The effect of cortical thickness and thread profile dimensions on stress and strain in bone-anchored implants for amputation prostheses
| Autor: | Alexander Thesleff, Rickard Brånemark, Max Ortiz-Catalan |
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| Rok vydání: | 2021 |
| Předmět: |
Dental Implants
Materials science Bone-Anchored Prosthesis medicine.medical_treatment Finite Element Analysis Biomedical Engineering Artificial Limbs Bone tissue Osseointegration Amputation Surgical Stress (mechanics) Biomaterials medicine.anatomical_structure Amputation Mechanics of Materials medicine Cortical Bone Autologous transplantation Humans Cortical bone Implant Stress Mechanical Abutment (dentistry) Biomedical engineering |
| Popis: | Skeletal attachment of limb prostheses ensures load transfer between the prosthetic leg and the skeleton. For individuals with lower limb amputation, these loads may be of substantial magnitude. To optimize the design of such systems, knowledge about the structural interplay between implant design features, dimensional changes, and material properties of the implant and the surrounding bone is needed. Here, we present the results from a parametric finite element investigation on a generic bone-anchored implant system of screw design, exposed to external loads corresponding to average and high ambulatory loading. Of the investigated parameters, cortical thickness had the largest effect on the stress and strain in the bone-anchored implant and in the cortical bone. 36%-44% reductions in maximum longitudinal stress in the bone-anchored implant was observed as a result of increased cortical thickness from 2 mm to 5 mm. A change in thread depth from 1.5 mm to 0.75 mm resulted in 20%-22% and 10%-18% reductions in maximum longitudinal stress in the bone-anchored implant at 2 mm and 5 mm cortical thickness respectively. The effect of changes in the thread root radius was less prominent, with 8% reduction in the maximum longitudinal stress in the bone-anchored implant being the largest observed effect, resulting from an increased thread root radius from 0.1 mm to 0.5 mm at a thread depth of 1.5 mm. Autologous transplantation of bone tissue distal to the fixture resulted in reductions in the longitudinal stress in the percutaneous abutment. The observed stress reduction of 10%-31% was dependent on the stiffness of the transplanted bone graft and the cortical thickness of surrounding bone. Results from this investigation may guide structural design optimization for bone-anchored implant systems for attachment of limb prostheses. |
| Databáze: | OpenAIRE |
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