Finite Element modeling is a widely used methodology to build numerical models and simulate the
behavior of the human auditory system; this has allowed essential advances in understanding the
biomechanics of that complex system. There are two key points in modeling: the construction of an
adequate geometry that allows efficient meshing and the correct use of mechanical properties of the
materials. This research aims to show a new strategy for automating the build Finite Element Model
process of the human auditory system using the FEM from Micro-Computed Tomography (Micro-CT)
Imaging. The idea behind this methodology is to build a Finite Element Model with a computational and
temporal low cost. This work allowed us to design the first semi-automatic algorithm to build a finite
element model of the human middle ear that will later be used to incorporate the other components
of the auditory system for different types of studies.