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Pediatric Radiology
Erschienen in: Pediatric Radiology 12/2020

26.08.2020 | Original Article

Magnetic resonance imaging evaluation of osteoid osteoma: utility of the dark rim sign

verfasst von: Jerry French, Monica Epelman, Diego Jaramillo, Craig M. Johnson, Zachary S. Stinson, Arthur B. Meyers

Erschienen in: Pediatric Radiology | Ausgabe 12/2020

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Abstract

Background

While typical patterns of osteoid osteoma have been described on CT, MRI findings can overlap among different diseases, and atypical patterns exist. In this study, we assessed the presence of a novel dark rim sign and its utility in the MRI diagnosis of osteoid osteoma.

Objective

The purpose of this retrospective study was to assess the utility of the dark rim sign seen on MRI in children with osteoid osteoma.

Materials and methods

MRI studies from 36 pediatric patients with osteoid osteoma and a control group of patients with either osteomyelitis or stress fracture were analyzed and then compared for the presence of the dark rim sign. Patients from the osteoid osteoma group were further divided based on nidus location and evaluated for the presence of the dark rim sign.

Results

The relationship between the dark rim sign and osteoid osteoma was statistically significant (P<0.001). A dark rim sign was identified in 25 of the 36 patients with osteoid osteoma. None of the control patients had a dark rim sign. The dark rim sign had 69.4% sensitivity, 100% specificity, 100% positive predictive value and 72.5% negative predictive value for detecting osteoid osteoma. The relationship between dark rim sign and nidus location was statistically significant (P<0.001) such that endosteal and medullary osteoid osteomas were more likely to have a dark rim sign than intracortical osteoid osteomas.

Conclusion

When the nidus of an osteoid osteoma is in an endosteal or medullary location, the dark rim sign may aid in the diagnosis.
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Literatur
1.
Kransdorf MJ, Stull MA, Gilkey FW, Moser RP Jr (1991) Osteoid osteoma. Radiographics 11:671–696CrossRefPubMed
2.
Iyer RS, Chapman T, Chew FS (2012) Pediatric bone imaging: diagnostic imaging of osteoid osteoma. AJR Am J Roentgenol 198:1039–1052CrossRefPubMed
3.
Niu X, Xu H, Inwards CY et al (2015) Primary bone tumors: epidemiologic comparison of 9,200 patients treated at Beijing Ji Shui Tan Hospital, Beijing, China, with 10,165 patients at Mayo Clinic, Rochester, Minnesota. Arch Pathol Lab Med 139:1149–1155
4.
Dahlin D (1970) Bone tumors, 2nd edn. Thomas, Springfield
5.
Czerniak B (2016) Dorfman and Czerniak's bone tumors, 4th edn. Elsevier, Philadelphia
6.
Goldman AB, Schneider R, Pavlov H (1993) Osteoid osteomas of the femoral neck: report of four cases evaluated with isotopic bone scanning, CT, and MR imaging. Radiology 186:227–232CrossRefPubMed
7.
Golding JS (1954) The natural history of osteoid osteoma; with a report of twenty cases. J Bone Joint Surg Br 36-B:218–229CrossRefPubMed
8.
Carra BJ, Chen DC, Bui-Mansfield LT (2016) The half-moon sign of the femoral neck is nonspecific for the diagnosis of osteoid osteoma. AJR Am J Roentgenol 206:W54CrossRefPubMed
9.
Assoun J, Richardi G, Railhac JJ et al (1994) Osteoid osteoma: MR imaging versus CT. Radiology 191:217–223CrossRefPubMed
10.
Woods ER, Martel W, Mandell SH, Crabbe JP (1993) Reactive soft-tissue mass associated with osteoid osteoma: correlation of MR imaging features with pathologic findings. Radiology 186:221–225CrossRefPubMed
11.
Davies M, Cassar-Pullicino VN, Davies AM et al (2002) The diagnostic accuracy of MR imaging in osteoid osteoma. Skelet Radiol 31:559–569CrossRef
12.
Hosalkar HS, Garg S, Moroz L et al (2005) The diagnostic accuracy of MRI versus CT imaging for osteoid osteoma in children. Clin Orthop Relat Res 433:171–177CrossRef
13.
Lefton DR, Torrisi JM, Haller JO (2001) Vertebral osteoid osteoma masquerading as a malignant bone or soft-tissue tumor on MRI. Pediatr Radiol 31:72–75CrossRefPubMed
14.
Liu PT, Chivers FS, Roberts CC et al (2003) Imaging of osteoid osteoma with dynamic gadolinium-enhanced MR imaging. Radiology 227:691–700CrossRefPubMed
15.
16.
Klontzas ME, Zibis AH, Karantanas AH (2015) Osteoid osteoma of the femoral neck: use of the half-moon sign in MRI diagnosis. AJR Am J Roentgenol 205:353–357CrossRefPubMed
17.
Costa FM, Canella C, Vieira FG et al (2018) The usefulness of chemical-shift magnetic resonance imaging for the evaluation of osteoid osteoma. Radiol Bras 51:156–161CrossRefPubMedPubMedCentral
18.
Brenner DJ, Hall EJ (2007) Computed tomography — an increasing source of radiation exposure. N Engl J Med 357:2277–2284CrossRefPubMed
19.
Ogbole GI (2010) Radiation dose in paediatric computed tomography: risks and benefits. Ann Ib Postgrad Med 8:118–126PubMedPubMedCentral
20.
Pearce MS, Salotti JA, Little MP et al (2012) Radiation exposure from CT scans in childhood and subsequent risk of leukaemia and brain tumours: a retrospective cohort study. Lancet 380:499–505CrossRefPubMedPubMedCentral
21.
22.
Kneisl JS, Simon MA (1992) Medical management compared with operative treatment for osteoid-osteoma. J Bone Joint Surg Am 74:179–185CrossRefPubMed
23.
Neyisci C, Erdem Y (2019) Safe and effective treatment choice for osteoid osteoma: computed tomography-guided percutaneous radiofrequency ablation. Cureus 11:e5526PubMedPubMedCentral
24.
Yu X, Wang B, Yang S et al (2019) Percutaneous radiofrequency ablation versus open surgical resection for spinal osteoid osteoma. Spine J 19:509–515CrossRefPubMed
25.
26.
Pottecher P, Sibileau E, Aho S et al (2017) Dynamic contrast-enhanced MR imaging in osteoid osteoma: relationships with clinical and CT characteristics. Skelet Radiol 46:935–948CrossRef
27.
Laurence N, Epelman M, Markowitz RI et al (2012) Osteoid osteomas: a pain in the night diagnosis. Pediatr Radiol 42:1490–1501CrossRefPubMed
28.
Zampa V, Bargellini I, Ortori S et al (2009) Osteoid osteoma in atypical locations: the added value of dynamic gadolinium-enhanced MR imaging. Eur J Radiol 71:527–535CrossRefPubMed
29.
Epelman M, Jaramillo D, Hosalkar HS et al (2008) Usefulness of the "hypointense halo sign" in the MRI diagnosis of osteoid osteoma. Pediatr Radiol 38:S296
30.
Kayser F, Resnick D, Haghighi P et al (1998) Evidence of the subperiosteal origin of osteoid osteomas in tubular bones: analysis by CT and MR imaging. AJR Am J Roentgenol 170:609–614CrossRefPubMed
31.
32.
Cohen MD, Harrington TM, Ginsburg WW (1983) Osteoid osteoma: 95 cases and a review of the literature. Semin Arthritis Rheum 12:265–281CrossRefPubMed
33.
Mirra JM, Gold RH (1989) Osseous tumors of intramedullary origin. In: Bone tumors: clinical, radiologic, and pathologic correlations. Lea & Febiger, Philadelphia, pp 143–438
34.
Orlowski JP, Mercer RD (1977) Osteoid osteoma in children and young adults. Pediatrics 59:526–532PubMed
35.
Klein MH, Shankman S (1992) Osteoid osteoma: radiologic and pathologic correlation. Skelet Radiol 21:23–31CrossRef
Metadaten
Titel
Magnetic resonance imaging evaluation of osteoid osteoma: utility of the dark rim sign
verfasst von
Jerry French
Monica Epelman
Diego Jaramillo
Craig M. Johnson
Zachary S. Stinson
Arthur B. Meyers
Publikationsdatum
26.08.2020
Verlag
Springer Berlin Heidelberg
Erschienen in
Pediatric Radiology / Ausgabe 12/2020
Print ISSN: 0301-0449
Elektronische ISSN: 1432-1998
DOI
https://doi.org/10.1007/s00247-020-04780-4

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