Adjacent Disc Stress Following Floating Lumbar Spine Fusion: A Finite Element Study.
10.4184/asj.2017.11.4.538
- Author:
Gunti Ranga SRINIVAS
1
;
Malhar N KUMAR
;
Anindya DEB
Author Information
1. Mahindra Technical Academy, Chennai, India.
- Publication Type:Original Article
- Keywords:
Lumbar vertebrae;
Spinal fusion;
Intervertebral disc;
Intervertebral disc degeneration
- MeSH:
Intervertebral Disc;
Intervertebral Disc Degeneration;
Lumbar Vertebrae;
Spinal Fusion;
Spine*
- From:Asian Spine Journal
2017;11(4):538-547
- CountryRepublic of Korea
- Language:English
-
Abstract:
STUDY DESIGN: Experimental study. PURPOSE: The study aimed to develop a finite element (FE) model to determine the stress on the discs adjacent to the fused segment following different types of floating lumbar spinal fusions. OVERVIEW OF LITERATURE: The quantification of the adjacent disc stress following different types of floating lumbar fusions has not been reported. The magnitude of the stress on the discs above and below the floating fusion remains unknown. METHODS: A computer-aided engineering-based approach using implicit FE analysis was employed to assess the stress on the lumbar discs above and below the floating fusion segment (L4–L5) following anterior and posterior lumbar spine fusions at one, two, and three levels (with and without instrumentation). RESULTS: Both discs suprajacent and infrajacent to the floating fusion experienced increased stress, but the suprajacent disc experienced relatively high stress level. Instrumentation increased the stress on the discs suprajacent and infrajacent to the floating fusion, but the magnitude of stress on the suprajacent disc remained relatively high. CONCLUSIONS: The FE model was employed under similar loading and boundary conditions to provide quantitative data, which will be useful for clinicians to understand the probable long-term effects of floating fusions.
