Effect of different ulnar osteotomies on loading of the distal radioulnar joint: a finite element analysis

Tan, Jiyang; Zhang, Fei; Liu, Qianyuan; Fang, Xiaodong; Jiang, Hong; Qian, Jun; Mi, Jingyi; Zhao, Gang

doi:10.1186/s12891-024-07562-3

BMC Musculoskelet Disord

2024

DOI: 10.1186/s12891-024-07562-3

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Effect of different ulnar osteotomies on loading of the distal radioulnar joint: a finite element analysis

Jiyang Tan,

Fei Zhang,

Qianyuan Liu

et al.

Abstract: Background Ulnar impingement syndrome is a prevalent source of ulnar carpal pain; however, there is ongoing debate regarding the specific location of shortening, the method of osteotomy, the extent of shortening, and the resulting biomechanical alterations. Method To investigate the biomechanical changes in the distal radioulnar joint (DRUJ) resulting from different osteotomy methods, a cadaveric specimen was dissected, and the presence of a stable… Show more

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2024

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Cited by 2 publications

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Ligament reconstruction for distal radioulnar joint instability with the biomechanical analysis: A case report

Zhang,

Liu,

Sun

2024

Medicine

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Rationale: The aim of the study is to evaluate the clinical effects and feasibility on chronic distal radioulnar unstable joint (DRUJ) under wrist arthroscope triangular fibrocartilage complex (TFCC) repair and reconstruction. The biomechanical characteristics of the recovery process after treatment were analyzed using finite element modeling. Patient concerns: A patient with chronic DRUJ instability was treated with reconstruction of the distal radioulnar ligament using the Adams Berger method. Piano sign and forearm rotation tests were used to evaluate the function of the DRUJ. Grip power, range of motion, and visual analog scale scores were recorded at the last follow-up. Joint function was evaluated by the disability of the arm, shoulder, and hand score. A geometric model for the surgical repair of TFCC damage, meshing in finite element simulation, and stress distribution of the repaired ligament during forearm rotation were analyzed by finite element simulation. Diagnoses: The diagnosis was confirmed as chronic DRUJ instability. Interventions and outcomes: The patient had no postoperative complications and was followed-up for 6 months. Stability was achieved in all patients. The results of the stress and forearm rotation tests are negative. At the last follow-up, the grip power, disability of the arm, shoulder, and hand score, visual analog scale score, and range of motion of the wrist were significantly improved compared with the preoperative values (P < .05). Lessons: TFCC repair and reconstruction under wrist arthroscopy can effectively treat chronic DRUJ and improve wrist function. Our study established a three-dimensional finite element model of the entire DRUJ, which provided a digital visual platform for simulating the biomechanical features of the TFCC, DRUJ, and other structures in different states. This study demonstrated that the rotation angle of the wrist joint should be confined within 75° for a short period after surgery to avoid tearing the tendon as a result of excessive force. It also provides an intuitive simulation tool for the design of TFCC repair and the evaluation of curative effects.

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Ligament reconstruction for distal radioulnar joint instability with the biomechanical analysis: A case report

Zhang,

Liu,

Sun

2024

Medicine

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Virtopsy: Development and Application in Forensic Practice

Zou,

Liu,

Liu

et al. 2024

Journal of Forensic Science and Medicine

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Although represents traditional and classical examination in forensic medicine, nowadays, autopsy, sometimes, is still rejected or not tolerated for its damage to the corpse. Virtopsy offers a noninvasive investigation approach and can also reflect fracture, soft-tissue injury, wound track, and organ trauma objectively and accurately. In addition, virtual autopsies can be used as a complementary tool for areas that are difficult or complex to dissect; in certain cases, where the destruction of a body is prohibited, virtual autopsies provide an alternative to traditional autopsies as an examination method. The virtual autopsy can scan and record a body from head to toe in a short, quick operation, which greatly improves the efficiency of forensic identification. On the other hand, the virtual autopsy is permanently stored through DICOM data and can be subject to a variety of postprocessing operations. Virtual autopsy provides two-dimensional and three-dimensional postprocessing techniques, combining surface and in vivo information with geometrically realistic records, and even combining with finite elements for computer-simulated dynamic simulation studies. Thus, virtopsy can provide visual and powerful evidence for forensic pathological practice. This article mainly synthesizes the latest literature and reviews the application of virtopsy in forensic trauma identification, mechanical asphyxia, drowning, hypothermia and hyperthermia, disease diagnosis, as well as a new research direction of finite element method applied in trauma investigation.

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Effect of different ulnar osteotomies on loading of the distal radioulnar joint: a finite element analysis

Cited by 2 publications

References 29 publications

Ligament reconstruction for distal radioulnar joint instability with the biomechanical analysis: A case report

Ligament reconstruction for distal radioulnar joint instability with the biomechanical analysis: A case report

Virtopsy: Development and Application in Forensic Practice

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