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DOI: 10.1055/a-2637-3498
Three-Dimensional Planning and Patient-Specific Instruments in Complex Forearm Malunion
Funding None.
Abstract
Background
Forearm malunion resulting from traumatic injuries can lead to reduced pronosupination and instability of the distal radioulnar joint (DRUJ). While children benefit from natural bone remodeling, surgical intervention is more frequently required in adults. When surgical treatment is necessary, corrective osteotomies aim to restore functionality and alleviate pain. However, in cases of complex multiplanar deformities, surgical planning can be technically challenging. Moreover, there is a lack of literature addressing the management of DRUJ instability in these cases.
Case Description
We present the case of a 52-year-old patient with severe malunions of both forearm bones, characterized by a 10-degree pronation and 5-degree supination, along with chronic DRUJ instability. The patient reported difficulty with daily activities due to limited forearm rotation, pain, and persistent joint instability. The patient underwent corrective surgery, utilizing three-dimensional (3D) planning and patient-specific instruments (PSI) to perform precise osteotomies on both the radius and ulnar shafts. In addition, DRUJ instability was managed conservatively using a 6-week treatment protocol involving bracing and physical therapy, which successfully stabilized the joint. Postoperative assessments at 13 months showed significant improvements, including the absence of pain, increased pronosupination range, and successful bone union, as confirmed by radiographic evaluation.
Literature Review
The role of 3D planning and PSI in orthopaedic surgery has been well-documented, particularly in the management of forearm malunions in pediatric patients and complex malunions of distal radius fractures in adults. Evidence suggests that these technologies improve both surgical and radiographic precision, reduce complications, and enhance long-term outcomes.
Clinical Relevance
This case contributes to the existing body of literature by demonstrating how these tools can be successfully applied to complex both forearm bones malunions with concurrent DRUJ instability in an adult patient.
Keywords
three-dimensional planning - patient-specific osteotomy - distal radioulnar joint instabilityEthical Approval
This case report was conducted in accordance with ethical standards.
Patient's Consent
Written informed consent for publication of the case details and associated images was obtained from the patient. The patient's identity has been anonymized to maintain confidentiality.
Publication History
Received: 22 March 2025
Accepted: 16 June 2025
Article published online:
02 July 2025
© 2025. Thieme. All rights reserved.
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References
- 1 Jayakumar P, Jupiter JB. Reconstruction of malunited diaphyseal fractures of the forearm. Hand (N Y) 2014; 9 (03) 265-273
- 2 Fossett E, Sarraf K, Afsharpad A. The use of 3-dimensional modeling and printing in corrective osteotomies of the malunited pediatric forearm: a systematic review and meta-analysis. J Am Acad Orthop Surg Glob Res Rev 2024; 8 (12) e24.00213
- 3 Oka K, Murase T, Moritomo H, Yoshikawa H. Corrective osteotomy for malunited both bones fractures of the forearm with radial head dislocations using a custom-made surgical guide: two case reports. J Shoulder Elbow Surg 2012; 21 (10) e1-e8
- 4 Matthews LS, Kaufer H, Garver DF, Sonstegard DA. The effect on supination-pronation of angular malalignment of fractures of both bones of the forearm. J Bone Joint Surg Am 1982; 64 (01) 14-17
- 5 Trousdale RT, Linscheid RL. Operative treatment of malunited fractures of the forearm. J Bone Joint Surg Am 1995; 77 (06) 894-902
- 6 Chia DSY, Lim YJ, Chew WYC. Corrective osteotomy in forearm fracture malunion improves functional outcome in adults. J Hand Surg Eur Vol 2011; 36 (02) 102-106
- 7 Jupiter JB, Ruder J, Roth DA. Computer-generated bone models in the planning of osteotomy of multidirectional distal radius malunions. J Hand Surg Am 1992; 17 (03) 406-415
- 8 Brenac C, Fazilat AZ, Fallah M. et al. AI in plastic surgery: customizing care for each patient. AIS 2024; 4 (04) 296-315
- 9 Buijze GA, Verstreken A, Verstreken F. Role of three-dimensional guides in management of forearm and wrist malunions. Hand Clin 2024; 40 (01) 89-95
- 10 Singh S, Andronic O, Kaiser P, Jud L, Nagy L, Schweizer A. Recent advances in the surgical treatment of malunions in hand and forearm using three-dimensional planning and patient-specific instruments. Hand Surg Rehabil 2020; 39 (05) 352-362
- 11 Schindele S, Oyewale M, Marks M, Brodbeck M, Herren DB. Three-dimensionally planned and printed patient-tailored plates for corrective osteotomies of the distal radius and forearm. J Hand Surg Am 2024; 49 (03) 277.e1-277.e8
- 12 Shim BJ, Lee JH, Gong HS. Preoperative three-dimensional simulation of osteotomy for correction of malunion of both bones of forearm: a case report. J Hand Surg Asian Pac Vol 2022; 27 (04) 726-731
- 13 Oka K, Tanaka H, Okada K. et al. Three-dimensional corrective osteotomy for malunited fractures of the upper extremity using patient-matched instruments: a prospective, multicenter, open-label, single-arm trial. J Bone Joint Surg Am 2019; 101 (08) 710-721
- 14 Galvez M, Asahi T, Baar A. et al. Use of three-dimensional printing in orthopaedic surgical planning. J Am Acad Orthop Surg Glob Res Rev 2018; 2 (05) e071
- 15 Szabo RM. Distal radioulnar joint instability. J Bone Joint Surg Am 2006; 88 (04) 884-894
- 16 Miyake J, Murase T, Oka K, Moritomo H, Sugamoto K, Yoshikawa H. Computer-assisted corrective osteotomy for malunited diaphyseal forearm fractures. J Bone Joint Surg Am 2012; 94 (20) e150