Integration of CAD-CAE-RP environment for developing a new product in medical field

Abstract EN

Reconstruction of the mandible after severe trauma is one of the most difficult challenges facing oral and maxillofacial surgery.

The mandible is an essential element in the appearance of the human face that gives the distinctive shape of the face, holds.

This paper aims to propose a methodology that allows the surgeon to perform virtual surgery by investing engineering programs to place the implant by default and with high accuracy within the mandible based on the patient's medical data.

The current study involved a 35-year-old man suffering from a traffic accident in the mandible with multiple fractures of the facial bones.

Basically, an identification of the steps required to perform virtual surgery and modeling images from the CBCT technology has been done by using the software proposed in the research.

The implant model is designed as a mesh model, allowing the patient to return to a normal position.

Moreover, an application of FEA procedures using the Solidworks simulation software to test and verify the mechanical properties of the final most difficult challenges facing oral and maxillofacial surgery.

The mandible is an essential element in the appearance of the human face that gives the distinctive shape of the face, holds.

This paper aims to propose a methodology that allows the surgeon to perform virtual surgery by investing engineering programs to place the implant by default and with high accuracy within the mandible based on the patient's medical data.

The current study involved a 35-year-old man suffering from a traffic accident in the mandible with multiple fractures of the facial bones.

Basically, an identification of the steps required to perform virtual surgery and modeling images from the CBCT technology has been done by using the software proposed in the research.

The implant model is designed as a mesh model, allowing the patient to return to a normal position.

Moreover, an application of FEA procedures using the Solidworks simulation software to test and verify the mechanical properties of the final transplant