GOING LOW: LOW MODULUS GRAFT-FREE 3D-PRINTED TITANIUM INTERBODY CAGES SHOW COMPARABLE BONE FORMATION TO PEEK WITH GRAFT
Autor: | T. Woodfield, J. Shum, W. Linkhorn, B. Gadomski, C. Puttlitz, K. McGilvray, H. Seim, B. Nelson, J. Easley, G.J. Hooper |
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Rok vydání: | 2023 |
Zdroj: | Orthopaedic Proceedings. :99-99 |
ISSN: | 2049-4416 1358-992X |
DOI: | 10.1302/1358-992x.2023.3.099 |
Popis: | Polyetheretherketone (PEEK) interbody fusion cages combined with autologous bone graft is the current clinical gold standard treatment for spinal fusion, however, bone graft harvest increases surgical time, risk of infection and chronic pain. We describe novel low-stiffness 3D Printed titanium interbody cages without autologous bone graft and assessed their biological performance in a pre-clinical in vivo interbody fusion model in comparison to the gold standard, PEEK with graft.Titanium interbody spacers were 3D Printed with a microporous (Ti1: 1000μm) design. Both Ti1 and Ti2 had an identical elastic modulus (stiffness), and were similar to the elastic modulus of PEEK. Interbody fusion was performed on L2-L3 and L4-L5 vertebral levels in 24 skeletally mature sheep using Ti1 or Ti2 spacers, or a PEEK spacer filled with iliac crest autograft, and assessed at 8 and 16 weeks. We quantitatively assessed bone fusion, bone area, mineral apposition rate and bone formation rate. Functional spinal units were biomechanically tested to analyse range of motion, neutral zone, and stiffness. Results: Bone formation in macroporous Ti2 was significantly greater than microporous Ti1 treatments (p=.006). Fusion scores for Ti2 and PEEK demonstrated greater rates of bone formation from 8 to 16 weeks, with bridging rates of 100% for Ti2 at 16 weeks compared to just 88% for PEEK and 50% for Ti1. Biomechanical outcomes significantly improved at 16 versus 8 weeks, with no significant differences between Ti and PEEK with graft.This study demonstrated that macroporous 3D Printed Ti spacers are able to achieve fixation and arthrodesis with complete bone fusion by 16 weeks without the need for bone graft. These significant data indicate that low-modulus 3D Printed titanium interbody cages have similar performance to autograft-filled PEEK, and could be reliably used in spinal fusion avoiding the complications of bone graft harvesting. |
Databáze: | OpenAIRE |
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