Biomechanics of L5/S1 in Long Thoracolumbosacral Constructs: A Cadaveric Study

Authors

Bryan S. Lee, Cleveland Clinic FoundationFollow
Kevin M. Walsh, West Penn Allegheny Health System
Andrew T. Healy, Carolina Neurosurgery & Spine Associates
Robb Colbrunn, Cleveland Clinic Foundation
Robert S. Butler, Cleveland Clinic Foundation
Ryan C. Goodwin, Cleveland Clinic Foundation
Michael P. Steinmetz, Cleveland Clinic Foundation
Thomas E. Mroz, Cleveland Clinic Foundation

Document Type

Article

Abstract

© The Author(s) 2018. Study Design: In vitro cadaveric biomechanical study. Objectives: Despite numerous techniques employed to establish solid lumbosacral fixation, there are little biomechanical data correlating fixation methods at L5/S1 to thoracolumbosacral (TLS) construct length. We aimed to determine the optimal construct with the hypothesis that under physiological loads, lumbosacral constructs can be stabilized by L5/S1 anterior lumbar interbody fusion (ALIF) alone, without iliac screw fixation (ISF), and that TLS constructs would require ISF, with or without ALIF. Methods: By using a robot capable of motion in 6 axes, force-moment sensor, motion-tracking camera system and software, we simulated the spinal loading effects in flexion-extension, axial rotation, and lateral bending, and compared torques in different construct groups of T4-S1, T10-S1, and L2-S1. By conducting multidirectional flexibility testing we assessed the effects of constructs of various lengths on the L5/S1 segment. Results: L2-S1 constructs may be equivalently stabilized by L5/S1 ALIF alone without ISF. Longer TLS constructs exerted increasing motion at L5/S1, exhibiting trends in favor of ISF when extending to T10 and statistically improved fixation when extending to T4. Lastly, TLS constructs with ISF exhibited a statistically significant reduction in L5-S1 range of motion from the addition of ALIF when extending to T4-pelvis but not T10-pelvis. Conclusions: We found that ALIF alone may sufficiently support the L2-S1 construct, reducing L5/S1 range of motion and transmitting loads instead to the sacropelvis. Furthermore, ALIF was found to add significant stability to the T4-pelvis construct when added to ISF. This difference was not significant for the T10-pelvis construct.

Publication Date

9-1-2018

Publication Title

Global Spine Journal

ISSN

21925682

E-ISSN

21925690

Volume

8

Issue

6

First Page

607

Last Page

614

Digital Object Identifier (DOI)

10.1177/2192568218759037

Recommended Citation

Lee, Bryan S.; Walsh, Kevin M.; Healy, Andrew T.; Colbrunn, Robb; Butler, Robert S.; Goodwin, Ryan C.; Steinmetz, Michael P.; and Mroz, Thomas E., "Biomechanics of L5/S1 in Long Thoracolumbosacral Constructs: A Cadaveric Study" (2018). Neurosurgery. 816.
https://scholar.barrowneuro.org/neurosurgery/816