Biomechanical properties of a novel fixation system for intra-articular distal humerus fractures: a finite element analysis
Abstract Background The traditional strategy for fixing intra-articular distal humerus fractures is double plating placed in an orthogonal configuration, based on posterior approach. With a combined medial and lateral approach, a novel configuration of plating (combined anteromedial and anterolatera...
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oai:doaj.org-article:66f998af265a4ac7a072e33abef2113d2021-11-21T12:29:57ZBiomechanical properties of a novel fixation system for intra-articular distal humerus fractures: a finite element analysis10.1186/s13018-021-02836-11749-799Xhttps://doaj.org/article/66f998af265a4ac7a072e33abef2113d2021-11-01T00:00:00Zhttps://doi.org/10.1186/s13018-021-02836-1https://doaj.org/toc/1749-799XAbstract Background The traditional strategy for fixing intra-articular distal humerus fractures is double plating placed in an orthogonal configuration, based on posterior approach. With a combined medial and lateral approach, a novel configuration of plating (combined anteromedial and anterolateral plating) has been used. In this study, we investigated the biomechanical properties of the novel plating by comparing it with some traditional strategies. Methods Based on the 3D morphology of a healthy subject’s humerus, models of three types of intra-articular distal humeral fractures were established using a variety of different internal fixation methods: (a) treatment of a simple intra-articular fracture of the distal humerus with the novel double plate and a traditional orthogonal plate; (b) treatment of a comminuted fracture of the lower distal humerus with the novel double plate, a traditional orthogonal plate and a traditional orthogonal plate combined with distally extended tension screws; (c) treatment of a coronal shear fracture of the distal humerus with the novel double plate, a traditional orthogonal plate and the intra-articular placement of three screws. The material properties of all plates and screws were isotropic and linearly elastic. The Poisson ratio of the implant and bone was 0.3, and the elastic modulus of the implant was 114,000 MPa. The axial loading is 200 N, the bending loading is 30 N and varus rotation is 7.5 Nm in the longitudinal direction. Results A simple model of intra-articular fracture of the distal humerus (AO C1 type) was established. Under all experimental conditions, the novel double plate showed greater stiffness than the orthogonal double plate. The axial straightening, bending compression and varus torsion increased by 18.00%, 16.00% and 44.00%, respectively. In the model of comminuted fracture of the lower distal humerus, the novel double plate showed the best stiffness under three experimental conditions (163.93 N/mm, 37.97 N/mm, 2697.84 N mm/°), and the stiffness of the traditional orthogonal plate combined with the distally extended tension screws was similar to that of the traditional orthogonal plate (121.21 N/mm, 32.61 N/mm, 1968.50 N mm/°). In the model of coronal shear fracture of the distal humerus, the novel double plate showed the best stiffness under all test conditions (194.17 N/mm, 38.46 N/mm, 2929.69 N mm/°), followed by the traditional plate (153.85 N/mm, 33.33 N/mm, 2650.18 N mm/°), while the stiffness of the three screws was the smallest (115.61 N/mm, 28.30 N/mm, 2180.23 N mm/°). Conclusions In terms of biomechanics, compared with other internal fixation methods, the novel combined anteromedial and anterolateral anatomical locking double-plate showed less stress, less displacement and greater stiffness. The novel double-plate method can be used to treat not only simple intra-articular fractures of the humerus but also complex comminuted fractures of the lower distal humerus and coronal shear fractures of the distal humerus, with a better effect than current traditional internal fixation methods.Lingpeng KongYan WangQingsen LuYong HanFu WangBMCarticleDistal humeral fractureCapitellumTrochleaBiomechanicsFinite element analysisInternal fixationOrthopedic surgeryRD701-811Diseases of the musculoskeletal systemRC925-935ENJournal of Orthopaedic Surgery and Research, Vol 16, Iss 1, Pp 1-14 (2021) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
Distal humeral fracture Capitellum Trochlea Biomechanics Finite element analysis Internal fixation Orthopedic surgery RD701-811 Diseases of the musculoskeletal system RC925-935 |
| spellingShingle |
Distal humeral fracture Capitellum Trochlea Biomechanics Finite element analysis Internal fixation Orthopedic surgery RD701-811 Diseases of the musculoskeletal system RC925-935 Lingpeng Kong Yan Wang Qingsen Lu Yong Han Fu Wang Biomechanical properties of a novel fixation system for intra-articular distal humerus fractures: a finite element analysis |
| description |
Abstract Background The traditional strategy for fixing intra-articular distal humerus fractures is double plating placed in an orthogonal configuration, based on posterior approach. With a combined medial and lateral approach, a novel configuration of plating (combined anteromedial and anterolateral plating) has been used. In this study, we investigated the biomechanical properties of the novel plating by comparing it with some traditional strategies. Methods Based on the 3D morphology of a healthy subject’s humerus, models of three types of intra-articular distal humeral fractures were established using a variety of different internal fixation methods: (a) treatment of a simple intra-articular fracture of the distal humerus with the novel double plate and a traditional orthogonal plate; (b) treatment of a comminuted fracture of the lower distal humerus with the novel double plate, a traditional orthogonal plate and a traditional orthogonal plate combined with distally extended tension screws; (c) treatment of a coronal shear fracture of the distal humerus with the novel double plate, a traditional orthogonal plate and the intra-articular placement of three screws. The material properties of all plates and screws were isotropic and linearly elastic. The Poisson ratio of the implant and bone was 0.3, and the elastic modulus of the implant was 114,000 MPa. The axial loading is 200 N, the bending loading is 30 N and varus rotation is 7.5 Nm in the longitudinal direction. Results A simple model of intra-articular fracture of the distal humerus (AO C1 type) was established. Under all experimental conditions, the novel double plate showed greater stiffness than the orthogonal double plate. The axial straightening, bending compression and varus torsion increased by 18.00%, 16.00% and 44.00%, respectively. In the model of comminuted fracture of the lower distal humerus, the novel double plate showed the best stiffness under three experimental conditions (163.93 N/mm, 37.97 N/mm, 2697.84 N mm/°), and the stiffness of the traditional orthogonal plate combined with the distally extended tension screws was similar to that of the traditional orthogonal plate (121.21 N/mm, 32.61 N/mm, 1968.50 N mm/°). In the model of coronal shear fracture of the distal humerus, the novel double plate showed the best stiffness under all test conditions (194.17 N/mm, 38.46 N/mm, 2929.69 N mm/°), followed by the traditional plate (153.85 N/mm, 33.33 N/mm, 2650.18 N mm/°), while the stiffness of the three screws was the smallest (115.61 N/mm, 28.30 N/mm, 2180.23 N mm/°). Conclusions In terms of biomechanics, compared with other internal fixation methods, the novel combined anteromedial and anterolateral anatomical locking double-plate showed less stress, less displacement and greater stiffness. The novel double-plate method can be used to treat not only simple intra-articular fractures of the humerus but also complex comminuted fractures of the lower distal humerus and coronal shear fractures of the distal humerus, with a better effect than current traditional internal fixation methods. |
| format |
article |
| author |
Lingpeng Kong Yan Wang Qingsen Lu Yong Han Fu Wang |
| author_facet |
Lingpeng Kong Yan Wang Qingsen Lu Yong Han Fu Wang |
| author_sort |
Lingpeng Kong |
| title |
Biomechanical properties of a novel fixation system for intra-articular distal humerus fractures: a finite element analysis |
| title_short |
Biomechanical properties of a novel fixation system for intra-articular distal humerus fractures: a finite element analysis |
| title_full |
Biomechanical properties of a novel fixation system for intra-articular distal humerus fractures: a finite element analysis |
| title_fullStr |
Biomechanical properties of a novel fixation system for intra-articular distal humerus fractures: a finite element analysis |
| title_full_unstemmed |
Biomechanical properties of a novel fixation system for intra-articular distal humerus fractures: a finite element analysis |
| title_sort |
biomechanical properties of a novel fixation system for intra-articular distal humerus fractures: a finite element analysis |
| publisher |
BMC |
| publishDate |
2021 |
| url |
https://doaj.org/article/66f998af265a4ac7a072e33abef2113d |
| work_keys_str_mv |
AT lingpengkong biomechanicalpropertiesofanovelfixationsystemforintraarticulardistalhumerusfracturesafiniteelementanalysis AT yanwang biomechanicalpropertiesofanovelfixationsystemforintraarticulardistalhumerusfracturesafiniteelementanalysis AT qingsenlu biomechanicalpropertiesofanovelfixationsystemforintraarticulardistalhumerusfracturesafiniteelementanalysis AT yonghan biomechanicalpropertiesofanovelfixationsystemforintraarticulardistalhumerusfracturesafiniteelementanalysis AT fuwang biomechanicalpropertiesofanovelfixationsystemforintraarticulardistalhumerusfracturesafiniteelementanalysis |
| _version_ |
1718418948257480704 |