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Skeletal Radiology

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01.02.2005 | Scientific Article

Juvenile spondylolysis: a comparative analysis of CT, SPECT and MRI

verfasst von: R. S. D. Campbell, A. J. Grainger, I. G. Hide, S. Papastefanou, C. G. Greenough

Erschienen in: Skeletal Radiology | Ausgabe 2/2005

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Abstract

Objective

To evaluate whether MRI correlates with CT and SPECT imaging for the diagnosis of juvenile spondylolysis, and to determine whether MRI can be used as an exclusive image modality.

Design and patients

Juveniles and young adults with a history of extension low back pain were evaluated by MRI, CT and SPECT imaging. All images were reviewed blindly. Correlative analyses included CT vs MRI for morphological grading and SPECT vs MRI for functional grading. Finally, an overall grading system compared MRI vs CT and SPECT combined. Statistical analysis was performed using the kappa statistic.

Results

Seventy-two patients (mean age 16 years) were recruited. Forty pars defects were identified in 22 patients (31%), of which 25 were chronic non-union, five acute complete defects and ten acute incomplete fractures. Kappa scores demonstrated a high level of agreement for all comparative analyses. MRI vs SPECT (kappa: 0.794), MRI vs CT (kappa: 0.829) and MRI vs CT/SPECT (kappa: 0.786). The main causes of discrepancy were between MRI and SPECT for the diagnosis of stress reaction in the absence of overt fracture, and distinguishing incomplete fractures from intact pars or complete defects.

Conclusions

MRI can be used as an effective and reliable first-line image modality for diagnosis of juvenile spondylolysis. However, localised CT is recommended as a supplementary examination in selected cases as a baseline for assessment of healing and for evaluation of indeterminate cases.

Fredrickson BE, Baker D, McHolick WJ, Yuan HA, Lubicky JP. The natural history of spondylolysis and spondylolisthesis. J Bone Joint Surg Am 1984;66(5):699–707.

Wiltse LL, Widell EH Jr, Jackson DW. Fatigue fracture: the basic lesion is isthmic spondylolisthesis. J Bone Joint Surg Am 1975;57(1):17–22.

Rosenberg NJ, Bargar WL, Friedman B. The incidence of spondylolysis and spondylolisthesis in non-ambulatory patients. Spine 1981;6:35–37.PubMed

Wiltse LL, Newman PH, Macnab I. Classification of spondylolisis and spondylolisthesis. Clin Orthop 1976 (117):23–29.

Collier BD, Johnson RP, Carrera GF, et al. Painful spondylolysis or spondylolisthesis studied by radiography and single-photon emission computed tomography. Radiology 1985;154:207–211.PubMed

Gundry CR, Fritts HM Jr. MR imaging of the spine in sports injuries. Magn Reson Imaging Clin N Am 1999;7(1):85–103.

Libson E, Bloom RA. Anteroposterior angulated view. A new radiographic technique for the evaluation of spondylolysis. Radiology 1983;149:315–316.PubMed

Libson E, Bloom RA, Dinari G, et al. Oblique lumbar spine radiographs: importance in young patients. Radiology 1984;161:98–90.

Papanicolaou N, Wilkinson RH, Emans JB, Treves S, Micheli LJ. Bone scintigraphy and radiography in young athletes with low back pain. AJR Am J Roentgenol 1985;145:1039–1044.PubMed

10.

Pennell RG, Maurer AH, Bonakdarpour A. Stress injuries of the pars interarticularis: radiologic classification and indications for scintigraphy. AJR Am J Roentgenol 1985;145:763–766.PubMed

11.

Grogan JP, Hemminghytt S, Williams AL, et al. Spondylolysis with computed tomography. Radiology 1982;145:763–742.PubMed

12.

Langston JW, Gavant ML. “Incomplete ring” sign: a simple method for CT detection of spondylolysis. J Comput Assist Tomogr 1985;9:726–729.

13.

Rothman SLG, Glenn WV. CT multiplanar reconstruction in 253 cases of lumbar spondylolysis. AJNR Am J Neuroradiol 1984;5:81–90.PubMed

14.

Teplick JG, Laffey PA, Berman A, et al. Diagnosis and evaluation of spondylolisthesis and/or spondylolysis on axial CT. AJNR Am J Neuroradiol 1986;7:479–491.PubMed

15.

Saifuddin A, Burnett SJ. The value of lumbar spine MRI in the assessment of the pars interarticularis. Clin Radiol 1997;52(9):666–671.

16.

Johnson DW, Farnum GN, Latchaw RE, Erba SM. MR imaging of the pars interarticularis. AJR Am J Roentgenol 1989;152(2):327–332.

17.

Campbell RS, Grainger AJ. Optimization of MRI pulse sequences to visualize the normal pars interarticularis. Clin Radiol 1999;54(1):63–68.

18.

Ulmer JL, Elster AD, Mathews VP, Allen AM. Lumbar spondylolysis: reactive marrow changes seen in adjacent pedicles on MR images. AJR Am J Roentgenol 1995;164(2):429–433.

19.

Udeshi UL, Reeves D. Routine thin slice MRI effectively demonstrates the lumbar pars interarticularis. Clin Radiol 1999;54(9):615–619.

20.

Hollenberg GM, Beattie PF, Meyers SP, Weinberg EP, Adams MJ. Stress reactions of the lumbar pars interarticularis: the development of a new MRI classification system. Spine 2002;27(2):181–186.

21.

Altman DG. Practical statistics for medical research. In: London: Chapman and Hall; 1991. p. 403–409.

22.

Beutler WJ, Fredrickson BE, Murtland A, Sweeney CA, Grant WD, Baker D. The natural history of spondylolysis and spondylolisthesis: 45-year follow-up evaluation. Spine 2003;28(10):1027–1035; discussion 1035.

23.

Grenier N, Kressel HY, Schiebler ML, Grossman RI. Isthmic spondylolysis of the lumbar spine: MR imaging at 1.5 T. Radiology 1989;170(2):489–493.

24.

Heitoff KB, Gundry CR, Burton CV, et al. Juvenile discogenic disease. Spine 1994;19:335–340.PubMed

25.

Jensen MC, Brant-Zawadzki MN, Obuchowski N, Modic MT, Malkasian D, Ross JS. Magnetic resonance imaging of the lumbar spine in people without back pain. N Engl J Med 1994;331(2):69–73.

26.

Micheli LJ, Wood R. Back pain in young athletes. Significant differences from adults in causes and patterns. Arch Pediatr Adolesc Med 1995;149(1):15–18.

27.

Ralston S, Weir M. Suspecting lumbar spondylolysis in adolescent low back pain. Clin Pediatr (Phila) 1998;37(5):287–293.

28.

Watkins RG, Dillin WH. Lumbar spine injury in the athlete. Clin Sports Med 1990;9:419–448.PubMed

29.

Steiner ME, Micheli LJ. Treatment of symptomatic spondylolysis and spondylolisthesis with the modified Boston brace. Spine 1985;10:937–943.PubMed

30.

Blanda J, Bethem D, Moats W, Lew M. Defects of the pars interarticularis in athletes: a protocol for non-operative treatment. J Spinal Disord 1993;6:406–411.PubMed

31.

Wiltse LL. The effect of the common anomalies of the lumbar spine upon disk degeneration and low back pain. Orthop Clin North Am 1971;2:569–582.PubMed

32.

Rauch RA, Jinkins JR. Lumbosacral spondylolisthesis associated with spondylolysis. Neuroimaging Clin N Am 1993;3:543–555.

33.

Matheson GO, Clement DB, McKenzie DC, Taunton JE, Lloyd-Smith DR, Macintyre JG. Scintigraphic uptake of 99mTc at non-painful sites in athletes with stress fractures: the concept of bone strain. Sports Med 1987;4:65–75.PubMed

Titel: Juvenile spondylolysis: a comparative analysis of CT, SPECT and MRI
verfasst von: R. S. D. Campbell
A. J. Grainger
I. G. Hide
S. Papastefanou
C. G. Greenough
Publikationsdatum: 01.02.2005
Verlag: Springer-Verlag
Erschienen in: Skeletal Radiology / Ausgabe 2/2005
Print ISSN: 0364-2348
Elektronische ISSN: 1432-2161
DOI: https://doi.org/10.1007/s00256-004-0878-3

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