We found a match
Your institution may have rights to this item. Sign in to continue.
- Title
Spine Interbody Implants: Material Selection and Modification, Functionalization and Bioactivation of Surfaces to Improve Osseointegration.
- Authors
Rao, Prashanth J; Pelletier, Matthew H; Walsh, William R; Mobbs, Ralph J
- Abstract
The clinical outcome of lumbar spinal fusion is correlated with achievement of bony fusion. Improving interbody implant bone on-growth and in-growth may enhance fusion, limiting pseudoarthrosis, stress shielding, subsidence and implant failure. Polyetheretherketone ( PEEK) and titanium (Ti) are commonly selected for interbody spacer construction. Although these materials have desirable biocompatibility and mechanical properties, they require further modification to support osseointegration. Reports of extensive research on this topic are available in biomaterial-centric published reports; however, there are few clinical studies concerning surface modification of interbody spinal implants. The current article focuses on surface modifications aimed at fostering osseointegration from a clinician's point of view. Surface modification of Ti by creating rougher surfaces, modifying its surface topography (macro and nano), physical and chemical treatment and creating a porous material with high interconnectivity can improve its osseointegrative potential and bioactivity. Coating the surface with osteoconductive materials like hydroxyapatite ( HA) can improve osseointegration. Because PEEK spacers are relatively inert, creating a composite by adding Ti or osteoconductive materials like HA can improve osseointegration. In addition, PEEK may be coated with Ti, effectively bio-activating the coating.
- Subjects
OSSEOINTEGRATION; SPINAL fusion; TITANIUM; HYDROXYAPATITE; SURFACE topography; SPINAL implants; THERAPEUTICS
- Publication
Orthopaedic Surgery, 2014, Vol 6, Issue 2, p81
- ISSN
1757-7853
- Publication type
Article
- DOI
10.1111/os.12098