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3.0T MRI T2-mapping对膝关节软骨退变的评估价值 被引量:23

3.0 T MRI T2-mapping evaluates knee cartilage degeneration
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摘要 目的将MRI表现与病理学对照,研究膝关节胫骨平台软骨退变的MRT2值、T2-mapping表现及其评估关节软骨退变的价值。材料与方法选取全膝关节置换术患者的31个膝关节中符合纳入标准的18个膝关节胫骨平台进行T2-mapping(T2弛豫时间)成像,共获取98个软骨亚区(标本),以病理学Mankin分级为标准,评估T2值、T2-mapping伪彩图发现软骨退变的能力。根据组织学Mankin分级标准把不同退变程度的软骨T2值分5组输入数据库,应用单因素方差分析,组间比较采用LSD检验进行统计学处理。结果 0级(正常)软骨的T2值[(32.28+4.15)ms]与Ⅱ级软骨[(34.42+5.76)ms]、Ⅰ级软骨的T2值[(37.72+4.83)ms]与Ⅱ级软骨、Ⅲ级软骨的T2值[(41.63+6.10)ms]与Ⅳ级软骨[(45.98+7.32)ms]两两比较,差异均无统计学意义(P值均>0.05);Ⅰ级软骨的T2值与Ⅲ级及Ⅳ级、Ⅱ级软骨的T2值与Ⅲ级和Ⅳ级分别两两比较,差异均有统计学意义(P值均<0.05)。总体上,T2值伴随软骨退变程度的增加而明显升高,其中软骨退变Ⅱ级较Ⅰ级的T2值轻度降低,但Ⅱ级与Ⅰ级及正常软骨T2值之间差异无统计学意义(P值均>0.05)。T2-mapping伪彩图信号改变可以敏感的发现软骨退变,但无法区分软骨的退变程度。结论关节软骨的T2值与软骨退变程度有着明显的相关性,随着软骨退变程度的加重T2值明显升高,是发现早期软骨退变的敏感方法。 Objective: To explore the MRI value in diagnosing articular cartilage degeneration of knee joint by comparing MRI T2 value, T2-mapping appearances of tibial plateau cartilage degeneration with the corresponding pathological results. Materials and Methods: Eighteen of thirty-one knee joints undergone whole knee arthroplasty were chosen for MRI T2-mapping (T2 relaxation time) imaging. Ninety- eight cartilage subregions (specimens) were confirmed pathologically by a standard of Mankin's pathological grade, The different degrees of histological degenerated cartilage were divided into five groups basing on Mankin's grading standard. All the T2 values were inputted the database and variance comparisons between groups were tested by One-Way ANOVA and LSD test to evaluate the ability of T2 value and T2-mapping artificial color image on displaying cartilage degeneration. Results: No statistical difference of T2 value was found between normal group [(32.28± 4.15) ms] and grade II [(34.42±5.76) ms] group, grade I [(37.72±4.83) ms] and grade 1I, grade Ili [(41.63±6.10) ms] and grade IV [(45.98±7.32) ms] (P〉0.05) . Significant difference of T2 value was found between grade I and grade II1 or grade IV, grade II and grade III or grade IV(P〈0.05). Overall, T2 value could get increased significantly resulted from the severity of cartilage degeneration and the T2 value of grade I[ group was slightly lower than that of grade I, but there was no statistical difference between grade II group and normal group or grade I (P〉0.05). The signal change on T2 -mapping artificial color image could sensitively display cartilage degeneration but hardly describe the degree of degeneration of cartilage. Conclusions: The T2 value of the articular cartilage could increase significantly with cartilage deterioration, which was highly related to the degree of cartilage degeneration and could be considered as a sensitive method to detect early cartilage degeneration.
出处 《磁共振成像》 CAS 2012年第4期245-249,共5页 Chinese Journal of Magnetic Resonance Imaging
基金 青岛市科技局基金项目(编号:KZJ-2 2010)
关键词 骨关节炎 软骨 磁共振成像 病理学 Osteoarthrits Knee Cartilage Magetic resonance imaging Pathology
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参考文献17

  • 1刘媛,王永福.骨关节炎的经济学[J].中国骨质疏松杂志,2011,17(2):181-184. 被引量:15
  • 2Chang CB, Seong SC, Kim TK. Evaluations of radiographic joint space--dotlley adequately predict cartilage conditions in the patellofemoral joint of the patients undergoing total knee arthroplasty for advanced knee osteoarthritis. Osteoarthritis Cartilage, 2008, 16(10): 1160-1166.
  • 3Raynauld JP. Quantitative magnetic resonanoe imaging of articular cartilage in 35 knee osteoarthritis. Curr Opin Rheumatol, 2003, 15(5): 647-650.
  • 4Mankin H J, Dorfman H, Lippiello L, et al. Biochemical and metabolic abnormalities in articular cartilage from osteo-arthritic human hips. II. Correlation of morphology with biochemical and metabolic data. J Bone Joint Surg Am, 1971, 53(3): 523-537.
  • 5Mosher T J, Dardzinski B J, Smith MB. Human articular cartilage :influence of aging and early symptomatic degeneration on the spatial variation of T2 preliminary findings at 3 T. Radiology, 2000, 214 (1): 259-266.
  • 6Lusse S, Claassen H, Gehrke T, et al. Evaluation of water content by spatially esolved transverse relaxation times of human articular cartilage. Magn Reson Imaging, 2000, 18(4): 423-430.
  • 7Nieminen MT, Toyras J, Rieppo J, et al. Quantitative MR microscopy of enzymatically degraded articular cartilage. Magn Reson Med, 2000, 43 (5): 676-681.
  • 8Xia Y. Magic-angle effect in magnetic resonance imaging of articular cartilage: a review. Invest Radiol, 2000, 35(10): 602-621.
  • 9宋玲玲,梁碧玲,沈君,钟镜联,叶瑞心,邓军.MRT2图评价膝关节软骨的初步探讨[J].中华放射学杂志,2008,42(3):231-235. 被引量:33
  • 10David E, Vaudey E, Ghosh S, Ries M, et al. T2 relaxation time measurements in osteoarthritis. Magn Reson Imaging, 2004, 22(5): 673-682.

二级参考文献70

  • 140岁以上人群原发性骨关节病患病率达到46.3%[J].实用医学进修杂志,2006,34(2):78-78. 被引量:6
  • 2Dunn TC, Lu Y, Jin H, et al. T2 relaxtion time of cartilage at MR imaging: comparision with severity of knee osteoarthritis.Radiology, 2004, 232:592-598.
  • 3Dardzinski BJ, Laor T, Schmithorst VJ, et al. Mapping T2 relaxation time in the pediatric knee: feasibility with a clinical 1.5 T MR imaging system. Radiology, 2002, 225:233-239.
  • 4Van Breuseghem I, Bosmans HT, Elst LV, et al. T2 mapping of human femorotibial cartilage with turbo mixed MR imaging at 1.5 T:feasibility. Radiology, 2004, 233:609-614.
  • 5Lusse S, Claassen H, Gehrke T, et al. Evaluation of water content by spatially resolved transverse relaxation times of human articular cartilage. J Magn Reson Imaging, 2000, 18:423-430.
  • 6Xia Y. Magic-angle effect in magnetic resonance imaging of articular cartilage : a review (Review). Invest Radiol, 2000, 35 : 602-621.
  • 7Xia Y, Moody JB, Alhadlaq H, et aL Imaging the physical and morphological properties of a multi-zone young articular cartilage at microscopic resolution. J Magn Reson Imaging, 2003, 17: 365 -374.
  • 8Mosher TJ, Liu Y, Yang QX, et aL Age dependency of cartilage magnetic resonance imaging T2 relaxatioin times in asymptomatic women. Arthritis Rheum, 2004, 50:2820-2828.
  • 9Waterton JC, Solloway S, Foster JE, et al. Diurnal variation in the femoral articular cartilage of the knee in young adult humans. J Magn Reson Med, 2000, 43:126-132.
  • 10Rubenstein JD, Kim JK, Henkelman RM. Effects of compression and recovery on bovine articular cartilage: appearance on MR images. Radiology, 1996, 201:843-850.

共引文献58

同被引文献211

  • 1黄坤,倪宗瓒,程薇波.混合线性模型在临床试验中重复测量资料的应用[J].现代预防医学,2005,32(11):1584-1584. 被引量:19
  • 2耿晓鹏,陈百成,王霞,高巍,王晓峰.软骨下骨髓水肿与膝骨关节炎疼痛相关性的影像学研究[J].中华骨科杂志,2005,25(11):682-686. 被引量:38
  • 3骨关节炎诊治指南(2007年版)[J].中华骨科杂志,2007,27(10):793-796. 被引量:1964
  • 4Kim HS, Jee WH, Ryu KN, et al. MRI of chondromyxoid fibroma. Acta Radiol, 2011, 52: 875-80.
  • 5Fechtner K, Hillengass J, Delorme S, et al. Staging monoclonal plasma cell disease: comparison of the durie- salmon and the durie-salmon PLUS staging systems. Radiology, 2010, 257: 195-204.
  • 6Khoo MM, Tyler PA, Saifuddin A, et al. Diffusion- weighted imaging (DWI) in musculoskeletal MRI: a critical review. Skeletal Radiol, 2011, 40(6): 665-681.
  • 7Chen BB, Hsu CY, Yu CW. Dynamic contrast-enhanced MR imaging measurement of vertebral bone marrow perfusion may be indicator of outcome of acute myeloid leukemia patients in remission. Radiology, 2011, 258(3): 821-831.
  • 8Straathof R, Strijkers G J, Nicolay K. Target-specific paramagnetic and super-paramagnetic micelles for molecular mr imaging. Methods Mol Biol, 2011, 771: 691-715.
  • 9Li X, Kuo D, Schafer AL, et al. Quantification of vertebral bone marrow fat content using 3 tesla MR spectroscopy: reproducibility, vertebral variation, and applications in osteoporosis. J Magn Reson Imaging, 2011, 33(4): 974-979.
  • 10Mosher T J, Zhang Z, Reddy R, et al. Knee articular cartilage damage in osteoarthritis: analysis of MR image biomarker reproducibility in ACRIN-PA 4001 multicenter trial. Radiology, 2011, 258(3):832-842.

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