Finite element models for fracture prevention in patients with metastatic bone disease. A literature review

Finite element models for fracture prevention in patients with metastatic bone disease. A literature review

Patients with bone metastases have an increased risk to sustain a pathological fracture as lytic metastatic lesions damage and weaken the bone. In order to prevent fractures, prophylactic treatment is advised for patients with a high fracture risk. Mechanical stabilization of the femur can be provid...

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Bibliographic Details
Main Authors: Amelie Sas, Esther Tanck, An Sermon, G. Harry van Lenthe
Format: Article
Language:English
Published: Elsevier 2020-06-01
Series:Bone Reports
Subjects:
Bone metastases
Fracture risk
Prophylactic treatment
Femoroplasty
Finite element analysis
Online Access:http://www.sciencedirect.com/science/article/pii/S2352187220300462
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spelling doaj-4cabb5febdcb46df94713b6b1e2c42ce2020-11-25T03:16:55ZengElsevierBone Reports2352-18722020-06-0112100286Finite element models for fracture prevention in patients with metastatic bone disease. A literature reviewAmelie Sas0Esther Tanck1An Sermon2G. Harry van Lenthe3Biomechanics Section, KU Leuven, Leuven, BelgiumOrthopaedic Research Laboratory, Radboud Institute for Health Sciences, Radboud University Medical Center, Nijmegen, the NetherlandsDepartment of Traumatology, University Hospitals Gasthuisberg, Leuven, Belgium and Department of Development and Regeneration, KU Leuven, Leuven, BelgiumBiomechanics Section, KU Leuven, Leuven, Belgium; Corresponding author.Patients with bone metastases have an increased risk to sustain a pathological fracture as lytic metastatic lesions damage and weaken the bone. In order to prevent fractures, prophylactic treatment is advised for patients with a high fracture risk. Mechanical stabilization of the femur can be provided through femoroplasty, a minimally invasive procedure where bone cement is injected into the lesion, or through internal fixation with intra- or extramedullary implants. Clinicians face the task of determining whether or not prophylactic treatment is required and which treatment would be the most optimal. Finite element (FE) models are promising tools that could support this decision process. The aim of this paper is to provide an overview of the state-of-the-art in FE modeling for the treatment decision of metastatic bone lesions in the femur. First, we will summarize the clinical and mechanical results of femoroplasty as a prophylactic treatment method. Secondly, current FE models for fracture risk assessment of metastatic femurs will be reviewed and the remaining challenges for clinical implementation will be discussed. Thirdly, we will elaborate on the simulation of femoroplasty in FE models and discuss future opportunities. Femoroplasty has already proven to effectively relieve pain and improve functionality, but there remains uncertainty whether it provides sufficient mechanical strengthening to prevent pathological fractures. FE models could help to select appropriate candidates for whom femoroplasty provides sufficient increase in strength and to further improve the mechanical benefit by optimizing the locations for cement augmentation.http://www.sciencedirect.com/science/article/pii/S2352187220300462Bone metastasesFracture riskProphylactic treatmentFemoroplastyFinite element analysis
collection DOAJ
language English
format Article
sources DOAJ
author Amelie Sas
Esther Tanck
An Sermon
G. Harry van Lenthe
spellingShingle Amelie Sas
Esther Tanck
An Sermon
G. Harry van Lenthe
Finite element models for fracture prevention in patients with metastatic bone disease. A literature review
Bone Reports
Bone metastases
Fracture risk
Prophylactic treatment
Femoroplasty
Finite element analysis
author_facet Amelie Sas
Esther Tanck
An Sermon
G. Harry van Lenthe
author_sort Amelie Sas
title Finite element models for fracture prevention in patients with metastatic bone disease. A literature review
title_short Finite element models for fracture prevention in patients with metastatic bone disease. A literature review
title_full Finite element models for fracture prevention in patients with metastatic bone disease. A literature review
title_fullStr Finite element models for fracture prevention in patients with metastatic bone disease. A literature review
title_full_unstemmed Finite element models for fracture prevention in patients with metastatic bone disease. A literature review
title_sort finite element models for fracture prevention in patients with metastatic bone disease. a literature review
publisher Elsevier
series Bone Reports
issn 2352-1872
publishDate 2020-06-01
description Patients with bone metastases have an increased risk to sustain a pathological fracture as lytic metastatic lesions damage and weaken the bone. In order to prevent fractures, prophylactic treatment is advised for patients with a high fracture risk. Mechanical stabilization of the femur can be provided through femoroplasty, a minimally invasive procedure where bone cement is injected into the lesion, or through internal fixation with intra- or extramedullary implants. Clinicians face the task of determining whether or not prophylactic treatment is required and which treatment would be the most optimal. Finite element (FE) models are promising tools that could support this decision process. The aim of this paper is to provide an overview of the state-of-the-art in FE modeling for the treatment decision of metastatic bone lesions in the femur. First, we will summarize the clinical and mechanical results of femoroplasty as a prophylactic treatment method. Secondly, current FE models for fracture risk assessment of metastatic femurs will be reviewed and the remaining challenges for clinical implementation will be discussed. Thirdly, we will elaborate on the simulation of femoroplasty in FE models and discuss future opportunities. Femoroplasty has already proven to effectively relieve pain and improve functionality, but there remains uncertainty whether it provides sufficient mechanical strengthening to prevent pathological fractures. FE models could help to select appropriate candidates for whom femoroplasty provides sufficient increase in strength and to further improve the mechanical benefit by optimizing the locations for cement augmentation.
topic Bone metastases
Fracture risk
Prophylactic treatment
Femoroplasty
Finite element analysis
url http://www.sciencedirect.com/science/article/pii/S2352187220300462
work_keys_str_mv AT ameliesas finiteelementmodelsforfracturepreventioninpatientswithmetastaticbonediseasealiteraturereview
AT esthertanck finiteelementmodelsforfracturepreventioninpatientswithmetastaticbonediseasealiteraturereview
AT ansermon finiteelementmodelsforfracturepreventioninpatientswithmetastaticbonediseasealiteraturereview
AT gharryvanlenthe finiteelementmodelsforfracturepreventioninpatientswithmetastaticbonediseasealiteraturereview
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