Effects of conform, non-conform, and hybrid conformity toward stress distribution at the glenoid implant and cement: A finite element study
Glenoid conformity is one of the important aspects that could contribute to implant stability. However, the optimal conformity is still being debated among the researchers. Therefore, this study aims to analyze the stress distribution of the implant and cement in three types of conformity (conform,...
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my.utm.1009302023-05-18T04:32:15Z http://eprints.utm.my/id/eprint/100930/ Effects of conform, non-conform, and hybrid conformity toward stress distribution at the glenoid implant and cement: A finite element study Abdul Wahab, Abdul Hadi Mohamad Azmi, Nor Aqilah Abdul Kadir, Mohammed Rafiq Md. Saad, Amir Putra HD28 Management. Industrial Management Glenoid conformity is one of the important aspects that could contribute to implant stability. However, the optimal conformity is still being debated among the researchers. Therefore, this study aims to analyze the stress distribution of the implant and cement in three types of conformity (conform, non-conform, and hybrid) in three load conditions (central, anterior, and posterior). Glenoid implant and cement were reconstructed using Solidwork software and a 3D model of scapula bone was done using MIMICS software. Constant load, 750 N, was applied at the central, anterior, and posterior region of the glenoid implant which represents average load for daily living activities for elder people, including, walking with a stick and standing up from a chair. The results showed that, during center load, an implant with dual conformity (hybrid) showed the best (Max Stress—3.93 MPa) and well-distributed stress as compared to other conformity (Non-conform—7.21 MPa, Conform—9.38 MPa). While, during eccentric load (anterior and posterior), high stress was located at the anterior and posterior region with respect to the load applied. Cement stress for non-conform and hybrid implant recorded less than 5 MPa, which indicates it had a very low risk to have cement microcracks, whilst, conform implant was exposed to microcrack of the cement. In conclusion, hybrid conformity showed a promising result that could compromise between conform and non-conform implant. However, further enhancement is required for hybrid implants when dealing with eccentric load (anterior and posterior). SAGE Publications Ltd. 2022-02 Article PeerReviewed Abdul Wahab, Abdul Hadi and Mohamad Azmi, Nor Aqilah and Abdul Kadir, Mohammed Rafiq and Md. Saad, Amir Putra (2022) Effects of conform, non-conform, and hybrid conformity toward stress distribution at the glenoid implant and cement: A finite element study. International Journal of Artificial Organs, 45 (2). pp. 200-206. ISSN 0391-3988 http://dx.doi.org/10.1177/0391398821999391 DOI: 10.1177/0391398821999391 |
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HD28 Management. Industrial Management Abdul Wahab, Abdul Hadi Mohamad Azmi, Nor Aqilah Abdul Kadir, Mohammed Rafiq Md. Saad, Amir Putra Effects of conform, non-conform, and hybrid conformity toward stress distribution at the glenoid implant and cement: A finite element study |
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Glenoid conformity is one of the important aspects that could contribute to implant stability. However, the optimal conformity is still being debated among the researchers. Therefore, this study aims to analyze the stress distribution of the implant and cement in three types of conformity (conform, non-conform, and hybrid) in three load conditions (central, anterior, and posterior). Glenoid implant and cement were reconstructed using Solidwork software and a 3D model of scapula bone was done using MIMICS software. Constant load, 750 N, was applied at the central, anterior, and posterior region of the glenoid implant which represents average load for daily living activities for elder people, including, walking with a stick and standing up from a chair. The results showed that, during center load, an implant with dual conformity (hybrid) showed the best (Max Stress—3.93 MPa) and well-distributed stress as compared to other conformity (Non-conform—7.21 MPa, Conform—9.38 MPa). While, during eccentric load (anterior and posterior), high stress was located at the anterior and posterior region with respect to the load applied. Cement stress for non-conform and hybrid implant recorded less than 5 MPa, which indicates it had a very low risk to have cement microcracks, whilst, conform implant was exposed to microcrack of the cement. In conclusion, hybrid conformity showed a promising result that could compromise between conform and non-conform implant. However, further enhancement is required for hybrid implants when dealing with eccentric load (anterior and posterior). |
| format |
Article |
| author |
Abdul Wahab, Abdul Hadi Mohamad Azmi, Nor Aqilah Abdul Kadir, Mohammed Rafiq Md. Saad, Amir Putra |
| author_facet |
Abdul Wahab, Abdul Hadi Mohamad Azmi, Nor Aqilah Abdul Kadir, Mohammed Rafiq Md. Saad, Amir Putra |
| author_sort |
Abdul Wahab, Abdul Hadi |
| title |
Effects of conform, non-conform, and hybrid conformity toward stress distribution at the glenoid implant and cement: A finite element study |
| title_short |
Effects of conform, non-conform, and hybrid conformity toward stress distribution at the glenoid implant and cement: A finite element study |
| title_full |
Effects of conform, non-conform, and hybrid conformity toward stress distribution at the glenoid implant and cement: A finite element study |
| title_fullStr |
Effects of conform, non-conform, and hybrid conformity toward stress distribution at the glenoid implant and cement: A finite element study |
| title_full_unstemmed |
Effects of conform, non-conform, and hybrid conformity toward stress distribution at the glenoid implant and cement: A finite element study |
| title_sort |
effects of conform, non-conform, and hybrid conformity toward stress distribution at the glenoid implant and cement: a finite element study |
| publisher |
SAGE Publications Ltd. |
| publishDate |
2022 |
| url |
http://eprints.utm.my/id/eprint/100930/ http://dx.doi.org/10.1177/0391398821999391 |
| _version_ |
1768006586426458112 |
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13.18916 |