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Finite Element Analysis of Osteosynthesis Miniplate for the Reconstruction of Parasymphyseal Compound Fracture

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@article{IJASEIT4465,
   author = {Muslim Mahardika and Romario Aldrian Wicaksono and Maria Goreti Widiastuti and Budi Arifvianto and - Suyitno},
   title = {Finite Element Analysis of Osteosynthesis Miniplate for the Reconstruction of Parasymphyseal Compound Fracture},
   journal = {International Journal on Advanced Science, Engineering and Information Technology},
   volume = {8},
   number = {3},
   year = {2018},
   pages = {652--656},
   keywords = {miniplate; FEA; parasymphyseal compound fracture},
   abstract = {In the last two decades, the use of osteosynthesis miniplate has been growing to aid the healing process and reconstruction of fractured mandibular bone. In principle, the plate is used to provide stable fixation of the fractured bone tissue during the healing process and reconstruction. Based on earlier studies, it is noted that arrangements and geometry of the osteosynthesis miniplate played a critical role in determining the stability of the fractured mandibular bone, as well as the miniplate. In this research, a simulation with finite element method (FEM) was carried out to investigate the influence of the number of holes in an osteosynthesis miniplate on the stability of fractured mandibular bone and the corresponding miniplate after the implantation. For this purpose, a set of osteosynthesis miniplate with three different configurations was taken for simulation using a three-dimensional (3D) model of mandibular bone generated from the patient through computed tomography (CT). The result of the simulation showed that all the miniplates with three configurations tested were stable enough to prevent movement of fractured mandibular bone. Moreover, fixation with a pair of miniplates having four screw holes demonstrated the desired result; as indicated by the lowest value of displacement, pressure on the bone surface and pressure on the miniplate.},
   issn = {2088-5334},
   publisher = {INSIGHT - Indonesian Society for Knowledge and Human Development},
   url = {http://ijaseit.insightsociety.org/index.php?option=com_content&view=article&id=9&Itemid=1&article_id=4465},
   doi = {10.18517/ijaseit.8.3.4465}
}

EndNote

%A Mahardika, Muslim
%A Wicaksono, Romario Aldrian
%A Widiastuti, Maria Goreti
%A Arifvianto, Budi
%A Suyitno, -
%D 2018
%T Finite Element Analysis of Osteosynthesis Miniplate for the Reconstruction of Parasymphyseal Compound Fracture
%B 2018
%9 miniplate; FEA; parasymphyseal compound fracture
%! Finite Element Analysis of Osteosynthesis Miniplate for the Reconstruction of Parasymphyseal Compound Fracture
%K miniplate; FEA; parasymphyseal compound fracture
%X In the last two decades, the use of osteosynthesis miniplate has been growing to aid the healing process and reconstruction of fractured mandibular bone. In principle, the plate is used to provide stable fixation of the fractured bone tissue during the healing process and reconstruction. Based on earlier studies, it is noted that arrangements and geometry of the osteosynthesis miniplate played a critical role in determining the stability of the fractured mandibular bone, as well as the miniplate. In this research, a simulation with finite element method (FEM) was carried out to investigate the influence of the number of holes in an osteosynthesis miniplate on the stability of fractured mandibular bone and the corresponding miniplate after the implantation. For this purpose, a set of osteosynthesis miniplate with three different configurations was taken for simulation using a three-dimensional (3D) model of mandibular bone generated from the patient through computed tomography (CT). The result of the simulation showed that all the miniplates with three configurations tested were stable enough to prevent movement of fractured mandibular bone. Moreover, fixation with a pair of miniplates having four screw holes demonstrated the desired result; as indicated by the lowest value of displacement, pressure on the bone surface and pressure on the miniplate.
%U http://ijaseit.insightsociety.org/index.php?option=com_content&view=article&id=9&Itemid=1&article_id=4465
%R doi:10.18517/ijaseit.8.3.4465
%J International Journal on Advanced Science, Engineering and Information Technology
%V 8
%N 3
%@ 2088-5334

IEEE

Muslim Mahardika,Romario Aldrian Wicaksono,Maria Goreti Widiastuti,Budi Arifvianto and - Suyitno,"Finite Element Analysis of Osteosynthesis Miniplate for the Reconstruction of Parasymphyseal Compound Fracture," International Journal on Advanced Science, Engineering and Information Technology, vol. 8, no. 3, pp. 652-656, 2018. [Online]. Available: http://dx.doi.org/10.18517/ijaseit.8.3.4465.

RefMan/ProCite (RIS)

TY  - JOUR
AU  - Mahardika, Muslim
AU  - Wicaksono, Romario Aldrian
AU  - Widiastuti, Maria Goreti
AU  - Arifvianto, Budi
AU  - Suyitno, -
PY  - 2018
TI  - Finite Element Analysis of Osteosynthesis Miniplate for the Reconstruction of Parasymphyseal Compound Fracture
JF  - International Journal on Advanced Science, Engineering and Information Technology; Vol. 8 (2018) No. 3
Y2  - 2018
SP  - 652
EP  - 656
SN  - 2088-5334
PB  - INSIGHT - Indonesian Society for Knowledge and Human Development
KW  - miniplate; FEA; parasymphyseal compound fracture
N2  - In the last two decades, the use of osteosynthesis miniplate has been growing to aid the healing process and reconstruction of fractured mandibular bone. In principle, the plate is used to provide stable fixation of the fractured bone tissue during the healing process and reconstruction. Based on earlier studies, it is noted that arrangements and geometry of the osteosynthesis miniplate played a critical role in determining the stability of the fractured mandibular bone, as well as the miniplate. In this research, a simulation with finite element method (FEM) was carried out to investigate the influence of the number of holes in an osteosynthesis miniplate on the stability of fractured mandibular bone and the corresponding miniplate after the implantation. For this purpose, a set of osteosynthesis miniplate with three different configurations was taken for simulation using a three-dimensional (3D) model of mandibular bone generated from the patient through computed tomography (CT). The result of the simulation showed that all the miniplates with three configurations tested were stable enough to prevent movement of fractured mandibular bone. Moreover, fixation with a pair of miniplates having four screw holes demonstrated the desired result; as indicated by the lowest value of displacement, pressure on the bone surface and pressure on the miniplate.
UR  - http://ijaseit.insightsociety.org/index.php?option=com_content&view=article&id=9&Itemid=1&article_id=4465
DO  - 10.18517/ijaseit.8.3.4465

RefWorks

RT Journal Article
ID 4465
A1 Mahardika, Muslim
A1 Wicaksono, Romario Aldrian
A1 Widiastuti, Maria Goreti
A1 Arifvianto, Budi
A1 Suyitno, -
T1 Finite Element Analysis of Osteosynthesis Miniplate for the Reconstruction of Parasymphyseal Compound Fracture
JF International Journal on Advanced Science, Engineering and Information Technology
VO 8
IS 3
YR 2018
SP 652
OP 656
SN 2088-5334
PB INSIGHT - Indonesian Society for Knowledge and Human Development
K1 miniplate; FEA; parasymphyseal compound fracture
AB In the last two decades, the use of osteosynthesis miniplate has been growing to aid the healing process and reconstruction of fractured mandibular bone. In principle, the plate is used to provide stable fixation of the fractured bone tissue during the healing process and reconstruction. Based on earlier studies, it is noted that arrangements and geometry of the osteosynthesis miniplate played a critical role in determining the stability of the fractured mandibular bone, as well as the miniplate. In this research, a simulation with finite element method (FEM) was carried out to investigate the influence of the number of holes in an osteosynthesis miniplate on the stability of fractured mandibular bone and the corresponding miniplate after the implantation. For this purpose, a set of osteosynthesis miniplate with three different configurations was taken for simulation using a three-dimensional (3D) model of mandibular bone generated from the patient through computed tomography (CT). The result of the simulation showed that all the miniplates with three configurations tested were stable enough to prevent movement of fractured mandibular bone. Moreover, fixation with a pair of miniplates having four screw holes demonstrated the desired result; as indicated by the lowest value of displacement, pressure on the bone surface and pressure on the miniplate.
LK http://ijaseit.insightsociety.org/index.php?option=com_content&view=article&id=9&Itemid=1&article_id=4465
DO  - 10.18517/ijaseit.8.3.4465