Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/3164
Title: BIOMECHANICAL EVALUATION OF LOCKING COMPRESSION PLATE (LCP) VERSUS DYNAMIC COMPRESSION PLATE (DCP): A FINITE ELEMENT ANALYSIS
Authors: Suaimi, Muhammad Khairul Asyrafa 
Rashid, Amir Mustakim Ab 
Nasution, Ahmad Kafrawi 
Seng, Gan Hong 
Kadir, Mohammed Rafiq Abdul 
Ramlee, Muhammad Hanif 
Keywords: Displacement;Dynamic Compression Plate;Locking Compression Plate;tibia;Von Mises Stress
Issue Date: May-2022
Publisher: Penerbit UTM Press
Journal: Jurnal Teknologi 
Abstract: 
Internal fixators are commonly used to treat long bone fractures, its aim is to provide interfragmentary compression, allow limited micromotion and provide stability to the bone for ambulation. However, complications such as non-unions, malunions and broken implant, can occur due to the complexity of mechanical force acting on the bone-plate models. Therefore, this study is proposed to investigate the biomechanical characterization of plate design on a tibia bone using finite element method. Two different designs; 1) locking compression plate (LCP) and dynamic compression plate (DCP) were simulated by using Marc.Mentat software. From the findings, the LCP have lower peak von Mises stress (VMS) distribution of 160 MPa compared to DCP with VMS value of 232 MPa. Surprisingly, the VMS of DCP plate system have exceed the yield strength of stainless steel (215 MPa) which translate to higher risk of failures. Moreover, the DCP plate system shows 50% lower stability compared to the LCP plate system, which has the peak displacement at 0.98 mm compared to the DCP bone at 1.53 mm. In conclusion, the LCP provides better stability and stress distribution up to 45% differences as compared to the DCP.
Description: 
Scopus
URI: http://hdl.handle.net/123456789/3164
ISSN: 01279696
DOI: 10.11113/jurnalteknologi.v84.16687
Appears in Collections:Faculty of Data Science and Computing - Journal (Scopus/WOS)

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