Customized reconstructive prosthesis design based on topological optimization to treat severe proximal tibia defect

A novel reconstructive prosthesis was designed with topological optimization (TO) and a lattice structure to enhance biomechanical and biological properties in the proximal tibia. The biomechanical performance was validated through finite element analysis (FEA) and biomechanical tests. The tibia wit...

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Published in	Bio-design and manufacturing Vol. 4; no. 1; pp. 87 - 99
Main Authors	Zhang, Aobo, Chen, Hao, Liu, Yang, Wu, Naichao, Chen, Bingpeng, Zhao, Xue, Han, Qing, Wang, Jincheng
Format	Journal Article
Language	English
Published	Singapore Springer Singapore 01.03.2021 Springer Nature B.V
Subjects	Biomaterials Biomechanics Biomedical Engineering and Bioengineering Bone density Computed tomography Defects Engineering Finite element method Fractures Friction Gait Joint surgery Knee Load Mechanical Engineering Orthopedics Patients Polymethyl methacrylate Prostheses Research Article Stress concentration Tibia Titanium alloys Transplants & implants Belgium United States > US Graded lattice Proximal tibia Customized reconstructive prosthesis Finite element analysis Topological optimization Severe bone defect
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ISSN	2096-5524 2522-8552
DOI	10.1007/s42242-020-00102-7

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Abstract	A novel reconstructive prosthesis was designed with topological optimization (TO) and a lattice structure to enhance biomechanical and biological properties in the proximal tibia. The biomechanical performance was validated through finite element analysis (FEA) and biomechanical tests. The tibia with inhomogeneous material properties was reconstructed according to computed tomography images, and different components were designed to simulate the operation. Minimum compliance TO subject to a volume fraction constraint combined with a graded lattice structure was utilized to redesign the prosthesis. FEA was performed to evaluate the mechanical performances of the tibia and implants after optimization, including stress, micromotion, and strain energy. The results were analyzed by paired-samples t tests, and p < 0.05 was considered significant. Biomechanical testing was used to verify the tibial stresses. Compared to the original group (OG), the TO group (TOG) exhibited lower stress on the stem, and the maximum von Mises stresses were 87.2 and 53.1 MPa, respectively, a 39.1% reduction ( p < 0.05). Conversely, the stress and strain energy on the tibia increased in the TOG. The maximum von Mises stress values were 16.4 MPa in the OG and 22.9 MPa in the TOG with a 39.6% increase ( p < 0.05), and the maximum SED value was 0.026 MPa in the OG and 0.042 MPa in the TOG, corresponding to an increase of 61.5% ( p < 0.05). The maximum micromotions in the distal end of the stem were 135 μm in the OG and 68 μm in the TOG, almost a 50% reduction. The stress curves of the biomechanical test coincided well with the FEA results. The TO approach can effectively reduce the whole weight of the prosthesis and improve the biomechanical environment of the tibia. It could also pave the way for next-generation applications in orthopedics surgery.
AbstractList	A novel reconstructive prosthesis was designed with topological optimization (TO) and a lattice structure to enhance biomechanical and biological properties in the proximal tibia. The biomechanical performance was validated through finite element analysis (FEA) and biomechanical tests. The tibia with inhomogeneous material properties was reconstructed according to computed tomography images, and different components were designed to simulate the operation. Minimum compliance TO subject to a volume fraction constraint combined with a graded lattice structure was utilized to redesign the prosthesis. FEA was performed to evaluate the mechanical performances of the tibia and implants after optimization, including stress, micromotion, and strain energy. The results were analyzed by paired-samples t tests, and p < 0.05 was considered significant. Biomechanical testing was used to verify the tibial stresses. Compared to the original group (OG), the TO group (TOG) exhibited lower stress on the stem, and the maximum von Mises stresses were 87.2 and 53.1 MPa, respectively, a 39.1% reduction (p < 0.05). Conversely, the stress and strain energy on the tibia increased in the TOG. The maximum von Mises stress values were 16.4 MPa in the OG and 22.9 MPa in the TOG with a 39.6% increase (p < 0.05), and the maximum SED value was 0.026 MPa in the OG and 0.042 MPa in the TOG, corresponding to an increase of 61.5% (p < 0.05). The maximum micromotions in the distal end of the stem were 135 μm in the OG and 68 μm in the TOG, almost a 50% reduction. The stress curves of the biomechanical test coincided well with the FEA results. The TO approach can effectively reduce the whole weight of the prosthesis and improve the biomechanical environment of the tibia. It could also pave the way for next-generation applications in orthopedics surgery. A novel reconstructive prosthesis was designed with topological optimization (TO) and a lattice structure to enhance biomechanical and biological properties in the proximal tibia. The biomechanical performance was validated through finite element analysis (FEA) and biomechanical tests. The tibia with inhomogeneous material properties was reconstructed according to computed tomography images, and different components were designed to simulate the operation. Minimum compliance TO subject to a volume fraction constraint combined with a graded lattice structure was utilized to redesign the prosthesis. FEA was performed to evaluate the mechanical performances of the tibia and implants after optimization, including stress, micromotion, and strain energy. The results were analyzed by paired-samples t tests, and p < 0.05 was considered significant. Biomechanical testing was used to verify the tibial stresses. Compared to the original group (OG), the TO group (TOG) exhibited lower stress on the stem, and the maximum von Mises stresses were 87.2 and 53.1 MPa, respectively, a 39.1% reduction ( p < 0.05). Conversely, the stress and strain energy on the tibia increased in the TOG. The maximum von Mises stress values were 16.4 MPa in the OG and 22.9 MPa in the TOG with a 39.6% increase ( p < 0.05), and the maximum SED value was 0.026 MPa in the OG and 0.042 MPa in the TOG, corresponding to an increase of 61.5% ( p < 0.05). The maximum micromotions in the distal end of the stem were 135 μm in the OG and 68 μm in the TOG, almost a 50% reduction. The stress curves of the biomechanical test coincided well with the FEA results. The TO approach can effectively reduce the whole weight of the prosthesis and improve the biomechanical environment of the tibia. It could also pave the way for next-generation applications in orthopedics surgery.
Author	Wu, Naichao Zhao, Xue Han, Qing Wang, Jincheng Liu, Yang Chen, Hao Zhang, Aobo Chen, Bingpeng
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Keywords	Graded lattice Proximal tibia Customized reconstructive prosthesis Finite element analysis Topological optimization Severe bone defect
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publication-title: Microsc Res Tech doi: 10.1002/jemt.22899
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Snippet	A novel reconstructive prosthesis was designed with topological optimization (TO) and a lattice structure to enhance biomechanical and biological properties in...
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SubjectTerms	Biomaterials Biomechanics Biomedical Engineering and Bioengineering Bone density Computed tomography Defects Engineering Finite element method Fractures Friction Gait Joint surgery Knee Load Mechanical Engineering Orthopedics Patients Polymethyl methacrylate Prostheses Research Article Stress concentration Tibia Titanium alloys Transplants & implants
Title	Customized reconstructive prosthesis design based on topological optimization to treat severe proximal tibia defect
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