【 摘 要 】

Background

To investigate the potential of T2 mapping for characterizing the process of intervertebral disc degeneration (IDD) in a rabbit model.

Methods

Thirty-five rabbits underwent an annular stab to the L4/5 discs (L5/6 discs served as internal normal controls). Degenerative changes were graded according to the modified Thompson classification and quantified in T2 respectively at pre-operation, 1, 3, 6, 12 and 24 weeks postoperatively. After MRI analysis, expression analysis of aggrecan and type II collagen gene in nucleus pulposus (NP) was performed using real time polymerase chain reaction (real-time PCR). The longitudinal changes in NP T2 and gene expressions were studied by repeated measures and ANOVA, linear regression was performed for their correlations through the process of IDD. The reliability analysis of method of measurement of NP T2 was also performed.

Results

There was a strong inverse correlation between NP T2 and Thompson grades (r = -0.85). The decline of L4/5 NP T2 through 24 weeks was nonlinear, the most significant decrease was observed in 3 weeks postoperatively (P<0.05). The tendency was confirmed at gene expression levels. NP T2 correlated strongly with aggrecan (R² = 0.85, P<0.01) and type II collagen (R² = 0.78, P<0.01) gene expressions. The intraclass correlation coefficients for interobserver and intraobserver reliability were 0.963 and 0.977 respectively.

Conclusions

NP T2 correlates well with aggrecan and type II collagen gene expressions. T2 mapping could act as a sensitive, noninvasive tool for quantitatively characterizing the process of IDD in longitudinal study, help better understanding of the pathophysiology of IDD, assist us to detect the degenerative cascade, and develop a T2-based quantification scale for evaluation of IDD and efficacy of therapeutic interventions.

【 授权许可】

   
2013 Sun et al.; licensee BioMed Central Ltd.

【 预 览 】

附件列表

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【 图 表 】

【 参考文献 】

• [1]Luoma K, Riihimaki H, Luukkonen R, Raininko R, Viikari-Juntura E, Lamminen A: Low back pain in relation to lumbar disc degeneration. Spine (Phila Pa 1976) 2000, 25(4):487-492.
• [2]Buckwalter JA: Aging and degeneration of the human intervertebral disc. Spine (Phila Pa 1976) 1995, 20(11):1307-1314.
• [3]Kettler A, Wilke HJ: Review of existing grading systems for cervical or lumbar disc and facet joint degeneration. Eur Spine J 2006, 15(6):705-718.
• [4]Wang C, Auerbach JD, Witschey WR, Balderston RA, Reddy R, Borthakur A: Advances in magnetic resonance imaging for the assessment of degenerative disc disease of the lumbar spine. Semin Spine Surg 2007, 19(2):65-71.
• [5]Watanabe A, Benneker LM, Boesch C, Watanabe T, Obata T, Anderson SE: Classification of intervertebral disk degeneration with axial T2 mapping. AJR Am J Roentgenol 2007, 189(4):936-942.
• [6]Marinelli NL, Haughton VM, Anderson PA: T2 relaxation times correlated with stage of lumbar intervertebral disk degeneration and patient age. AJNR Am J Neuroradiol 2010, 31(7):1278-1282.
• [7]Perry J, Haughton V, Anderson PA, Wu Y, Fine J, Mistretta C: The value of T2 relaxation times to characterize lumbar intervertebral disks: preliminary results. AJNR Am J Neuroradiol 2006, 27(2):337-342.
• [8]Takashima H, Takebayashi T, Yoshimoto M, Terashima Y, Tsuda H, Ida K, Yamashita T: Correlation between T2 relaxation time and intervertebral disk degeneration. Skeletal Radiol 2011, 41(2):163-167.
• [9]Marinelli NL, Haughton VM, Munoz A, Anderson PA: T2 relaxation times of intervertebral disc tissue correlated with water content and proteoglycan content. Spine (Phila Pa 1976) 2009, 34(5):520-524.
• [10]Link TM, Stahl R, Woertler K: Cartilage imaging: motivation, techniques, current and future significance. Eur Radiol 2007, 17(5):1135-1146.
• [11]Hoppe S, Quirbach S, Mamisch TC, Krause FG, Werlen S, Benneker LM: Axial T2 mapping in intervertebral disc: a new technique for assessment of intervertebral disc degeneration. Eur Radiol 2012, 22(9):2013-2019.
• [12]Stelzeneder D, Welsch GH, Kovács BK, Goed S, Paternostro-Sluga T, Vlychou M, Friedrich K, Mamisch TC, Trattnig S: Quantitative T2 evaluation at 3.0T compared to morphological grading of the lumbar intervertebral disc: a standardized evaluation approach in patients with low back pain. Eur J Radiol 2012, 81(2):324-330.
• [13]Trattnig S, Stelzeneder D, Goed S, Reissegger M, Mamisch TC, Paternostro-Sluga T, Weber M, Szomolanyi P, Welsch GH: Lumbar intervertebral disc abnormalities: comparison of quantitative T2 mapping with conventional MR at 3.0 T. Eur Radiol 2010, 20(11):2715-2722.
• [14]Sobajima S, Kompel JF, Kim JS, Wallach CJ, Robertson DD, Vogt MT, Kang JD, Gilbertson LG: A slowly progressive and reproducible animal model of intervertebral disc degeneration characterized by MRI, X-ray, and histology. Spine (Phila Pa 1976) 2005, 30(1):15-24.
• [15]Bechara BP, Leckie SK, Bowman BW, Davies CE, Woods BI, Kanal E, Sowa GA, Kang JD: Application of a semiautomated contour segmentation tool to identify the intervertebral nucleus pulposus in MR images. AJNR Am J Neuroradiol 2010, 31(9):1640-1644.
• [16]Masuda K, Aota Y, Muehleman C, Imai Y, Okuma M, Thonar EJ, Andersson GB, An HS: A novel rabbit model of mild, reproducible disc degeneration by an anulus needle puncture: correlation between the degree of disc injury and radiological and histological appearances of disc degeneration. Spine (Phila Pa 1976) 2005, 30(1):5-14.
• [17]Benneker LM, Heini PF, Anderson SE, Alini M, Ito K: Correlation of radiographic and MRI parameters to morphological and biochemical assessment of intervertebral disc degeneration. Eur Spine J 2004, 14(1):27-35.
• [18]Schiebler ML, Camerino VJ, Fallon MD, Zlatkin MB, Grenier N, Kressel HY: In vivo and ex vivo magnetic resonance imaging evaluation of early disc degeneration with histopathologic correlation. Spine 1991, 16(6):635.
• [19]Cho BY, Murovic J, Park KW, Park J: Lumbar disc rehydration postimplantation of a posterior dynamic stabilization system. J Neurosurg Spine 2010, 13(5):576-580.
• [20]Kepler CK, Anderson DG, Tannoury C, Ponnappan RK: Intervertebral disk degeneration and emerging biologic treatments. J Am Acad Orthop Surg 2011, 19(9):543-553.
• [21]Adams MA, Roughley PJ: What is intervertebral disc degeneration, and what causes it? Spine (Phila Pa 1976) 2006, 31(18):2151-2161.
• [22]Sobajima S, Shimer AL, Chadderdon RC, Kompel JF, Kim JS, Gilbertson LG, Kang JD: Quantitative analysis of gene expression in a rabbit model of intervertebral disc degeneration by real-time polymerase chain reaction. Spine J 2005, 5(1):14-23.
• [23]Burstein D, Gray ML: Is MRI fulfilling its promise for molecular imaging of cartilage in arthritis? Osteoarthritis Cartilage 2006, 14(11):1087-1090.
• [24]Kozaci LD, Guner A, Oktay G, Guner G: Alterations in biochemical components of extracellular matrix in intervertebral disc herniation: role of MMP-2 and TIMP-2 in type II collagen loss. Cell Biochem Funct 2006, 24(5):431-436.
• [25]Zhao CQ, Wang LM, Jiang LS, Dai LY: The cell biology of intervertebral disc aging and degeneration. Ageing Res Rev 2007, 6(3):247-261.
• [26]An HS, Takegami K, Kamada H, Nguyen CM, Thonar EJM, Singh K, Andersson GB, Masuda K: Intradiscal administration of osteogenic protein-1 increases intervertebral disc height and proteoglycan content in the nucleus pulposus in normal adolescent rabbits. Spine 2005, 30(1):25.
• [27]Leckie SK, Bechara BP, Hartman RA, Sowa GA, Woods BI, Coelho JP, Witt WT, Dong QD, Bowman BW, Bell KM, et al.: Injection of AAV2-BMP2 and AAV2-TIMP1 into the nucleus pulposus slows the course of intervertebral disc degeneration in an in vivo rabbit model. Spine J 2012, 12(1):7-20.
• [28]Yang F, Leung VYL, Luk KDK, Chan D, Cheung KMC: Mesenchymal stem cells arrest intervertebral disc degeneration through chondrocytic differentiation and stimulation of endogenous cells. Mol Ther 2009, 17(11):1959-1966.
• [29]Leung V, Tam V, Chan D, Chan BP, Cheung K: Tissue engineering for intervertebral disk degeneration. Orthop Clin North Am 2011, 42(4):575.
• [30]Hiyama A, Mochida J, Iwashina T, Omi H, Watanabe T, Serigano K, Tamura F, Sakai D: Transplantation of mesenchymal stem cells in a canine disc degeneration model. J Orthop Res 2008, 26(5):589-600.
• [31]Takashima H, Takebayashi T, Yoshimoto M, Terashima Y, Tsuda H, Ida K, Yamashita T: Correlation between T2 relaxation time and intervertebral disk degeneration. Skeletal Radiol 2012, 41(2):163-167.
• [32]Chan SC, Bürki A, Bonél HM, Benneker LM, Gantenbein-Ritter B: Papain-induced in vitro disc degeneration model for the study of injectable nucleus pulposus therapy. Spine J 2013, 13(3):273-283.
• [33]Malonzo C, Chan SC, Kabiri A, Eglin D, Grad S, Bonél HM, Benneker LM, Gantenbein-Ritter B: A papain-induced disc degeneration model for the assessment of thermo-reversible hydrogel-cells therapeutic approach. J Tissue Eng Regen Med 2013,  . doi: 10.1002/term.1667. [Epub ahead of print]