A biomechanical comparison of intralaminar C7 screw constructs with and without offset connector used for C6-7 cervical spine immobilization : a finite element study
A biomechanical comparison of intralaminar C7 screw constructs with and without offset connector used for C6-7 cervical spine immobilization : a finite element study
Objective
The offset connector can allow medial and lateral variability and facilitate intralaminar screw incorporation into the construct. The aim of this study was to compare the biomechanical characteristics of C7 intralaminar screw constructs with and without offset connector using a three dimensional finite element model of a C6-7 cervical spine segment.
Methods
Finite element models representing C7 intralaminar screw constructs with and without the offset connector were developed. Range of motion (ROM) and maximum von Mises stresses in the vertebra for the two techniques were compared under pure moments in flexion, extension, lateral bending and axial rotation.
Results
ROM for intralaminar screw construct with offset connector was less than the construct without the offset connector in the three principal directions. The maximum von Misses stress was observed in the C7 vertebra around the pedicle in both constructs. Maximum von Mises stress in the construct without offset connector was found to be 12-30% higher than the corresponding stresses in the construct with offset connector in the three principal directions.
Conclusion
This study demonstrated that the intralaminar screw fixation with offset connector is better than the construct without offset connector in terms of biomechanical stability. Construct with the offset connector reduces the ROM of C6-7 segment more significantly compared to the construct without the offset connector and causes lower stresses around the C7 pedicle-vertebral body complex.
331-336
Qasim, Muhammad
2952cbef-3a52-4fe2-a1a2-c58876c22f91
Hong, Jae Taek
1cf35804-00f2-4084-b3f4-aeac8e83677a
Natarajan, Raghu N.
bdc5a3f0-1c7a-44b3-b576-4868674b28dc
An, Howard S.
abe2b9c6-dec5-428f-8bdc-52fdf5047c7f
19 June 2013
Qasim, Muhammad
2952cbef-3a52-4fe2-a1a2-c58876c22f91
Hong, Jae Taek
1cf35804-00f2-4084-b3f4-aeac8e83677a
Natarajan, Raghu N.
bdc5a3f0-1c7a-44b3-b576-4868674b28dc
An, Howard S.
abe2b9c6-dec5-428f-8bdc-52fdf5047c7f
Qasim, Muhammad, Hong, Jae Taek, Natarajan, Raghu N. and An, Howard S.
(2013)
A biomechanical comparison of intralaminar C7 screw constructs with and without offset connector used for C6-7 cervical spine immobilization : a finite element study.
Journal of Korean Neurosurgical Society, 53 (6), .
(doi:10.3340/jkns.2013.53.6.331).
Abstract
Objective
The offset connector can allow medial and lateral variability and facilitate intralaminar screw incorporation into the construct. The aim of this study was to compare the biomechanical characteristics of C7 intralaminar screw constructs with and without offset connector using a three dimensional finite element model of a C6-7 cervical spine segment.
Methods
Finite element models representing C7 intralaminar screw constructs with and without the offset connector were developed. Range of motion (ROM) and maximum von Mises stresses in the vertebra for the two techniques were compared under pure moments in flexion, extension, lateral bending and axial rotation.
Results
ROM for intralaminar screw construct with offset connector was less than the construct without the offset connector in the three principal directions. The maximum von Misses stress was observed in the C7 vertebra around the pedicle in both constructs. Maximum von Mises stress in the construct without offset connector was found to be 12-30% higher than the corresponding stresses in the construct with offset connector in the three principal directions.
Conclusion
This study demonstrated that the intralaminar screw fixation with offset connector is better than the construct without offset connector in terms of biomechanical stability. Construct with the offset connector reduces the ROM of C6-7 segment more significantly compared to the construct without the offset connector and causes lower stresses around the C7 pedicle-vertebral body complex.
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More information
Published date: 19 June 2013
Identifiers
Local EPrints ID: 446194
URI: http://eprints.soton.ac.uk/id/eprint/446194
ISSN: 2005-3711
PURE UUID: 00fab6df-96bc-49b3-8388-8c3ff7b00486
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Date deposited: 27 Jan 2021 17:31
Last modified: 16 Mar 2024 10:48
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Contributors
Author:
Muhammad Qasim
Author:
Jae Taek Hong
Author:
Raghu N. Natarajan
Author:
Howard S. An
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