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Early bone ingrowth and segmental stability of a trussed titanium cage versus a polyether ether ketone cage in an ovine lumbar interbody fusion model

Authors :
Loenen, Arjan C.Y.
Peters, Marloes J.M.
Bevers, Raymond T.J.
Schaffrath, Claus
van Haver, Els
Cuijpers, Vincent M.J.I.
Rademakers, Timo
van Rietbergen, Bert
Willems, Paul C.
Arts, Jacobus J.
Loenen, Arjan C.Y.
Peters, Marloes J.M.
Bevers, Raymond T.J.
Schaffrath, Claus
van Haver, Els
Cuijpers, Vincent M.J.I.
Rademakers, Timo
van Rietbergen, Bert
Willems, Paul C.
Arts, Jacobus J.
Source :
The Spine Journal vol.22 (2022) nr.1 p.174-182 [ISSN 1529-9430]
Publication Year :
2022

Abstract

BACKGROUND CONTEXT: Lumbar interbody fusion is an effective treatment for unstable spinal segments. However, the time needed to establish a solid bony interbody fusion between the two vertebrae may be longer than twelve months after surgery. During this time window, the instrumented spinal segment is assumed to be at increased risk for instability related complications such as cage migration or subsidence. It is hypothesized that the design of new interbody cages that enable direct osseointegration of the cage at the vertebral endplates, without requiring full bony fusion between the two vertebral endplates, might shorten the time window that the instrumented spinal segment is susceptible to failure.PURPOSE: To quantify the bone ingrowth and resulting segmental stability during consolidation of lumbar interbody fusion using two different cage types.STUDY DESIGN: Preclinical ovine model.METHODS: Seven skeletally mature sheep underwent bi-segmental lumbar interbody fusion surgery with one conventional polyether ether ketone (PEEK) cage, and one newly developed trussed titanium (TT) cage. After a postoperative time period of 13 weeks, non-destructive range of motion testing and histological analysis were performed. Additionally, sample specific finite element (FE) analysis was performed to predict the stability of the interbody fusion region alone.RESULTS: Physiological movement of complete spinal motion segments did not reveal significant differences between the segments operated with PEEK and TT cages. The onset of creeping substitution within the cage seemed to be sooner for PEEK cages, which led to significantly higher bone volume over total volume (BV/TV) compared to the TT cages. TT cages showed significantly more direct bone to implant contact (BIC). Although the mean stability of the interbody fusion region alone was not statistically different between the PEEK and TT cages, the variation within the cage types illustrated an all-o

Details

Database :
OAIster
Journal :
The Spine Journal vol.22 (2022) nr.1 p.174-182 [ISSN 1529-9430]
Notes :
Loenen, Arjan C.Y.
Publication Type :
Electronic Resource
Accession number :
edsoai.on1296603111
Document Type :
Electronic Resource