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Researcher
Amelie Sas
- Disciplines:Biomechanics
Affiliations
- BioMechanics (BMe) (Division)
Member
From1 Aug 2020 → 30 Jun 2022 - Biomechanics Section (Division)
Member
From18 Sep 2017 → 31 Jul 2020
Projects
1 - 1 of 1
- Preventing Femoral Fractures in Patients with Bone MetastasesFrom18 Sep 2017 → 31 Dec 2021Funding: FWO Strategic Basic Research Grant
Publications
1 - 10 of 10
- Fracture risk assessment and evaluation of femoroplasty in metastatic proximal femurs. An in vivo CT-based finite element study(2023)
Authors: Amelie Sas, Hazem Wafa, An Sermon, Harry van Lenthe
Pages: 225 - 234 - Preventing Femoral Fractures in Patients with Bone Metastases(2021)
Authors: Amelie Sas, Harry van Lenthe, An Sermon
- Cemented short-stem total hip arthroplasty: Characteristics of line-to-line versus undersized cementing techniques using a validated CT-based finite element analysis(2021)
Authors: Fahimeh Azari, Amelie Sas, Harry van Lenthe
Pages: 1681 - 1690 - Hip implants can restore anatomical and medialized rotation centres in most cases: three-dimensional templating study comparing four
implantation strategies.(2021)
Authors: Amelie Sas
Pages: 476 - 485 - Mechanical and morphological characterization of PMMA/bone composites in human femoral heads(2021)
Authors: Amelie Sas, Harry van Lenthe
- Nonlinear voxel-based finite element model for strength assessment of healthy and metastatic proximal femurs(2020)
Authors: Amelie Sas, Harry van Lenthe
- Finite element models for fracture prevention in patients with metastatic bone disease. A literature review(2020)
Authors: Amelie Sas, An Sermon, Harry van Lenthe
- Cement augmentation of metastatic lesions in the proximal femur can improve bone strength(2020)
Authors: Amelie Sas, Dries Van Camp, Bert Lauwers, An Sermon, Harry van Lenthe
- Effect of anatomical variability on stress-shielding induced by short calcar-guided stems: Automated finite element analysis of 90 femora(2019)
Authors: Amelie Sas, Harry van Lenthe
Pages: 681 - 688 - Experimental validation of a voxel-based finite element model simulating femoroplasty of lytic lesions in the proximal femur
Authors: Amelie Sas, An Sermon, Harry van Lenthe