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Skeletal Radiology

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13.08.2022 | Review Article

Multimodality imaging features of USP6-associated neoplasms

verfasst von: Stephen M. Broski, Doris E. Wenger

Erschienen in: Skeletal Radiology | Ausgabe 3/2023

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Abstract

Since the discovery of USP6 gene rearrangements in aneurysmal bone cysts nearly 20 years ago, we have come to recognize that there is a family of USP6-driven mesenchymal neoplasms with overlapping clinical, morphologic, and imaging features. This family of neoplasms now includes myositis ossificans, aneurysmal bone cyst, nodular fasciitis, fibroma of tendon sheath, fibro-osseous pseudotumor of digits, and their associated variants. While generally benign and in many cases self-limiting, these lesions may undergo rapid growth, and be confused with malignant bone and soft tissue lesions, both clinically and on imaging. The purpose of this article is to review the imaging characteristics of the spectrum of USP6-driven neoplasms, highlight key features that allow distinction from malignant bone or soft tissue lesions, and discuss the role of imaging and molecular analysis in diagnosis.

Oliveira AM, Chou MM. The TRE17/USP6 oncogene: a riddle wrapped in a mystery inside an enigma. Front Biosci (Schol Ed). 2012;4:321–34.CrossRef

Nakamura T, Hillova J, Mariage-Samson R, Onno M, Huebner K, Cannizzaro LA, et al. A novel transcriptional unit of the tre oncogene widely expressed in human cancer cells. Oncogene. 1992;7(4):733–41.

Oliveira AM, Hsi BL, Weremowicz S, Rosenberg AE, Dal Cin P, Joseph N, et al. USP6 (Tre2) fusion oncogenes in aneurysmal bone cyst. Cancer Res. 2004;64(6):1920–3.CrossRef

Oliveira AM, Perez-Atayde AR, Dal Cin P, Gebhardt MC, Chen CJ, Neff JR, et al. Aneurysmal bone cyst variant translocations upregulate USP6 transcription by promoter swapping with the ZNF9, COL1A1, TRAP150, and OMD genes. Oncogene. 2005;24(21):3419–26.CrossRef

Rakheja D, Cunningham JC, Mitui M, Patel AS, Tomlinson GE, Weinberg AG. A subset of cranial fasciitis is associated with dysregulation of the Wnt/beta-catenin pathway. Mod Pathol. 2008;21(11):1330–6.CrossRef

Madan B, Walker MP, Young R, Quick L, Orgel KA, Ryan M, et al. USP6 oncogene promotes Wnt signaling by deubiquitylating Frizzleds. Proc Natl Acad Sci U S A. 2016;113(21):E2945-2954.CrossRef

Pringle LM, Young R, Quick L, Riquelme DN, Oliveira AM, May MJ, et al. Atypical mechanism of NF-kappaB activation by TRE17/ubiquitin-specific protease 6 (USP6) oncogene and its requirement in tumorigenesis. Oncogene. 2012;31(30):3525–35.CrossRef

Quick L, Young R, Henrich IC, Wang X, Asmann YW, Oliveira AM, et al. Jak1-STAT3 signals are essential effectors of the USP6/TRE17 oncogene in tumorigenesis. Cancer Res. 2016;76(18):5337–47.CrossRef

Erickson-Johnson MR, Chou MM, Evers BR, Roth CW, Seys AR, Jin L, et al. Nodular fasciitis: a novel model of transient neoplasia induced by MYH9-USP6 gene fusion. Lab Invest. 2011;91(10):1427–33.CrossRef

10.

Oliveira AM, Chou MM. USP6-induced neoplasms: the biologic spectrum of aneurysmal bone cyst and nodular fasciitis. Hum Pathol. 2014;45(1):1–11.CrossRef

11.

Bekers EM, Eijkelenboom A, Grunberg K, Roverts RC, de Rooy JWJ, van der Geest ICM, et al. Myositis ossificans - another condition with USP6 rearrangement, providing evidence of a relationship with nodular fasciitis and aneurysmal bone cyst. Ann Diagn Pathol. 2018;34:56–9.CrossRef

12.

Flucke U, Bekers EM, Creytens D, van Gorp JM. COL1A1 is a fusionpartner of USP6 in myositis ossificans - FISH analysis of six cases. Ann Diagn Pathol. 2018;36:61–2.CrossRef

13.

Sukov WR, Franco MF, Erickson-Johnson M, Chou MM, Unni KK, Wenger DE, et al. Frequency of USP6 rearrangements in myositis ossificans, brown tumor, and cherubism: molecular cytogenetic evidence that a subset of “myositis ossificans-like lesions” are the early phases in the formation of soft-tissue aneurysmal bone cyst. Skeletal Radiol. 2008;37(4):321–7.CrossRef

14.

Svajdler M, Michal M, Martinek P, Ptakova N, Kinkor Z, Szepe P, et al. Fibro-osseous pseudotumor of digits and myositis ossificans show consistent COL1A1-USP6 rearrangement: a clinicopathological and genetic study of 27 cases. Hum Pathol. 2019;88:39–47.CrossRef

15.

Flucke U, Shepard SJ, Bekers EM, Tirabosco R, van Diest PJ, Creytens D, et al. Fibro-osseous pseudotumor of digits - expanding the spectrum of clonal transient neoplasms harboring USP6 rearrangement. Ann Diagn Pathol. 2018;35:53–5.CrossRef

16.

Board E. WHO classification of tumours soft tissue and bone tumours. 5th ed. Lyon: IARC Press; 2020.

17.

Carter JM, Wang X, Dong J, Westendorf J, Chou MM, Oliveira AM. USP6 genetic rearrangements in cellular fibroma of tendon sheath. Mod Pathol. 2016;29(8):865–9.CrossRef

18.

Mantilla JG, Gross JM, Liu YJ, Hoch BL, Ricciotti RW. Characterization of novel USP6 gene rearrangements in a subset of so-called cellular fibroma of tendon sheath. Mod Pathol. 2021;34(1):13–9.CrossRef

19.

Hiemcke-Jiwa LS, van Gorp JM, Fisher C, Creytens D, van Diest PJ, Flucke U. USP6-associated neoplasms: a rapidly expanding family of lesions. Int J Surg Pathol. 2020;28(8):816–25.CrossRef

20.

Malik F, Wang L, Yu Z, Edelman MC, Miles L, Clay MR, et al. Benign infiltrative myofibroblastic neoplasms of childhood with USP6 gene rearrangement. Histopathology. 2020;77(5):760–8.CrossRef

21.

Kransdorf MJ, Meis JM, Jelinek JS. Myositis ossificans: MR appearance with radiologic-pathologic correlation. AJR Am J Roentgenol. 1991;157(6):1243–8.CrossRef

22.

Walczak BE, Johnson CN, Howe BM. Myositis ossificans. J Am Acad Orthop Surg. 2015;23(10):612–22.CrossRef

23.

Lacout A, Jarraya M, Marcy PY, Thariat J, Carlier RY. Myositis ossificans imaging: keys to successful diagnosis. Indian J Radiol Imaging. 2012;22(1):35–9.CrossRef

24.

Wang H, Nie P, Li Y, Hou F, Dong C, Huang Y, et al. MRI findings of early myositis ossificans without calcification or ossification. Biomed Res Int. 2018;2018:4186324.

25.

Goldman AB. Myositis ossificans circumscripta: a benign lesion with a malignant differential diagnosis. AJR Am J Roentgenol. 1976;126(1):32–40.CrossRef

26.

Turecki MB, Taljanovic MS, Stubbs AY, Graham AR, Holden DA, Hunter TB, et al. Imaging of musculoskeletal soft tissue infections. Skeletal Radiol. 2010;39(10):957–71.CrossRef

27.

Kransdorf MJ, Murphey MD. Radiologic evaluation of soft-tissue masses: a current perspective. AJR Am J Roentgenol. 2000;175(3):575–87.CrossRef

28.

Thomas EA, Cassar-Pullicino VN, McCall IW. The role of ultrasound in the early diagnosis and management of heterotopic bone formation. Clin Radiol. 1991;43(3):190–6.CrossRef

29.

Tibone J, Sakimura I, Nickel VL, Hsu JD. Heterotopic ossification around the hip in spinal cord-injured patients. A long-term follow-up study. J Bone Joint Surg Am. 1978;60(6):769–75.CrossRef

30.

Agrawal K, Bhattacharya A, Harisankar CN, Abrar ML, Mittal BR, Tripathy SK, et al. [18F]Fluoride and [18F]fluorodeoxyglucose PET/CT in myositis ossificans of the forearm. Eur J Nucl Med Mol Imaging. 2011;38(10):1956.CrossRef

31.

Koob M, Durckel J, Dosch JC, Entz-Werle N, Dietemann JL. Intercostal myositis ossificans misdiagnosed as osteosarcoma in a 10-year-old child. Pediatr Radiol. 2010;40:34–7.CrossRef

32.

Sasaki M, Hotokezaka Y, Ideguchi R, Uetani M, Fujita S. Traumatic myositis ossificans: multifocal lesions suggesting malignancy on FDG-PET/CT—a case report. Skeletal Radiol. 2021;50(1):249–54.CrossRef

33.

Nielsen GP, Fletcher CD, Smith MA, Rybak L, Rosenberg AE. Soft tissue aneurysmal bone cyst: a clinicopathologic study of five cases. Am J Surg Pathol. 2002;26(1):64–9.CrossRef

34.

Li L, Bui MM, Zhang M, Sun X, Han G, Zhang T, et al. Validation of fluorescence in situ hybridization testing of USP6 gene rearrangement for diagnosis of primary aneurysmal bone cyst. Ann Clin Lab Sci. 2019;49(5):590–7.

35.

Oliveira AM, Perez-Atayde AR, Inwards CY, Medeiros F, Derr V, Hsi BL, et al. USP6 and CDH11 oncogenes identify the neoplastic cell in primary aneurysmal bone cysts and are absent in so-called secondary aneurysmal bone cysts. Am J Pathol. 2004;165(5):1773–80.CrossRef

36.

Kransdorf MJ, Sweet DE. Aneurysmal bone cyst: concept, controversy, clinical presentation, and imaging. AJR Am J Roentgenol. 1995;164(3):573–80.CrossRef

37.

Vergel De Dios AM, Bond JR, Shives TC, McLeod RA, Unni KK. Aneurysmal bone cyst. A clinicopathologic study of 238 cases. Cancer. 1992;69(12):2921–31.CrossRef

38.

Shooshtarizadeh T, Movahedinia S, Mostafavi H, Jamshidi K, Sami SH. Aneurysmal bone cyst: an analysis of 38 cases and report of four unusual surface ones. Arch Bone Joint Surg. 2016;4(2):166–72.

39.

Mascard E, Gomez-Brouchet A, Lambot K. Bone cysts: unicameral and aneurysmal bone cyst. Orthop Traumatol Surg Res. 2015;101(1 Suppl):S119-127.CrossRef

40.

Hudson TM. Fluid levels in aneurysmal bone cysts: a CT feature. AJR Am J Roentgenol. 1984;142(5):1001–4.CrossRef

41.

Tsai JC, Dalinka MK, Fallon MD, Zlatkin MB, Kressel HY. Fluid-fluid level: a nonspecific finding in tumors of bone and soft tissue. Radiology. 1990;175(3):779–82.CrossRef

42.

Zishan US, Pressney I, Khoo M, Saifuddin A. The differentiation between aneurysmal bone cyst and telangiectatic osteosarcoma: a clinical, radiographic and MRI study. Skeletal Radiol. 2020;49(9):1375–86.CrossRef

43.

Mahnken AH, Nolte-Ernsting CC, Wildberger JE, Heussen N, Adam G, Wirtz DC, et al. Aneurysmal bone cyst: value of MR imaging and conventional radiography. Eur Radiol. 2003;13(5):1118–24.CrossRef

44.

Hudson TM. Scintigraphy of aneurysmal bone cysts. AJR Am J Roentgenol. 1984;142(4):761–5.CrossRef

45.

Strobel K, Exner UE, Stumpe KD, Hany TF, Bode B, Mende K, et al. The additional value of CT images interpretation in the differential diagnosis of benign vs. malignant primary bone lesions with 18F-FDG-PET/CT. Eur J Nucl Med Mol Imaging. 2008;35(11):2000–8.CrossRef

46.

Malfair D, Munk PL, O’Connell JX. Subperiosteal aneurysmal bone cysts: 2 case reports. Can Assoc Radiol J. 2003;54(5):299–304.

47.

Schoedel K, Shankman S, Desai P. Intracortical and subperiosteal aneurysmal bone cysts: a report of three cases. Skeletal Radiol. 1996;25(5):455–9.CrossRef

48.

Woertler K, Brinkschmidt C. Imaging features of subperiosteal aneurysmal bone cyst. Acta Radiol. 2002;43(3):336–9.CrossRef

49.

Slavotinek JP, Wicks A, Spriggins AJ. Subperiosteal aneurysmal bone cyst with associated bone marrow oedema: an unusual appearance. Australas Radiol. 2003;47(4):475–8.CrossRef

50.

Sanerkin NG, Mott MG, Roylance J. An unusual intraosseous lesion with fibroblastic, osteoclastic, osteoblastic, aneurysmal and fibromyxoid elements. “Solid” variant of aneurysmal bone cyst. Cancer. 1983;51(12):2278–86.CrossRef

51.

Ilaslan H, Sundaram M, Unni KK. Solid variant of aneurysmal bone cysts in long tubular bones: giant cell reparative granuloma. Am J Roentgenol. 2003;180(6):1681–7.CrossRef

52.

Ghosh A, Singh A, Yadav R, Khan SA, Kumar VS, Gamanagatti S. Solid variant ABC of long tubular bones: a diagnostic conundrum for the radiologist. Indian J Radiol Imaging. 2019;29(3):271–6.CrossRef

53.

Matcuk GR, Chopra S, Menendez LR. Solid aneurysmal bone cyst of the humerus mimics metastasis or brown tumor. Clin Imaging. 2018;52:117–22.CrossRef

54.

Gutierrez LB, Link TM, Horvai AE, Joseph GB, O’Donnell RJ, Motamedi D. Secondary aneurysmal bone cysts and associated primary lesions: imaging features of 49 cases. Clin Imaging. 2020;62:23–32.CrossRef

55.

Sasaki H, Nagano S, Shimada H, Yokouchi M, Setoguchi T, Ishidou Y, et al. Diagnosing and discriminating between primary and secondary aneurysmal bone cysts. Oncol Lett. 2017;13(4):2290–6.CrossRef

56.

Gao ZH, Yin JQ, Liu DW, Meng QF, Li JP. Preoperative easily misdiagnosed telangiectatic osteosarcoma: clinical-radiologic-pathologic correlations. Cancer Imaging. 2013;13(4):520–6.CrossRef

57.

Zhang L, Hwang S, Benayed R, Zhu GG, Mullaney KA, Rios KM, et al. Myositis ossificans-like soft tissue aneurysmal bone cyst: a clinical, radiological, and pathological study of seven cases with COL1A1-USP6 fusion and a novel ANGPTL2-USP6 fusion. Mod Pathol. 2020;33(8):1492–504.CrossRef

58.

Rodríguez-Peralto JL, López-Barea F, Sánchez-Herrera S, Atienza M. Primary aneurysmal cyst of soft tissues (extraosseous aneurysmal cyst). Am J Surg Pathol. 1994;18(6):632–6.CrossRef

59.

Song W, Suurmeijer AJH, Bollen SM, Cleton-Jansen A-M, Bovée JVMG, Kroon HM. Soft tissue aneurysmal bone cyst: six new cases with imaging details, molecular pathology, and review of the literature. Skeletal Radiol. 2019;48(7):1059–67.CrossRef

60.

Jacquot C, Szymanska J, Nemana LJ, Steinbach LS, Horvai AE. Soft-tissue aneurysmal bone cyst with translocation t(17;17)(p13;q21) corresponding to COL1A1 and USP6 loci. Skeletal Radiol. 2015;44(11):1695–9.CrossRef

61.

Weiss SW, Goldblum JR, Folpe AL. Enzinger and Weiss’s soft tissue tumors. 5th ed. Philadelphia: Elsevier Health Sciences; 2007.

62.

Dinauer PA, Brixey CJ, Moncur JT, Fanburg-Smith JC, Murphey MD. Pathologic and MR imaging features of benign fibrous soft-tissue tumors in adults. Radiographics. 2007;27(1):173–87.CrossRef

63.

Goldblum JR, Weiss SW, Folpe AL. Enzinger and Weiss’s soft tissue tumors. 6th ed. Philadelphia: Elsevier Health Sciences; 2013.

64.

Kransdorf MJ, Murphey MD. Imaging of soft tissue tumors. Philadelphia: W. B. Saunders; 1997.

65.

Bernstein KE, Lattes R. Nodular (pseudosarcomatous) fasciitis, a nonrecurrent lesion: clinicopathologic study of 134 cases. Cancer. 1982;49(8):1668–78.CrossRef

66.

Shimizu S, Hashimoto H, Enjoji M. Nodular fasciitis: an analysis of 250 patients. Pathology. 1984;16(2):161–6.CrossRef

67.

Chi CC, Kuo TT, Wang SH. Nodular fasciitis: clinical characteristics and preoperative diagnosis. J Formos Med Assoc. 2003;102(8):586–9.

68.

Rosenberg AE. Pseudosarcomas of soft tissue. Arch Pathol Lab Med. 2008;132(4):579–86.CrossRef

69.

Wang J-C, Li W-S, Kao Y-C, Lee J-C, Lee P-H, Huang S-C, et al. Clinicopathological and molecular characterisation of USP6-rearranged soft tissue neoplasms: the evidence of genetic relatedness indicates an expanding family with variable bone-forming capacity. Histopathology. 2021;78(5):676–89.CrossRef

70.

Salib C, Edelman M, Lilly J, Fantasia JE, Yancoskie AE. USP6 gene rearrangement by FISH analysis in cranial fasciitis: a report of three cases. Head Neck Pathol. 2020;14(1):257–61.CrossRef

71.

Coyle J, White LM, Dickson B, Ferguson P, Wunder J, Naraghi A. MRI characteristics of nodular fasciitis of the musculoskeletal system. Skeletal Radiol. 2013;42(7):975–82.CrossRef

72.

Wu SY, Zhao J, Chen HY, Hu MM, Zheng YY, Min JK, et al. MR imaging features and a redefinition of the classification system for nodular fasciitis. Medicine (Baltimore). 2020;99(45):e22906.CrossRef

73.

Hu PA, Zhou ZR. Imaging findings of radiologically misdiagnosed nodular fasciitis. Acta Radiol. 2019;60(5):663–9.CrossRef

74.

Lefkowitz RA, Landa J, Hwang S, Zabor EC, Moskowitz CS, Agaram NP, et al. Myxofibrosarcoma: prevalence and diagnostic value of the “tail sign” on magnetic resonance imaging. Skeletal Radiol. 2013;42(6):809–18.CrossRef

75.

Yoo HJ, Hong SH, Kang Y, Choi JY, Moon KC, Kim HS, et al. MR imaging of myxofibrosarcoma and undifferentiated sarcoma with emphasis on tail sign; diagnostic and prognostic value. Eur Radiol. 2014;24(8):1749–57.CrossRef

76.

Wang XL, De Schepper AM, Vanhoenacker F, De Raeve H, Gielen J, Aparisi F, et al. Nodular fasciitis: correlation of MRI findings and histopathology. Skeletal Radiol. 2002;31(3):155–61.CrossRef

77.

Dewey BJ, Howe BM, Spinner RJ, Johnson GB, Nathan MA, Wenger DE, et al. FDG PET/CT and MRI features of pathologically proven Schwannomas. Clin Nucl Med. 2021;46(4):289–96.CrossRef

78.

Crombé A, Marcellin P-J, Buy X, Stoeckle E, Brouste V, Italiano A, et al. Soft-tissue sarcomas: assessment of MRI Features correlating with histologic grade and patient outcome. Radiology. 2019;291(3):710–21.CrossRef

79.

Gotthardt M, Arens A, van der Heijden E, de Geus-Oei LF, Oyen WJ. Nodular fasciitis on F-18 FDG PET. Clin Nucl Med. 2010;35(10):830–1.CrossRef

80.

Kim JY, Park J, Choi YY, Lee S, Paik SS. Nodular fasciitis mimicking soft tissue metastasis on 18F-FDG PET/CT during surveillance. Clin Nucl Med. 2015;40(2):172–4.CrossRef

81.

Seo M, Kim M, Kim ES, Sim H, Jun S, Park SH. Diagnostic clue of nodular fasciitis mimicking metastasis in papillary thyroid cancer, mismatching findings on (18)F-FDG PET/CT and (123)I whole body scan: a case report. Oncol Lett. 2017;14(1):1167–71.CrossRef

82.

Chung EB, Enzinger FM. Fibroma of tendon sheath. Cancer. 1979;44(5):1945–54.CrossRef

83.

Pižem J, Matjašič A, Zupan A, Luzar B, Šekoranja D, Dimnik K. Fibroma of tendon sheath is defined by a USP6 gene fusion—morphologic and molecular reappraisal of the entity. Mod Pathol. 2021;34(10):1876–88.CrossRef

84.

Emori M, Takashima H, Iba K, Sonoda T, Oda T, Hasegawa T, et al. Differential diagnosis of fibroma of tendon sheath and giant cell tumor of tendon sheath in the finger using signal intensity on T2 magnetic resonance imaging. Acta Radiol. 2021;62(12):1632–8.CrossRef

85.

Ge Y, Guo G, You Y, Li Y, Xuan Y, Jin ZW, et al. Magnetic resonance imaging features of fibromas and giant cell tumors of the tendon sheath: differential diagnosis. Eur Radiol. 2019;29(7):3441–9.CrossRef

86.

Fox MG, Kransdorf MJ, Bancroft LW, Peterson JJ, Flemming DJ. MR imaging of fibroma of the tendon sheath. AJR Am J Roentgenol. 2003;180(5):1449–53.CrossRef

87.

Moosavi CA, Al-Nahar LA, Murphey MD, Fanburg-Smith JC. Fibrosseous pseudotumor of the digit: a clinicopathologic study of 43 new cases. Ann Diagn Pathol. 2008;12(1):21–8.CrossRef

88.

Chaudhry IH, Kazakov DV, Michal M, Mentzel T, Luzar B, Calonje E. Fibro-osseous pseudotumor of the digit: a clinicopathological study of 17 cases. J Cutan Pathol. 2010;37(3):323–9.CrossRef

89.

de Silva MV, Reid R. Myositis ossificans and fibroosseous pseudotumor of digits: a clinicopathological review of 64 cases with emphasis on diagnostic pitfalls. Int J Surg Pathol. 2003;11(3):187–95.CrossRef

90.

Dupree WB, Enzinger FM. Fibro-osseous pseudotumor of the digits. Cancer. 1986;58(9):2103–9.CrossRef

91.

Sakuda T, Kubo T, Shinomiya R, Furuta T, Adachi N. Rapidly growing fibro-osseous pseudotumor of the digit: a case report. Medicine. 2020;99(28):e21116.CrossRef

92.

Jawadi T, AlShomer F, Al-Motairi M, Al-Qahtani A, Alfowzan M, Almeshal O. Fibro-osseous pseudotumor of the digit: case report and surgical experience with extensive digital lesion abutting on neurovascular bundles. Ann Med Surg (Lond). 2018;35:158–62.CrossRef

Titel: Multimodality imaging features of USP6-associated neoplasms
verfasst von: Stephen M. Broski
Doris E. Wenger
Publikationsdatum: 13.08.2022
Verlag: Springer Berlin Heidelberg
Erschienen in: Skeletal Radiology / Ausgabe 3/2023
Print ISSN: 0364-2348
Elektronische ISSN: 1432-2161
DOI: https://doi.org/10.1007/s00256-022-04146-x

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