Design and Mechanics of TLIF/ELIF Implants

Author

Fuss, Franz Konstantin ; Sabitzer, Ronald J.

Author_Institution

Nanyang Technol. Univ., Singapore

fYear

2006

fDate

11-14 Dec. 2006

Firstpage

227

Lastpage

230

Abstract

Lumbar interbody fusion is the standard treatment for degenerative disc disease. This study served to compute the stress levels and load transfer in a composite structure, consisting of fusion implant, bone-graft that finally becomes fusion-bone, and rods of the dorsal stabilisation. The implant was represented by different materials and the fusion process was simulated by increasing Young´s moduli of the bone-graft / fusion-bone component. Fusion implants with a low Young´s modulus produce a higher stress and load in the bone-graft / fusion-bone which is advantageous for the fusion, but subject the rods of the dorsal stabilisation to bending stress additionally to axial stress which bears the risk of pedicle screw failure.

Keywords

Young´s modulus; bending; biomedical materials; bone; composite materials; diseases; mechanical stability; orthopaedics; prosthetics; stress effects; ELIF implants; TLIF implants; Young´s moduli; axial stress; bending stress; biomaterials; bone-graft; composite structure; degenerative disc disease; dorsal stabilisation; fusion implant; fusion-bone component; intervertebral disc; load transfer; lumbar interbody fusion; pedicle screw failure; stress levels;

fLanguage

English

Publisher

ieee

Conference_Titel

Biomedical and Pharmaceutical Engineering, 2006. ICBPE 2006. International Conference on

Conference_Location

Singapore

Print_ISBN

978-981-05-79

Electronic_ISBN

81-904262-1-4

Type

conf

Filename

4155898