Total Disc Replacement Positioning Affects Facet Contact Forces and Vertebral Body Strains

@article{Rundell2008TotalDR,
  title={Total Disc Replacement Positioning Affects Facet Contact Forces and Vertebral Body Strains},
  author={Steven A. Rundell and Joshua D. Auerbach and Richard A. Balderston and Steven M. Kurtz},
  journal={Spine},
  year={2008},
  volume={33},
  pages={2510-2517}
}
Study Design. A validated nonlinear three-dimensional finite element (FE) model of a single lumbar motion segment (L3-L4) was used to evaluate the effects of total disc replacement (TDR). The model was implanted with a fixed-bearing TDR (ProDisc-L) at 2 surgically relevant positions and exercised about the 3 anatomic axes. Facet forces, range of motion (RoM), and vertebral body strains were evaluated. Objective. The objective of the current study was to evaluate how TDR implantation and… 
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Facet Joint Biomechanics at the Treated and Adjacent Levels After Total Disc Replacement
TLDR
This study demonstrates that rotation is the most demanding motion for the spine and is the first to show a decrease in several biomechanical parameters after TDR at the adjacent superior level.
Spinal Kinematics and Facet Load Transmission After Total Disc Replacement
TLDR
TDR using a ball-and-socket type artificial disc significantly increased ROM under axial load and maintained the HAM with similar facet contact forces to the intact state and TDR states.
Lumbar Total Disc Replacement Impingement Sensitivity to Disc Height Distraction, Spinal Sagittal Orientation, Implant Position, and Implant Lordosis
TLDR
The data indicate that lumbar mobile-bearing TDR impingement is sensitive to disc height distraction, anterior-posterior position, implant lordosis, and spinal sagittal orientation and can be minimized by choosing an implant with an appropriate amount of lordosis.
Biomechanical evaluation of a spherical lumbar interbody device at varying levels of subsidence
Kinematics of total facet replacement (TFAS-TL) with total disc replacement
Postero-Lateral Disc Prosthesis Combined With a Unilateral Facet Replacement Device Maintains Quantity and Quality of Motion at a Single Lumbar Level
TLDR
Biomechanically, quantity and quality of motion are maintained with combined unilateral FR + PDR at a single lumbar spinal level.
quality of motion in a lumbar total disc replacement A compliant-mechanism approach to achieving specific
TLDR
Incorporation of segmental quality of motion into the foundational stages of the design process resulted in a total disc eplacement design that provides torque-rotation and helical axis–of–motion characteristics to the adjacent segments and the operative-level acets that are similar to those observed in healthy spinal segments.
Facet joint contact pressure is not significantly affected by ProDisc cervical disc arthroplasty in sagittal bending: a single-level cadaveric study.
ProDisc Cervical Arthroplasty Does Not Alter Facet Joint Contact Pressure During Lateral Bending or Axial Torsion
TLDR
Implantation of a ProDisc-C does not significantly modify the kinematics and facet pressure at the index level in cadaveric specimens during lateral bending and axial torsion, however, changes in facet contact pressures after disc arthroplasty may have long-term effects on spinal loading and cartilage degeneration and should be monitored in vivo.
Development of a Biconcave Mobile‐Bearing Lumbar Total Disc Arthroplasty Concept Using Finite Element Analysis and Design Optimization
  • Chaochao Zhou, R. Willing
  • Engineering
    Journal of orthopaedic research : official publication of the Orthopaedic Research Society
  • 2019
TLDR
Simulation results show that abnormal motions are alleviated in fixed‐/mobile‐bearing TDA‐treated segments, as the FJ gap increases, and a new TDA concept featuring a biconcave PE core with a smooth shape is proposed, in order to strengthen the PE rim and mitigate edge‐loading.
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