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Differentiation of human cartilage degeneration by functional MRI mapping-an ex vivo study.基于功能磁共振成像图谱对人软骨退变的鉴别-一项离体研究。
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T-based fibril-reinforced poroviscoelastic constitutive relation of human articular cartilage using inverse finite element technology.基于T的人关节软骨原纤维增强多孔粘弹性本构关系的逆有限元技术研究
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Stabilization of T relaxation and magnetization transfer in cartilage explants by immersion in perfluorocarbon liquid.通过浸泡全氟碳液体使软骨外植体中的 T 弛豫和磁化传递稳定化。
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Progression of Post-Traumatic Osteoarthritis in rat meniscectomy models: Comprehensive monitoring using MRI.创伤性关节炎在大鼠半月板切除模型中的进展:磁共振成像的综合监测。
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MRI UTE-T2* profile characteristics correlate to walking mechanics and patient reported outcomes 2 years after ACL reconstruction.MRI UTE-T2* 特征与 ACL 重建 2 年后的步行力学和患者报告的结果相关。
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用于早期软骨退变诊断的定量超短回波时间磁化传递(UTE-MT):与UTE-T2*和T2映射的比较

Quantitative ultrashort echo time magnetization transfer (UTE-MT) for diagnosis of early cartilage degeneration: comparison with UTE-T2* and T2 mapping.

作者信息

Yang Jiawei, Shao Hongda, Ma Yajun, Wan Lidi, Zhang Yixuan, Jiang Junjie, Du Jiang, Tang Guangyu

机构信息

Department of Radiology, Shanghai Tenth People's Hospital, Tongji University School of Medicine, Shanghai 200072, China.

Department of Radiology, University of California, San Diego, CA, USA.

出版信息

Quant Imaging Med Surg. 2020 Jan;10(1):171-183. doi: 10.21037/qims.2019.12.04.

DOI:10.21037/qims.2019.12.04
PMID:31956540
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6960424/
Abstract

BACKGROUND

To investigate the feasibility of using quantitative ultrashort echo time magnetization transfer (UTE-MT) technique in diagnosing early cartilage degeneration and to compare the technique's diagnostic efficacy with UTE-T2* mapping and T2 mapping.

METHODS

Twenty human anterolateral condyle specimens with degeneration were obtained from volunteers undergoing total knee arthroplasty (TKA); they then underwent magnetic resonance (MR) scan on a clinical 3.0T scanner (GE, MR750). Seventy-two regions of interest (ROI) were manually drawn on specimens for UTE-MT, UTE-T2*, and T2 measurement, and the corresponding cartilage-bone regions were further divided into degeneration classifications of normal (n=11, Mankin scores 0-1), mild (n=28, Mankin scores 2-5), moderate (n=21, Mankin scores 6-9), and severe (n=12, Mankin scores 10-14) based on histological measures of degeneration (i.e., Mankin scores) as a reference standard. Differences among groups and correlations between quantitative MR parameters and Mankin scores were assessed using analysis of variance (ANOVA), Tamhane-T2, LSD, Kruskal-Wallis tests, and Spearman's correlation coefficient. The receiver-operating characteristic (ROC) curve was used to compare the diagnostic efficacy of different quantitative MR parameters for the detection of mild cartilage degeneration.

RESULTS

The UTE magnetization transfer ratio (UTE-MTR) in the normal group was significantly different from the mild group (P=0.021), moderate group (P<0.001), and severe group (P<0.001). Significant differences were observed in the T2* values between both the normal group and the moderate group (P<0.032), and between the normal group and the severe group (P<0.001). For T2 values, the only significant difference was observed between the severe group and the normal group (P=0.011). The UTE-MTR, UTE-T2*, and T2 values were all significantly correlated with Mankin scores: UTE-MTR values were strongly (r=-0.678, P<0.001) correlated, UTE-T2* values were markedly correlated (r=-0.501, P<0.001), and T2 values were weakly correlated (r=0.337, P=0.004) correlated with Mankin scores. The diagnostic efficacy of UTE-MTR (AUC =0.828, P=0.002) was better than UTE T2* mapping and T2 mapping (AUC =0.604, P=0.318; AUC =0.644, P=0.165, respectively) for the diagnosis of early cartilage degeneration.

CONCLUSIONS

UTE-MTR values were strongly correlated with histological grades of cartilage degeneration, and its diagnostic efficacy was better than both UTE T2* mapping and T2 mapping in detecting early cartilage degeneration. Once the clinical potential of the technique has been confirmed, UTE-MT may provide a promising imaging biomarker with potential application in a more comprehensive diagnosis and monitoring of cartilage degeneration.

摘要

背景

探讨定量超短回波时间磁化转移(UTE-MT)技术在诊断早期软骨退变中的可行性,并将该技术的诊断效能与UTE-T2* 成像和T2成像进行比较。

方法

从接受全膝关节置换术(TKA)的志愿者处获取20个退变的人类外侧髁标本;然后在临床3.0T扫描仪(GE,MR750)上对其进行磁共振(MR)扫描。在标本上手动绘制72个感兴趣区域(ROI)用于UTE-MT、UTE-T2* 和T2测量,并根据退变的组织学测量(即曼金评分)作为参考标准,将相应的软骨-骨区域进一步分为正常(n = 11,曼金评分0-1)、轻度(n = 28,曼金评分2-5)、中度(n = 21,曼金评分6-9)和重度(n = 12,曼金评分10-14)退变分类。使用方差分析(ANOVA)、塔姆黑尼T2检验、最小显著差法(LSD)、克鲁斯卡尔-沃利斯检验和斯皮尔曼相关系数评估组间差异以及定量MR参数与曼金评分之间的相关性。采用受试者工作特征(ROC)曲线比较不同定量MR参数对轻度软骨退变的诊断效能。

结果

正常组的UTE磁化转移率(UTE-MTR)与轻度组(P = 0.021)、中度组(P < 0.001)和重度组(P < 0.001)有显著差异。正常组与中度组(P < 0.032)以及正常组与重度组(P < 0.001)之间的T2* 值存在显著差异。对于T2值,仅重度组与正常组之间存在显著差异(P = 0.011)。UTE-MTR、UTE-T2* 和T2值均与曼金评分显著相关:UTE-MTR值呈强相关(r = -0.678,P < 0.001),UTE-T2* 值呈显著相关(r = -0.501,P < 0.001),T2值与曼金评分呈弱相关(r = 0.337,P = 0.004)。在诊断早期软骨退变方面,UTE-MTR的诊断效能(AUC = 0.828,P = 0.002)优于UTE-T2* 成像和T2成像(AUC分别为0.604,P = 0.318;0.644,P = 0.165)。

结论

UTE-MTR值与软骨退变的组织学分级密切相关,在检测早期软骨退变方面,其诊断效能优于UTE-T2* 成像和T2成像。一旦该技术的临床潜力得到证实,UTE-MT可能提供一种有前景的成像生物标志物,在软骨退变的更全面诊断和监测中具有潜在应用价值。