The effect of femoral head size on edge loading in metal‐on‐metal hip joint replacement under dynamic separation conditions

F, Liu; Lian, Chao; Li, Feng; Wang, Junyuan; Du, Wenhua

doi:10.1002/jbm.b.34531

Cited by 2 publications

(3 citation statements)

References 48 publications

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“…16°). 13 Cup inclination above 55°(correlating with a CEA < 35°) has been implicated in the development of edge-loading complications with all prosthetic combinations, including ceramic squeaking, metal-on-metal wear, and premature polyethylene wear [14][15][16][17] . In addition, in a native hip, a CEA < 20°i s considered insufficient to contain vertical joint forces, leading to early arthritis 18 .…”

Section: Discussionmentioning

confidence: 99%

Segmental Acetabular Defects Managed by Augments in Conjunction with CT During Robotic Total Hip Arthroplasty

Chen

Stoll

2022

JBJS Case Connector

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Cases: We present 2 robotic-assisted hip arthroplasty cases with significant segmental acetabular defects that could compromise cup fixation. We outline an algorithmic planning approach on a computed tomography (CT)based platform to address these defects by predicting augmentation needs, when component adjustments alone are inadequate, and describe the novel combination of augments in conjunction with robotic-assisted hip arthroplasty. Conclusion:CT-based robotic-assisted hip arthroplasty is a powerful tool to assess and address acetabular deficiencies.Rudimentary augment planning extracts additional value out of the preoperative CT. However, there remains room for intelligent assessment of hip centers and for deliberate augment planning and execution.Disclosure: The Disclosure of Potential Conflicts of Interest forms are provided with the online version of the article (http://links.lww.com/JBJSCC/B985).

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Section: Discussionmentioning

confidence: 99%

Segmental Acetabular Defects Managed by Augments in Conjunction with CT During Robotic Total Hip Arthroplasty

Chen

Stoll

2022

JBJS Case Connector

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“…In corresponding model A, part of cancellous bone around the spiral blade of common PFNA screws was set as bone cement components and stored as model B, as shown in Figure 2. The apparent density, elastic modulus, Poisson's ratio and yield stress parameters of model B's bone cement material are shown in Table 1 [22][23][24][25][26][27][28] .…”

Section: Material Boundary and Other Parametersmentioning

confidence: 99%

“…The unit model of the farthest part of the bone was bound to ensure stability during operation. In model C, the cancellous bone around the proximal end of the enhanced screw was set as the bone cement component, as shown in Figure 2 [23] . All parameters of model C's bone cement materials remain unchanged, as shown in Table 1 for reference.…”

Section: Construction Of Enhanced Screw Model For Intertrochanteric F...mentioning

confidence: 99%

Reinforced Screw Fixation of Severe Osteoporotic Intertrochanteric Femur Evans II Fracture Biomechanics Biomechanical Finite Element Analysis

Hairula

Jinsihan³

et al. 2022

Preprint

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Objective: To compare the biomechanical differences between cement- reinforced intramedullary nailing with reinforced screws (a new patented invention), plain PFNA, and cemented nail tract reinforced PFNA for severe osteoporotic Evans II intertrochanteric fractures of the femur. Methods: The CT data of one patient with intertrochanteric femoral fracture with severe osteoporosis (signed and informed) were selected in Mimics 20 software and Geomagic Wrap 2017 software for medium-sized femoral model assembly, assembly standard reference standard of surgical technique. The assembled model was then subjected to osteotomy in the 3-Matic software according to the type Evans II femoral intertrochanteric fracture criteria to obtain the corresponding fracture model, And set the cancellous bone around the spiral blade of the common PFNA screw and around the proximal end of the reinforcing screw in the corresponding fracture model, Save as A (ordinary PFNA), B (nail reinforced PFNA) and C (reinforced screw), Corresponding parameters and conditions according to the CT data and the material standard of internal fixation, according to the force of human mechanics in the femur and the weight of the patient, They were stored separately and analyzed using the Explicit Dynamics module in the ansys2019 software. Observations: The degree of cutting of the screw at the proximal end of the femur, the angle of the femoral neck turning inward, the angle of rotation, the distribution of stress in the femur, and the distance where the femoral fracture part is displaced.Results:The cutting of the screw at the proximal femur, the inward turning angle of the femoral neck(0.32°), the distribution of stress in the bone of the femur and the displacement of the femoral fracture part(0.58 mm) are superior over PFNA and nail reinforcement. Conclusion Reinforced screws have better biomechanical results than common bone PFNA and nail-track reinforced PFNA for severe osteoporotic intertrochanteric Evans II femur fractures.

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The effect of femoral head size on edge loading in metal‐on‐metal hip joint replacement under dynamic separation conditions

Cited by 2 publications

References 48 publications

Segmental Acetabular Defects Managed by Augments in Conjunction with CT During Robotic Total Hip Arthroplasty

Segmental Acetabular Defects Managed by Augments in Conjunction with CT During Robotic Total Hip Arthroplasty

Reinforced Screw Fixation of Severe Osteoporotic Intertrochanteric Femur Evans II Fracture Biomechanics Biomechanical Finite Element Analysis

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