Melone’s concept revisited in comminuted distal radius fractures: the three-dimensional CT mapping

Li, Shuang; Zhang, Yingqi; Wang, Guheng; Li, Kai; Wang, Jian; Ni, Ming

doi:10.1186/s13018-020-01739-x

Cited by 13 publications

(6 citation statements)

References 23 publications

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“…In 23 association for osteosynthesis (AO) C3 DRFs, Li et al (2020) found the mean 'volar medial' fragment CSA was 1.5 cm 2 (SD 0.8), consistent with our study where the mean CSA for all fragment types was 1.6 cm 2 (SD 0.7). After defining three PUC fragment types based on morphological data, each had significantly different articular CSAs.…”

Section: Discussionsupporting

confidence: 91%

A three-dimensional computed tomography study of the palmar ulnar corner fragment in distal radial fractures

Hubbard,

Berry,

Chauhan

et al. 2023

J Hand Surg Eur Vol

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Fixing palmar ulnar corner fragments of distal radial fractures can be challenging. We described the palmar ulnar corner fragment morphology in a retrospective cohort study of 40 patients who underwent preoperative wrist computed tomography scans. Palmar ulnar corner fractures were categorized based on articular cross-sectional area, sagittal angulation relative to the radius long axis, palmar cortical length, radioulnar width and associated palmar radiocarpal subluxation. Three types emerged: type 1 fragments involved 37% (SD 10) of the radiocarpal articular surface and were extended in the sagittal plane; type 2 fragments involved 28% (SD 10) of the articular surface and had a long palmar cortex, of which 57% had palmar carpal subluxation; and type 3 fragments involved 13% (SD 2) of the articular surface, had a short palmar cortex and all had palmar carpal subluxation. Understanding palmar ulnar corner fragment morphology may guide optimal reduction and fixation strategy and prevent palmar radiocarpal subluxation, especially in type 3 fractures. Level of evidence IV

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Section: Discussionsupporting

confidence: 91%

A three-dimensional computed tomography study of the palmar ulnar corner fragment in distal radial fractures

Hubbard,

Berry,

Chauhan

et al. 2023

J Hand Surg Eur Vol

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“…However, more basic work is needed to realize intelligent expert. Due to the increasing focus on big data analysis, 3D CT-based fracture mapping has been widely used in the field of orthopedics, such as the fracture characterization of proximal femur [8], tibial plateau [11,12], distal radius [13], or patellar [14], as originally described by Cole et al [6]. In our study, we have firstly described the fracture lines and morphological features of distal humeral fractures by three-dimensional mapping technology.…”

Section: Discussionmentioning

confidence: 94%

Three-dimensional mapping of distal humerus fracture

Wang

Zhu²,

Long³

et al. 2021

J Orthop Surg Res

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Background Distal humerus fractures (DHFs) constitute one-third of elbow fractures approximately. In this study, we aim to define and analyze the fracture lines and morphological features of DHFs using mapping technique. Methods One hundred and two DHFs were retrospectively reviewed. All the computed tomography (CT) data were used to manually reconstruct and virtually reduce the DHF fragments to fit a standard 3D model. Smooth curves were depicted accurately onto the surface of the template to represent the fracture lines. All the curves were overlapped onto the model to create the 3D fracture map and heat map. Results Our analysis was based on 102 CT images of DHFs, contributed by 59 male and 43 female patients (mean age, 46 years; range, 18-93 years), and included 15 type A, 25 type B, and 62 type C fractures. On mapping, the hot zones were located in the radial fossa, coronoid fossa, olecranon fossa, and the external part of the trochlear. Conversely, the cold zones were noted in medial condyle, the medial side of the trochlear, and the anterolateral area on the supracondylar ridge. Conclusions Our study firstly shows the fracture lines and morphological features of distal humeral fractures by three-dimensional mapping technology. Distal humerus fracture lines are characteristic and highly related to the micro-architecture difference of distal humerus, which may provide some guidance for the treatment plan selection and surgical fixation design.

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“…A three-dimensional fracture map can demonstrate the characteristic of fracture morphology and has been used to study fractures in distal radius [ 17 ], intertrochanter, distal femur [ 4 ], patella [ 18 ], tibial plateau [ 19 ], and ankle [ 20 ], providing more details and the overall characteristics of fractures compared to plain radiography or two-dimensional CT images. Based on the 3D fracture map, the fracture heat map also displays the fracture incidence of each part.…”

Section: Discussionmentioning

confidence: 99%

Three-dimensional fracture mapping and analysis of coronal fractures in AO/OTA types 33-B3 and C3

et al. 2022

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Background Although the relatively high incidence of coronal fractures in the supracondylar–intercondylar fractures is well established, little is currently known about the morphology of those fractures. Herein, we characterized the coronal fractures in AO/OTA type 33-C3 and assessed their differences with Busch–Hoffa fractures (33-B3). Methods We retrospectively collected 61 cases of AO/OTA type 33-B or C fractures with coronal plane fragments and generated three-dimensional fracture maps of those with coronal fractures based on CT imaging and measured angle α (the angle between the coronal fracture and the posterior condyle axis in the axis plane) and angle β (the angle between the coronal fracture and the posterior femoral cortex in the sagittal plane). Results Thirty-three cases (32%) of AO/OTA type 33-C fractures contained coronal fragments. Most of them were type 33-C3 fractures. Angles α and β for type 33-C3 were significantly smaller than for type B3 at the lateral condyle, while the angles at the medial condyle were not significantly different. The fracture maps showed that the coronal fractures and the articular comminution area were more anterior in type 33-C3. Conclusions The incidence of coronal fractures was 32% and 67% in AO/OTA types 33-C and 33-C3, respectively. Our findings suggest that coronal fractures differed between both types, emphasizing the potential need for different treatment approaches.

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Melone’s concept revisited in comminuted distal radius fractures: the three-dimensional CT mapping

Cited by 13 publications

References 23 publications

A three-dimensional computed tomography study of the palmar ulnar corner fragment in distal radial fractures

A three-dimensional computed tomography study of the palmar ulnar corner fragment in distal radial fractures

Three-dimensional mapping of distal humerus fracture

Three-dimensional fracture mapping and analysis of coronal fractures in AO/OTA types 33-B3 and C3

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