Stress distribution and stability evaluation of difference number of screws for treating tibia transverse fracture: analysis on patient-specific data
Introduction: Screws placement may influence the stress distribution and stability of the plate and bone. Implant failures are normally happened in clinical practise when inappropriate number of screws is implemented. Therefore, intensive investigations are needed to provide additional quantitative...
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my.utm.1028892023-09-26T06:13:53Z http://eprints.utm.my/id/eprint/102889/ Stress distribution and stability evaluation of difference number of screws for treating tibia transverse fracture: analysis on patient-specific data Suaimi, Muhammad Khairul Asyraf Ab. Rashid, Amir Mustakim Nasution, Ahmad Kafrawi Gan, Hong Seng Ng, Bing Wui Ramlee, Muhammad Hanif Q Science (General) RA Public aspects of medicine Introduction: Screws placement may influence the stress distribution and stability of the plate and bone. Implant failures are normally happened in clinical practise when inappropriate number of screws is implemented. Therefore, intensive investigations are needed to provide additional quantitative data on the use of different number of screws. Therefore, this study was conducted to investigate the biomechanical performance of different number of screws configurations on Locking compression plate (LCP) assembly when treating transverse fractures of the tibia bone. Methods: Finite element method was used to simulate tibia bone fracture treated with LCP in standing phase simulation. To accomplish this, a three-dimensional tibia model was reconstructed using CT dataset images. 11 holes of LCP and 36mm of locking screws were developed using SolidWorks software. From this study, there are three models in total have been developed with different number of screws and screw placements. A diaphysis transverse tibia fracture of 4 mm was constructed. Results: In terms of stress distribution, all configurations provide sufficient stress and do not exceeding the yield strength of that material. Conclusion: In conclusion, eight numbers of screws were the optimum configurations in order to provide ideal stability to the bone with displacement of 0.37 mm and 0.91 mm at plate and bone, respectively. UPM Press 2022-05 Article PeerReviewed Suaimi, Muhammad Khairul Asyraf and Ab. Rashid, Amir Mustakim and Nasution, Ahmad Kafrawi and Gan, Hong Seng and Ng, Bing Wui and Ramlee, Muhammad Hanif (2022) Stress distribution and stability evaluation of difference number of screws for treating tibia transverse fracture: analysis on patient-specific data. Malaysian Journal of Medicine and Health Sciences, 18 (3). pp. 17-23. ISSN 1675-8544 https://medic.upm.edu.my/jurnal_kami/volume_18_2022/mjmhs_vol18_no_3_may_2022-66847 NA |
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Q Science (General) RA Public aspects of medicine Suaimi, Muhammad Khairul Asyraf Ab. Rashid, Amir Mustakim Nasution, Ahmad Kafrawi Gan, Hong Seng Ng, Bing Wui Ramlee, Muhammad Hanif Stress distribution and stability evaluation of difference number of screws for treating tibia transverse fracture: analysis on patient-specific data |
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Introduction: Screws placement may influence the stress distribution and stability of the plate and bone. Implant failures are normally happened in clinical practise when inappropriate number of screws is implemented. Therefore, intensive investigations are needed to provide additional quantitative data on the use of different number of screws. Therefore, this study was conducted to investigate the biomechanical performance of different number of screws configurations on Locking compression plate (LCP) assembly when treating transverse fractures of the tibia bone. Methods: Finite element method was used to simulate tibia bone fracture treated with LCP in standing phase simulation. To accomplish this, a three-dimensional tibia model was reconstructed using CT dataset images. 11 holes of LCP and 36mm of locking screws were developed using SolidWorks software. From this study, there are three models in total have been developed with different number of screws and screw placements. A diaphysis transverse tibia fracture of 4 mm was constructed. Results: In terms of stress distribution, all configurations provide sufficient stress and do not exceeding the yield strength of that material. Conclusion: In conclusion, eight numbers of screws were the optimum configurations in order to provide ideal stability to the bone with displacement of 0.37 mm and 0.91 mm at plate and bone, respectively. |
| format |
Article |
| author |
Suaimi, Muhammad Khairul Asyraf Ab. Rashid, Amir Mustakim Nasution, Ahmad Kafrawi Gan, Hong Seng Ng, Bing Wui Ramlee, Muhammad Hanif |
| author_facet |
Suaimi, Muhammad Khairul Asyraf Ab. Rashid, Amir Mustakim Nasution, Ahmad Kafrawi Gan, Hong Seng Ng, Bing Wui Ramlee, Muhammad Hanif |
| author_sort |
Suaimi, Muhammad Khairul Asyraf |
| title |
Stress distribution and stability evaluation of difference number of screws for treating tibia transverse fracture: analysis on patient-specific data |
| title_short |
Stress distribution and stability evaluation of difference number of screws for treating tibia transverse fracture: analysis on patient-specific data |
| title_full |
Stress distribution and stability evaluation of difference number of screws for treating tibia transverse fracture: analysis on patient-specific data |
| title_fullStr |
Stress distribution and stability evaluation of difference number of screws for treating tibia transverse fracture: analysis on patient-specific data |
| title_full_unstemmed |
Stress distribution and stability evaluation of difference number of screws for treating tibia transverse fracture: analysis on patient-specific data |
| title_sort |
stress distribution and stability evaluation of difference number of screws for treating tibia transverse fracture: analysis on patient-specific data |
| publisher |
UPM Press |
| publishDate |
2022 |
| url |
http://eprints.utm.my/id/eprint/102889/ https://medic.upm.edu.my/jurnal_kami/volume_18_2022/mjmhs_vol18_no_3_may_2022-66847 |
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