Your search keyword '"Yueh-Ying Hsieh"' showing total 2 results

1. Removal of fixation construct could mitigate adjacent segment stress after lumbosacral fusion: A finite element analysis

Author

Chang Jung Chiang, Yueh Ying Hsieh, Shang Chih Lin, Chia Hsien Chen, Lien Chen Wu, and Fon-Yih Tsuang

Subjects

Sacrum, Materials science, medicine.medical_treatment, Finite Element Analysis, Biophysics, Intervertebral Disc Degeneration, Lumbar vertebrae, 03 medical and health sciences, Fixation (surgical), 0302 clinical medicine, Lumbar, Pedicle Screws, medicine, Humans, Orthopedics and Sports Medicine, Range of Motion, Articular, Device Removal, 030222 orthopedics, Fusion, Lumbar Vertebrae, Anatomy, Internal Fixators, Finite element method, Biomechanical Phenomena, Spinal Fusion, medicine.anatomical_structure, Spinal fusion, Disease Progression, 030217 neurology & neurosurgery, Lumbosacral joint

Abstract

Background data Combined usage of posterior lumbar interbody fusion and transpedicular fixation has been extensively used to treat the various lumbar degenerative disc diseases. The transpedicular fixator aims to increase stability and enhance the fusion rate. However, how the fused disc and bridged vertebrae respectively affect adjacent-segment diseases progression is not yet clear. Methods Using a validated lumbosacral finite-element model, three variations at the L4–L5 segment were analyzed: 1) moderate disc degeneration, 2) instrumented with a stand-alone cage and pedicle screw fixators, and 3) with the cage only after fusion. The intersegmental angles, disc stresses, and facet loads were examined. Four motion tests, flexion, extension, bending, and twisting, were also simulated. Findings The adjacent-segment disease was more severe at the cephalic segment than the caudal segment. After solid fusion and fixation, the increase in intersegmental angles, disc stresses and facet loads of the adjacent segments were about 57.6%, 47.3%, and 59.6%, respectively. However, these changes were reduced to 30.1%, 22.7%, and 27.0% after removal of the fixators. This was attributed to the differences between the biomechanical characteristics of the fusion and fixation mechanisms. Interpretation Fixation superimposes a stiffer constraint on the mobility of the bridged segment than fusion. The current study suggested that the removal of spinal fixators after complete fusion could decrease the stress at adjacent segments. Through a minimally invasive procedure, we could reduce secondary damage to the paraspinal structures while removing the fixators, which is of utmost concern to surgeons.

Published

2017

2. Removal of fixation construct could mitigate adjacent segment stress after lumbosacral fusion: A finite element analysis.

Author

Yueh-Ying Hsieh, Chia-Hsien Chen, Fon-Yih Tsuang, Lien-Chen Wu, Shang-Chih Lin, and Chang-Jung Chiang

Subjects

*BONE screws, *COMPUTER simulation, *ENDOSCOPIC surgery, *FINITE element method, *RANGE of motion of joints, *LUMBAR vertebrae, *SPINAL fusion, *PHYSIOLOGIC strain

Abstract

Background data: Combined usage of posterior lumbar interbody fusion and transpedicular fixation has been extensively used to treat the various lumbar degenerative disc diseases. The transpedicular fixator aims to increase stability and enhance the fusion rate. However, how the fused disc and bridged vertebrae respectively affect adjacent-segment diseases progression is not yet clear. Methods: Using a validated lumbosacral finite-element model, three variations at the L4–L5 segment were analyzed: 1) moderate disc degeneration, 2) instrumented with a stand-alone cage and pedicle screw fixators, and 3) with the cage only after fusion. The intersegmental angles, disc stresses, and facet loads were examined. Four motion tests, flexion, extension, bending, and twisting, were also simulated. Findings: The adjacent-segment disease was more severe at the cephalic segment than the caudal segment. After solid fusion and fixation, the increase in intersegmental angles, disc stresses and facet loads of the adjacent segments were about 57.6%, 47.3%, and 59.6%, respectively. However, these changes were reduced to 30.1%, 22.7%, and 27.0% after removal of the fixators. This was attributed to the differences between the biomechanical characteristics of the fusion and fixation mechanisms. Interpretation: Fixation superimposes a stiffer constraint on the mobility of the bridged segment than fusion. The current study suggested that the removal of spinal fixators after complete fusion could decrease the stress at adjacent segments. Through a minimally invasive procedure, we could reduce secondary damage to the paraspinal structures while removing the fixators, which is of utmost concern to surgeons. [ABSTRACT FROM AUTHOR]

Published

2017