Computational Study of In-Vivo CT-Based FEM Application in Bone Tissue Engineering

Abstract

At present, computational methods are highly utilized by modern healthcare science. This modern technology gradually solves the complex area of healthcare science, and therefore, the upcoming treatments become more effective. Presently, in bone tissue engineering, the mechanism and different features of bone tissue are being discussed. The finite element method (FEM) gave the extra threshold to the study of bone tissue engineering. FEM method is basically a computer method of structural or mechanical stress investigation advanced in mechanics. The development of upgraded features of FEM applied with the help of the CT (computed tomography) model has enlightened a new hope in the study of biomedical and tissue engineering. The healthcare staff is provided with useful data by CT-based FEM which helps in taking further steps in medical treatment. The motive of this study is to show the improvement in the use of FEM in bone biomechanics in the last few years and also to help the medical specialists for improving the modern treatment and upcoming growth of new bone fracture fixation design.