Open AccessEffects of Pentagonal Pore Sizes in the Zinc Hydroxyapatite Parietal-Temporal Implant
Author(s) -
Wan Nur Fatini Syahirah W. Dagang,
Nik Harisha Qistiik Hamdi,
Shahrul Hisyam Marwan,
Jamaluddin Mahmud,
Nor Fazli Adull Manan,
Muhammad Hanif Ramlee,
Abdul Halim Abdullah
Publication year - 2021
Publication title -
international journal emerging technology and advanced engineering
Language(s) - English
Resource type - Journals
ISSN - 2250-2459
DOI - 10.46338/ijetae1121_10
Subject(s) - cranioplasty , implant , materials science , skull , parietal bone , cranial bone , biomedical engineering , biocompatibility , von mises yield criterion , dentistry , finite element method , surgery , medicine , metallurgy , physics , thermodynamics
To reconstruct the fractured skull, affected patients are advised to undergo cranioplasty, which is a surgical procedure to repair the cranial defect by implanting materials such as autologous bone grafts or synthetic alloplastic materials. The use of synthetic alloplastic materials such as hydroxyapatite (HA) has been widely accepted due to their biocompatibility and suitability for larger cranial defects. The zinc hydroxyapatite (ZnHA) material is favourable as HA mimics 60% of the actual human bone, whereas zinc helps to improve its biomechanical properties. The purpose of this study is to construct the ZnHA cranial implant with different pore sizes of 600, 900, and 1200 µm in pentagonal shapes and to study its mechanical performance. At the end of the research, it was found that the implant with a pore size of 900 µm is the most appropriate implant to be utilized without affecting its mechanical performance. Aspects such as the deformation and von Mises stress are discussed to assist on the development of the ZnHA cranial implant. Keywords — Biomechanical analysis, cranial implant, finite element analysis, pore size, zinc hydroxyapatite