)，裂缝显著性优于水、PDW和同相图像(p<0.0001， =0.0085， =0.0035)。读者间的一致程度适中。结论:Dixon成像在识别骨挫伤方面与传统的脂肪抑制液敏感成像一样敏感，对骨小梁间骨折的检测和表征都更优越。知识进展:在骨应力性损伤(BSI)领域，Dixon对相MR图像比水成像、PDW和同相图像检测到更多的骨折，并且具有更好的清晰度。

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SM journal of clinical and medical imaging

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