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Semin Musculoskelet Radiol 2024; 28(02): 139-145
DOI: 10.1055/s-0043-1778023
DOI: 10.1055/s-0043-1778023
Review Article
Bone Bruise versus Fracture on MRI and the Relevance to Return to Play
Abstract
We review the spectrum of acute osseous injuries in athletes, ranging from osseous contusion (bone bruise) injuries to nondisplaced cortical fractures. The basic biomechanical concepts, underlying histopathologic changes, and characteristic magnetic resonance imaging (MRI) features of acute osseous injuries are presented. Bone bruise injuries of varying severity are highlighted to showcase the breadth of imaging findings on MRI and methods for characterizing such lesions. We emphasize the importance of accurately assessing patterns of injury on MRI to communicate more effectively with team medical staff and recognize the implications on return to play. This article offers the foundational tools for approaching bone bruise injuries in elite athletes to add value to the diagnosis and treatment of this unique patient population.
Publication History
Article published online:
14 March 2024
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References
- 1 Yao L, Lee JK. Occult intraosseous fracture: detection with MR imaging. Radiology 1988; 167 (03) 749-751
- 2 Mink JH, Deutsch AL. Occult cartilage and bone injuries of the knee: detection, classification, and assessment with MR imaging. Radiology 1989; 170 (3 Pt 1): 823-829
- 3 Graf BK, Cook DA, De Smet AA, Keene JS. “Bone bruises” on magnetic resonance imaging evaluation of anterior cruciate ligament injuries. Am J Sports Med 1993; 21 (02) 220-223
- 4 Tung GA, Davis LM, Wiggins ME, Fadale PD. Tears of the anterior cruciate ligament: primary and secondary signs at MR imaging. Radiology 1993; 188 (03) 661-667
- 5 Pathria MN, Chung CB, Resnick DL. Acute and stress-related injuries of bone and cartilage: pertinent anatomy, basic biomechanics, and imaging perspective. Radiology 2016; 280 (01) 21-38
- 6 Rangger C, Kathrein A, Freund MC, Klestil T, Kreczy A. Bone bruise of the knee: histology and cryosections in 5 cases. Acta Orthop Scand 1998; 69 (03) 291-294
- 7 Hong J, Wang T, Chen Z, Pan H, Pan X. Rabbit model of subchondral bone bruise and the treatment potential of calcitonin. Am J Transl Res 2017; 9 (12) 5603-5610
- 8 Ryu KN, Jin W, Ko YT. et al. Bone bruises: MR characteristics and histological correlation in the young pig. Clin Imaging 2000; 24 (06) 371-380
- 9 Baker JC, Hoover EG, Hillen TJ, Smith MV, Wright RW, Rubin DA. Subradiographic foot and ankle fractures and bone contusions detected by MRI in elite ice hockey players. Am J Sports Med 2016; 44 (05) 1317-1323
- 10 Belair JA, Jung J, Desai V, Morrison WB, DeLuca PF, Zoga AC. Bone bruise vs. non-displaced fracture on MRI: a novel grading system for predicting return-to-play. Skeletal Radiol 2023 ; November 23 ( Epub ahead of print)
- 11 Blankenbaker DG, De Smet AA, Vanderby R, McCabe RP, Koplin SA. MRI of acute bone bruises: timing of the appearance of findings in a swine model. AJR Am J Roentgenol 2008; 190 (01) W1-W7
- 12 Oliver WM, Molyneux SG, White TO, Clement ND, Duckworth AD. Return to work and sport after a humeral shaft fracture. Bone Jt Open 2022; 3 (03) 236-244
- 13 Roche AJ, Calder JD. Treatment and return to sport following a Jones fracture of the fifth metatarsal: a systematic review. Knee Surg Sports Traumatol Arthrosc 2013; 21 (06) 1307-1315
- 14 Halim A, Weiss AP. Return to play after hand and wrist fractures. Clin Sports Med 2016; 35 (04) 597-608
- 15 Altintas B, Anderson NL, Boykin R, Millett PJ. Operative treatment of torsional humeral shaft fractures in throwers leads to an earlier return to sport: a survey of expert shoulder and elbow surgeons. Knee Surg Sports Traumatol Arthrosc 2019; 27 (12) 4049-4054
- 16 Modi CS, Nancoo T, Powers D, Ho K, Boer R, Turner SM. Operative versus nonoperative treatment of acute undisplaced and minimally displaced scaphoid waist fractures—a systematic review. Injury 2009; 40 (03) 268-273
- 17 O'Malley M, DeSandis B, Allen A, Levitsky M, O'Malley Q, Williams R. Operative treatment of fifth metatarsal Jones fractures (zones II and III) in the NBA. Foot Ankle Int 2016; 37 (05) 488-500
- 18 Morgan RJ, Bankston Jr LS, Hoenig MP, Connor PM. Evolving management of middle-third clavicle fractures in the National Football League. Am J Sports Med 2010; 38 (10) 2092-2096
- 19 Cotton MO, Sliepka III JM, Klavas DM, McCulloch PC, Harris JD, Jack II RA. Performance and return to sport after open fracture in National Football League players. Orthop J Sports Med 2021 ;9(9):23259671211027862
- 20 Wells G, Chernoff J, Gilligan JP, Krause DS. Does salmon calcitonin cause cancer? A review and meta-analysis. Osteoporos Int 2016; 27 (01) 13-19
- 21 Asadipooya K, Graves L, Greene LW. Transient osteoporosis of the hip: review of the literature. Osteoporos Int 2017; 28 (06) 1805-1816
- 22 Gulati A, Kamel SI, Desai V, Belair JA. Presence of subchondral fracture in cases diagnosed as transient osteoporosis of the hip: a retrospective independent reader-based study. Skeletal Radiol 2023 ; November 7 ( Epub ahead of print)
- 23 Raghavan P, Christofides E. Role of teriparatide in accelerating metatarsal stress fracture healing: a case series and review of literature. Clin Med Insights Endocrinol Diabetes 2012; 5: 39-45
- 24 Gende A, Thomsen TW, Marcussen B, Hettrich C. Delayed-union of acetabular stress fracture in female gymnast: use of teriparatide to augment healing. Clin J Sport Med 2020; 30 (05) e163-e165
- 25 Puvvada CS, Soomro FH, Osman HA. et al. Efficacy and safety of teriparatide in improving fracture healing and callus formation: a systematic review. Cureus 2023; 15 (04) e37478