TY - JOUR
T1 - Femoral ring versus fibular strut allografts in anterior lumbar interbody arthrodesis
T2 - A biomechanical analysis
AU - Siff, Todd E.
AU - Kamaric, Emir
AU - Noble, Philip C.
AU - Esses, Stephen I.
PY - 1999/4/1
Y1 - 1999/4/1
N2 - Study Design. A comparison between femoral ring and fibular strut allografts in anterior lumbar interbody arthrodesis, as assessed by biomechanical analysis. Objectives. To assess the difference in stability and rigidity provided by the femoral ring allograft versus that provided by fibular strut allograft. Summary of Background Data. Two commonly used techniques for spinal arthrodesis at L4-L5 include the femoral ring allograft and the fibular strut allograft. The postoperative stability has not been evaluated biomechanically. Methods. An anterior lumbar interbody fusion on seven cadaveric specimens was performed using femoral ring and fibular strut allografts. Biplanar radiography was used to measure the 6°of motion of L4 with respect to L5 during a range of loading maneuvers. Results. When an extension moment was applied, the femoral ring allograft extended 4.2°more than the intact specimen, compared with 1.6°with the fibular strut allograft (P = 0.18). When the flexion moment was imposed, lateral bending increased by 2.2°with the femoral ring, compared with 0.7°with the fibular strut allograft (P = 0.06). During lateral bending, increased lateral translation was observed to be 0.9 mm with the fibular strut allograft compared with 1.4 mm with the femoral ring allograft (P = 0.06). Conclusions. Although not statistically significant, the fibular strut allograft creates a more rigid construct immediately after surgery during flexion-extension, lateral bending angulations, and lateral translation. One should consider using the fibular strut allograft over the femoral ring allograft, as it is a more stable and rigid construct in the immediate postoperative period.
AB - Study Design. A comparison between femoral ring and fibular strut allografts in anterior lumbar interbody arthrodesis, as assessed by biomechanical analysis. Objectives. To assess the difference in stability and rigidity provided by the femoral ring allograft versus that provided by fibular strut allograft. Summary of Background Data. Two commonly used techniques for spinal arthrodesis at L4-L5 include the femoral ring allograft and the fibular strut allograft. The postoperative stability has not been evaluated biomechanically. Methods. An anterior lumbar interbody fusion on seven cadaveric specimens was performed using femoral ring and fibular strut allografts. Biplanar radiography was used to measure the 6°of motion of L4 with respect to L5 during a range of loading maneuvers. Results. When an extension moment was applied, the femoral ring allograft extended 4.2°more than the intact specimen, compared with 1.6°with the fibular strut allograft (P = 0.18). When the flexion moment was imposed, lateral bending increased by 2.2°with the femoral ring, compared with 0.7°with the fibular strut allograft (P = 0.06). During lateral bending, increased lateral translation was observed to be 0.9 mm with the fibular strut allograft compared with 1.4 mm with the femoral ring allograft (P = 0.06). Conclusions. Although not statistically significant, the fibular strut allograft creates a more rigid construct immediately after surgery during flexion-extension, lateral bending angulations, and lateral translation. One should consider using the fibular strut allograft over the femoral ring allograft, as it is a more stable and rigid construct in the immediate postoperative period.
KW - Biomechanical
KW - Femoral allograft
KW - Fibular strut allograft
KW - Interbody arthrodesis
KW - Lumbar spine
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U2 - 10.1097/00007632-199904010-00009
DO - 10.1097/00007632-199904010-00009
M3 - Article
C2 - 10209794
AN - SCOPUS:0033119948
SN - 0362-2436
VL - 24
SP - 659
EP - 665
JO - Spine
JF - Spine
IS - 7
ER -