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Semin Musculoskelet Radiol 2025; 29(05): 682-694
DOI: 10.1055/s-0045-1802974
DOI: 10.1055/s-0045-1802974
Review Article
Common Mistakes in Wrist and Hand Trauma
Authors
Abstract
The anatomy of the wrist and hand is complex due to small and closely opposed bone and soft tissue structures. The complexity of the wrist and hand anatomy simultaneously allows a wide range of motion yet also makes these joints vulnerable to injury. The large number of potentially involved structures can make adequate evaluation of the traumatized wrist challenging. Injury to the wrist or hand is often significant because of the risk of permanent functional impairment.
Additionally, traumatic injury can be easily overlooked because signs may be subtle on conventional radiology and satisfaction of search poses risk of incomplete assessment. Other potential factors that create risk of errors in wrist assessment are nonstandardized acquisition, overlooking subtle signs of osseous trauma, neglecting soft tissue trauma, not performing additional imaging despite persistent suspicion of traumatic injury, traumatic injury, and misinterpretation of normal variants and trauma mimics.
Thus adequate clinical information on the radiology request is essential to initiate an optimized imaging strategy to detect fractures or dislocations and identify normal variants. This review offers examples of pitfalls when assessing conventional radiographs of the wrist and recommendations on when additional imaging using ultrasound, computed tomography, or magnetic resonance imaging is needed.
Publikationsverlauf
Artikel online veröffentlicht:
07. Oktober 2025
© 2025. Thieme. All rights reserved.
Thieme Medical Publishers, Inc.
333 Seventh Avenue, 18th Floor, New York, NY 10001, USA
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References
- 1 Garcia-Elias M. Understanding wrist mechanics: a long and winding road. J Wrist Surg 2013; 2 (01) 5-12
- 2 Mayfield JK, Johnson RP, Kilcoyne RK. Carpal dislocations: pathomechanics and progressive perilunar instability. J Hand Surg Am 1980; 5 (03) 226-241
- 3 Fitschen-Oestern S, Lippross S, Lefering R. et al. Missed hand and forearm injuries in multiple trauma patients: an analysis from the TraumaRegister DGU®. Injury 2020; 51 (07) 1608-1617
- 4 Derksen R-J, Bakker FC, Geervliet PC. et al. Diagnostic accuracy and reproducibility in the interpretation of Ottawa ankle and foot rules by specialized emergency nurses. Am J Emerg Med 2005; 23 (06) 725-729
- 5 Fiesseler F, Szucs P, Kec R, Richman PB. Can nurses appropriately interpret the Ottawa Ankle Rule?. Am J Emerg Med 2004; 22 (03) 145-148
- 6 Mallee WH, Walenkamp MMJ, Mulders MAM, Goslings JC, Schep NWL. Detecting scaphoid fractures in wrist injury: a clinical decision rule. Arch Orthop Trauma Surg 2020; 140 (04) 575-581
- 7 Ty JM, Lozano-Calderon S, Ring D. Computed tomography for triage of suspected scaphoid fractures. Hand (N Y) 2008; 3 (02) 155-158
- 8 Welling RD, Jacobson JA, Jamadar DA, Chong S, Caoili EM, Jebson PJ. MDCT and radiography of wrist fractures: radiographic sensitivity and fracture patterns. AJR Am J Roentgenol 2008; 190 (01) 10-16
- 9 Bonel HM, Jäger L, Frei KA. et al. Optimization of MDCT of the wrist to achieve diagnostic image quality with minimum radiation exposure. AJR Am J Roentgenol 2005; 185 (03) 647-654
- 10 De Smet E, De Praeter G, Verstraete KL, Wouters K, De Beuckeleer L, Vanhoenacker FM. Direct comparison of conventional radiography and cone-beam CT in small bone and joint trauma. Skeletal Radiol 2015; 44 (08) 1111-1117
- 11 Kämmerling N, Sandstedt M, Farnebo S, Persson A, Tesselaar E. Assessment of image quality in photon-counting detector computed tomography of the wrist—an ex vivo study. Eur J Radiol 2022; 154: 110442
- 12 Demehri S, Baffour FI, Klein JG. et al. Musculoskeletal CT imaging: state-of-the-art advancements and future directions. Radiology 2023; 308 (02) e230344
- 13 Booij R, Kämmerling NF, Oei EHG, Persson A, Tesselaar E. Assessment of visibility of bone structures in the wrist using normal and half of the radiation dose with photon-counting detector CT. Eur J Radiol 2023; 159: 110662
- 14 Memarsadeghi M, Breitenseher MJ, Schaefer-Prokop C. et al. Occult scaphoid fractures: comparison of multidetector CT and MR imaging—initial experience. Radiology 2006; 240 (01) 169-176
- 15 Kung JW, Melenevsky Y, Hochman MG. et al. On-call musculoskeletal radiographs: discrepancy rates between radiology residents and musculoskeletal radiologists. AJR Am J Roentgenol 2013; 200 (04) 856-859
- 16 Mandegaran R, Gidwani S, Zavareh A. Concomitant hook of hamate fractures in patients with scaphoid fracture: more common than you might think. Skeletal Radiol 2018; 47 (04) 505-510
- 17 Shahabpour M, Abid W, Van Overstraeten L, De Maeseneer M. Wrist trauma: more than bones. J Belg Soc Radiol 2021; 105 (01) 90
- 18 Zander MEL, Swärd E, Björkman A, Wilcke M. Carpal fractures: epidemiology, classification and treatment of 6542 fractures from the Swedish Fracture Registry. J Hand Surg Eur Vol 2024; 49 (04) 470-476
- 19 Pinto A, Berritto D, Russo A. et al. Traumatic fractures in adults: missed diagnosis on plain radiographs in the emergency department. Acta Biomed 2018; 89 (1-S): 111-123
- 20 Amadio PCMS. Fracture of the carpal bones. Operative Hand Surgery 1993; 21: 799-860
- 21 Komura S, Yokoi T, Nonomura H, Tanahashi H, Satake T, Watanabe N. Incidence and characteristics of carpal fractures occurring concurrently with distal radius fractures. J Hand Surg Am 2012; 37 (03) 469-476
- 22 Waeckerle JF. A prospective study identifying the sensitivity of radiographic findings and the efficacy of clinical findings in carpal navicular fractures. Ann Emerg Med 1987; 16 (07) 733-737
- 23 Morsy M, Sabbagh MD, van Alphen NA, Laungani AT, Kadar A, Moran SL. The vascular anatomy of the scaphoid: new discoveries using micro-computed tomography imaging. J Hand Surg Am 2019; 44 (11) 928-938
- 24 Cooney WP, Linscheid RL, Dobyns JH. The Wrist: Diagnosis and Operative Treatment. St. Louis, MO: Mosby; 1997
- 25 Kaewlai R, Avery LL, Asrani AV, Abujudeh HH, Sacknoff R, Novelline RA. Multidetector CT of carpal injuries: anatomy, fractures, and fracture-dislocations. Radiographics 2008; 28 (06) 1771-1784
- 26 Davis DL. Hook of the hamate: the spectrum of often missed pathologic findings. AJR Am J Roentgenol 2017; 209 (05) 1110-1118
- 27 Truumees E. Radiology of Skeletal Trauma, Lee F. Rogers, Churchill Livingstone, 2001. Spine J 2003; 3 (05) 407-408
- 28 Singh A, Reese R. Kienböck's disease following a hypersupination injury: a case report. Cureus 2024; 16 (05) e59467
- 29 Herzberg G, Comtet JJ, Linscheid RL, Amadio PC, Cooney WP, Stalder J. Perilunate dislocations and fracture-dislocations: a multicenter study. J Hand Surg Am 1993; 18 (05) 768-779
- 30 Pelrine E, Larson E, Freilich A, Dacus AR, Deal N. Treatment and outcomes of missed perilunate dislocations: a case series. J Wrist Surg 2023; 13 (02) 171-175
- 31 de Jonge JJ, Kingma J, van der Lei B, Klasen HJ. Fractures of the metacarpals. A retrospective analysis of incidence and aetiology and a review of the English-language literature. Injury 1994; 25 (06) 365-369
- 32 Henderson JJ, Arafa MA. Carpometacarpal dislocation. An easily missed diagnosis. J Bone Joint Surg Br 1987; 69 (02) 212-214
- 33 Freed HA, Shields NN. Most frequently overlooked radiographically apparent fractures in a teaching hospital emergency department. Ann Emerg Med 1984; 13 (10) 900-904
- 34 Guly HR. Diagnostic errors in an accident and emergency department. Emerg Med J 2001; 18 (04) 263-269
- 35 Southall C, Friebel TR, Gardiner S, Nikkhah D. Radiographic views for hand fractures - call for three-view national UK guidelines - a quality improvement study. Int J Surg 2023; 109 (07) 1919-1922
- 36 Kargl S, Pumberger W, Luczynski S, Moritz T. Assessment of interpretation of paediatric skeletal radiographs in the emergency room. Clin Radiol 2019; 74 (02) 150-153
- 37 Cohen M, Puntonet J, Sanchez J. et al. Artificial intelligence vs. radiologist: accuracy of wrist fracture detection on radiographs. Eur Radiol 2023; 33 (06) 3974-3983
- 38 Hendrix N, Hendrix W, van Dijke K. et al. Musculoskeletal radiologist-level performance by using deep learning for detection of scaphoid fractures on conventional multi-view radiographs of hand and wrist. Eur Radiol 2023; 33 (03) 1575-1588
- 39 Hendrix N, Hendrix W, Maresch B. et al. Artificial intelligence for automated detection and measurements of carpal instability signs on conventional radiographs. Eur Radiol 2024; 34 (10) 6600-6613
- 40 Spencer J, Hunt SL, Zhang C, Walter C, Everist B. Radiographic signs of hook of hamate fracture: evaluation of diagnostic utility. Skeletal Radiol 2019; 48 (12) 1891-1898
- 41 Moosikasuwan JB. The pronator quadratus sign. Radiology 2007; 244 (03) 927-928
- 42 Curtis DJ, Downey Jr EF, Brower AC, Cruess DF, Herrington WT, Ghaed N. Importance of soft-tissue evaluation in hand and wrist trauma: statistical evaluation. AJR Am J Roentgenol 1984; 142 (04) 781-788
- 43 Halikis MN, Taleisnik J. Soft-tissue injuries of the wrist. Clin Sports Med 1996; 15 (02) 235-259
- 44 de Jong JP, Nguyen JT, Sonnema AJ, Nguyen EC, Amadio PC, Moran SL. The incidence of acute traumatic tendon injuries in the hand and wrist: a 10-year population-based study. Clin Orthop Surg 2014; 6 (02) 196-202
- 45 Clayton RA, Court-Brown CM. The epidemiology of musculoskeletal tendinous and ligamentous injuries. Injury 2008; 39 (12) 1338-1344
- 46 Sulkers GSI, Strackee SD, Schep NWL, Maas M. Wrist cineradiography: a protocol for diagnosing carpal instability. J Hand Surg Eur Vol 2018; 43 (02) 174-178
- 47 Shahabpour M, Abid W, Van Overstraeten L, Van Royen K, De Maeseneer M. Extrinsic and intrinsic ligaments of the wrist. Semin Musculoskelet Radiol 2021; 25 (02) 311-328
- 48 Short WH, Werner FW, Green JK, Sutton LG, Brutus JP. Biomechanical evaluation of the ligamentous stabilizers of the scaphoid and lunate: part III. J Hand Surg Am 2007; 32 (03) 297-309
- 49 Camus E. Carpal biomechanics: application to ligamentous injuries. In: Camus E, Van Overstraeten L. eds. Carpal Ligament Surgery: Before Arthritis. Paris, France: Springer; 2013: 19-37
- 50 Slutsky DJ. Incidence of dorsal radiocarpal ligament tears in the presence of other intercarpal derangements. Arthroscopy 2008; 24 (05) 526-533
- 51 Treiser MD, Crawford K, Iorio ML. TFCC injuries: meta-analysis and comparison of diagnostic imaging modalities. J Wrist Surg 2018; 7 (03) 267-272
- 52 Gursoy M, Coban I, Mete BD, Bulut T. The incidence of accessory ossicles of the wrist: a radiographic study. J Wrist Surg 2021; 10 (05) 458-464
- 53 Stein JM, Cook TS, Simonson S, Kim W. Normal and variant anatomy of the wrist and hand on MR imaging. Magn Reson Imaging Clin N Am 2011; 19 (03) 595-608 , ix
- 54 Chen W, Cheng J, Sun R. et al. Prevalence and variation of sesamoid bones in the hand: a multi-center radiographic study. Int J Clin Exp Med 2015; 8 (07) 11721-11726
- 55 Freyschmidt JBL, Wiens J, Sternberg A. Freyschmidt's “Koehler/Zimmer” Borderlands of Normal and Early Pathological Findings in Skeletal Radiography. Stuttgart, Germany: Thieme; 1993
- 56 Al-Khater KM, Hegazi TM, Al-Thani HF. et al. Time of appearance of ossification centers in carpal bones. A radiological retrospective study on Saudi children. Saudi Med J 2020; 41 (09) 938-946
- 57 Garn SM, Frisancho AR, Poznanski AK, Schweitzer J, McCann MB. Analysis of triquetral-lunate fusion. Am J Phys Anthropol 1971; 34 (03) 431-433
- 58 Defazio MV, Cousins BJ, Miversuski Jr RA, Cardoso R. Carpal coalition: a review of current knowledge and report of a single institution's experience with asymptomatic intercarpal fusion. Hand (N Y) 2013; 8 (02) 157-163
- 59 Pfirrmann CW, Zanetti M. Variants, pitfalls and asymptomatic findings in wrist and hand imaging. Eur J Radiol 2005; 56 (03) 286-295
- 60 Zanetti M, Hodler J, Gilula LA. Assessment of dorsal or ventral intercalated segmental instability configurations of the wrist: reliability of sagittal MR images. Radiology 1998; 206 (02) 339-345