Ultra-high-molecular-weight polyethylene sublaminar tape as semirigid fixation or pedicle screw augmentation to prevent failure in long-segment spine surgery: an ex vivo biomechanical study

Remco J.P. Doodkorte; Ricardo Belda; Alex K Roth; Bert van Rietbergen; Jacobus J Arts; L M Arno Lataster; Lodewijk W van Rhijn; Paul C Willems

doi:10.3171/2020.6.SPINE20605

Ultra-high-molecular-weight polyethylene sublaminar tape as semirigid fixation or pedicle screw augmentation to prevent failure in long-segment spine surgery: an ex vivo biomechanical study

Remco J.P. Doodkorte (Corresponding author), Ricardo Belda, Alex K Roth, Bert van Rietbergen, Jacobus J Arts, L M Arno Lataster, Lodewijk W van Rhijn, Paul C Willems

Orthopaedic Biomechanics

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Abstract

OBJECTIVE: Complications after adult spinal deformity surgery are common, with implant-related complications occurring in up to 27.8% of cases. Sublaminar wire fixation strength is less affected by decreasing trabecular bone density in comparison to pedicle screw (PS) fixation due to the predominant cortical bone composition of the lamina. Sublaminar fixation may thus aid in decreasing implant-related complications. The goal of this study was to compare fixation characteristics of titanium sublaminar cables (SCs), ultra-high-molecular-weight polyethylene (UHMWPE) tape, PSs, and PSs augmented with UHMWPE tape in an ex vivo flexion-bending setup.

METHODS: Thirty-six human cadaver vertebrae were stratified into 4 different fixation groups: UHMWPE sublaminar tape (ST), PS, metal SC, and PS augmented with ST (PS + ST). Individual vertebrae were embedded in resin, and a flexion-bending moment was applied that closely resembles the in vivo loading pattern at transitional levels of spinal instrumentation.

RESULTS: The failure strength of PS + ST (4522 ± 2314 N) was significantly higher compared to the SC (2931 ± 751 N) and PS (2678 ± 827 N) groups, which had p values of 0.028 and 0.015, respectively (all values expressed as the mean ± SD). Construct stiffness was significantly higher for the PS groups compared to the stand-alone sublaminar wiring groups (p = 0.020). In contrast to SC, ST did not show any case of cortical breach.

CONCLUSIONS: The higher failure strength of PS + ST compared to PS indicates that PS augmentation with ST may be an effective measure to reduce the incidence of screw pullout, even in osteoporotic vertebrae. Moreover, the lower stiffness of sublaminar fixation techniques and the absence of damage to the cortices in the ST group suggest that ST as a stand-alone fixation technique in adult spinal deformity surgery may also be clinically feasible and offer clinical benefits.

Original language	English
Pages (from-to)	236-244
Number of pages	9
Journal	Journal of Neurosurgery. Spine
Volume	34
Issue number	2
Early online date	30 Oct 2020
DOIs	https://doi.org/10.3171/2020.6.SPINE20605
Publication status	Published - Feb 2021

Keywords

Biomechanics
Pedicle screws
Spinal deformity
Sublaminar wires
Surgical technique

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Doodkorte, R. J. P., Belda, R., Roth, A. K., van Rietbergen, B., Arts, J. J., Lataster, L. M. A., van Rhijn, L. W., & Willems, P. C. (2021). Ultra-high-molecular-weight polyethylene sublaminar tape as semirigid fixation or pedicle screw augmentation to prevent failure in long-segment spine surgery: an ex vivo biomechanical study. Journal of Neurosurgery. Spine, 34(2), 236-244. https://doi.org/10.3171/2020.6.SPINE20605

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title = "Ultra-high-molecular-weight polyethylene sublaminar tape as semirigid fixation or pedicle screw augmentation to prevent failure in long-segment spine surgery: an ex vivo biomechanical study",

abstract = "OBJECTIVE: Complications after adult spinal deformity surgery are common, with implant-related complications occurring in up to 27.8% of cases. Sublaminar wire fixation strength is less affected by decreasing trabecular bone density in comparison to pedicle screw (PS) fixation due to the predominant cortical bone composition of the lamina. Sublaminar fixation may thus aid in decreasing implant-related complications. The goal of this study was to compare fixation characteristics of titanium sublaminar cables (SCs), ultra-high-molecular-weight polyethylene (UHMWPE) tape, PSs, and PSs augmented with UHMWPE tape in an ex vivo flexion-bending setup.METHODS: Thirty-six human cadaver vertebrae were stratified into 4 different fixation groups: UHMWPE sublaminar tape (ST), PS, metal SC, and PS augmented with ST (PS + ST). Individual vertebrae were embedded in resin, and a flexion-bending moment was applied that closely resembles the in vivo loading pattern at transitional levels of spinal instrumentation.RESULTS: The failure strength of PS + ST (4522 ± 2314 N) was significantly higher compared to the SC (2931 ± 751 N) and PS (2678 ± 827 N) groups, which had p values of 0.028 and 0.015, respectively (all values expressed as the mean ± SD). Construct stiffness was significantly higher for the PS groups compared to the stand-alone sublaminar wiring groups (p = 0.020). In contrast to SC, ST did not show any case of cortical breach.CONCLUSIONS: The higher failure strength of PS + ST compared to PS indicates that PS augmentation with ST may be an effective measure to reduce the incidence of screw pullout, even in osteoporotic vertebrae. Moreover, the lower stiffness of sublaminar fixation techniques and the absence of damage to the cortices in the ST group suggest that ST as a stand-alone fixation technique in adult spinal deformity surgery may also be clinically feasible and offer clinical benefits.",

keywords = "Biomechanics, Pedicle screws, Spinal deformity, Sublaminar wires, Surgical technique",

author = "Doodkorte, {Remco J.P.} and Ricardo Belda and Roth, {Alex K} and {van Rietbergen}, Bert and Arts, {Jacobus J} and Lataster, {L M Arno} and {van Rhijn}, {Lodewijk W} and Willems, {Paul C}",

year = "2021",

month = feb,

doi = "10.3171/2020.6.SPINE20605",

language = "English",

volume = "34",

pages = "236--244",

journal = "Journal of Neurosurgery. Spine",

issn = "1547-5654",

publisher = "American Association of Neurological Surgeons",

number = "2",

}

Doodkorte, RJP, Belda, R, Roth, AK, van Rietbergen, B , Arts, JJ, Lataster, LMA, van Rhijn, LW & Willems, PC 2021, 'Ultra-high-molecular-weight polyethylene sublaminar tape as semirigid fixation or pedicle screw augmentation to prevent failure in long-segment spine surgery: an ex vivo biomechanical study', Journal of Neurosurgery. Spine, vol. 34, no. 2, pp. 236-244. https://doi.org/10.3171/2020.6.SPINE20605

Ultra-high-molecular-weight polyethylene sublaminar tape as semirigid fixation or pedicle screw augmentation to prevent failure in long-segment spine surgery: an ex vivo biomechanical study. / Doodkorte, Remco J.P. (Corresponding author); Belda, Ricardo; Roth, Alex K et al.
In: Journal of Neurosurgery. Spine, Vol. 34, No. 2, 02.2021, p. 236-244.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - Ultra-high-molecular-weight polyethylene sublaminar tape as semirigid fixation or pedicle screw augmentation to prevent failure in long-segment spine surgery

T2 - an ex vivo biomechanical study

AU - Doodkorte, Remco J.P.

AU - Belda, Ricardo

AU - Roth, Alex K

AU - van Rietbergen, Bert

AU - Arts, Jacobus J

AU - Lataster, L M Arno

AU - van Rhijn, Lodewijk W

AU - Willems, Paul C

PY - 2021/2

Y1 - 2021/2

N2 - OBJECTIVE: Complications after adult spinal deformity surgery are common, with implant-related complications occurring in up to 27.8% of cases. Sublaminar wire fixation strength is less affected by decreasing trabecular bone density in comparison to pedicle screw (PS) fixation due to the predominant cortical bone composition of the lamina. Sublaminar fixation may thus aid in decreasing implant-related complications. The goal of this study was to compare fixation characteristics of titanium sublaminar cables (SCs), ultra-high-molecular-weight polyethylene (UHMWPE) tape, PSs, and PSs augmented with UHMWPE tape in an ex vivo flexion-bending setup.METHODS: Thirty-six human cadaver vertebrae were stratified into 4 different fixation groups: UHMWPE sublaminar tape (ST), PS, metal SC, and PS augmented with ST (PS + ST). Individual vertebrae were embedded in resin, and a flexion-bending moment was applied that closely resembles the in vivo loading pattern at transitional levels of spinal instrumentation.RESULTS: The failure strength of PS + ST (4522 ± 2314 N) was significantly higher compared to the SC (2931 ± 751 N) and PS (2678 ± 827 N) groups, which had p values of 0.028 and 0.015, respectively (all values expressed as the mean ± SD). Construct stiffness was significantly higher for the PS groups compared to the stand-alone sublaminar wiring groups (p = 0.020). In contrast to SC, ST did not show any case of cortical breach.CONCLUSIONS: The higher failure strength of PS + ST compared to PS indicates that PS augmentation with ST may be an effective measure to reduce the incidence of screw pullout, even in osteoporotic vertebrae. Moreover, the lower stiffness of sublaminar fixation techniques and the absence of damage to the cortices in the ST group suggest that ST as a stand-alone fixation technique in adult spinal deformity surgery may also be clinically feasible and offer clinical benefits.

AB - OBJECTIVE: Complications after adult spinal deformity surgery are common, with implant-related complications occurring in up to 27.8% of cases. Sublaminar wire fixation strength is less affected by decreasing trabecular bone density in comparison to pedicle screw (PS) fixation due to the predominant cortical bone composition of the lamina. Sublaminar fixation may thus aid in decreasing implant-related complications. The goal of this study was to compare fixation characteristics of titanium sublaminar cables (SCs), ultra-high-molecular-weight polyethylene (UHMWPE) tape, PSs, and PSs augmented with UHMWPE tape in an ex vivo flexion-bending setup.METHODS: Thirty-six human cadaver vertebrae were stratified into 4 different fixation groups: UHMWPE sublaminar tape (ST), PS, metal SC, and PS augmented with ST (PS + ST). Individual vertebrae were embedded in resin, and a flexion-bending moment was applied that closely resembles the in vivo loading pattern at transitional levels of spinal instrumentation.RESULTS: The failure strength of PS + ST (4522 ± 2314 N) was significantly higher compared to the SC (2931 ± 751 N) and PS (2678 ± 827 N) groups, which had p values of 0.028 and 0.015, respectively (all values expressed as the mean ± SD). Construct stiffness was significantly higher for the PS groups compared to the stand-alone sublaminar wiring groups (p = 0.020). In contrast to SC, ST did not show any case of cortical breach.CONCLUSIONS: The higher failure strength of PS + ST compared to PS indicates that PS augmentation with ST may be an effective measure to reduce the incidence of screw pullout, even in osteoporotic vertebrae. Moreover, the lower stiffness of sublaminar fixation techniques and the absence of damage to the cortices in the ST group suggest that ST as a stand-alone fixation technique in adult spinal deformity surgery may also be clinically feasible and offer clinical benefits.

KW - Biomechanics

KW - Pedicle screws

KW - Spinal deformity

KW - Sublaminar wires

KW - Surgical technique

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U2 - 10.3171/2020.6.SPINE20605

DO - 10.3171/2020.6.SPINE20605

M3 - Article

C2 - 33126215

SN - 1547-5654

VL - 34

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EP - 244

JO - Journal of Neurosurgery. Spine

JF - Journal of Neurosurgery. Spine

IS - 2

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Doodkorte RJP, Belda R, Roth AK, van Rietbergen B , Arts JJ, Lataster LMA et al. Ultra-high-molecular-weight polyethylene sublaminar tape as semirigid fixation or pedicle screw augmentation to prevent failure in long-segment spine surgery: an ex vivo biomechanical study. Journal of Neurosurgery. Spine. 2021 Feb;34(2):236-244. Epub 2020 Oct 30. doi: 10.3171/2020.6.SPINE20605

Ultra-high-molecular-weight polyethylene sublaminar tape as semirigid fixation or pedicle screw augmentation to prevent failure in long-segment spine surgery: an ex vivo biomechanical study

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