A novel approach for optimal graft positioning and tensioning in anterior cruciate ligament reconstructive surgery based on the finite element modeling technique

A novel approach for optimal graft positioning and tensioning in anterior cruciate ligament reconstructive surgery based on the finite element modeling technique

In ACL-reconstructed patients the postoperative knee biomechanics may differ from the intact knee biomechanical behavior which can alter knee kinematics and kinetics, and as a result lead to the progression of knee osteoarthritis. The aim of this study was to demonstrate the potential of finite elem...

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Veröffentlicht in:The knee 2020-03, Vol.27 (2), p.384-396
Hauptverfasser: Naghibi, Hamid, Janssen, Dennis, Van Tienen, Tony, Van de Groes, Sebastiaan, Van de Boogaard, Ton, Verdonschot, Nico
Format: Artikel
Sprache:eng
Schlagworte:
Anterior cruciate ligament
Biomechanics
Cadavers
Cartilage
Computer simulation
Isometric
Kinematics
Kinetics
Knee
Ligaments
Magnetic resonance imaging
Mathematical models
Mechanical properties
Optimization
Osteoarthritis
Quadriceps muscle
Reconstructive surgery
Surgeons
Walking
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container_end_page 396
container_issue 2
container_start_page 384
container_title The knee
container_volume 27
creator Naghibi, Hamid
Janssen, Dennis
Van Tienen, Tony
Van de Groes, Sebastiaan
Van de Boogaard, Ton
Verdonschot, Nico
description In ACL-reconstructed patients the postoperative knee biomechanics may differ from the intact knee biomechanical behavior which can alter knee kinematics and kinetics, and as a result lead to the progression of knee osteoarthritis. The aim of this study was to demonstrate the potential of finite element models to define the optimal choices in surgical parameters in terms of optimal graft positioning in combination with graft type in order to restore the kinematic and kinetic behavior of the knee as best as possible. A workflow was proposed based on cadaveric experiments in order to restore the injured knee to a near normal physiological condition. Femoral and tibial graft insertion sites and graft fixation tension were optimized to obtain similar intact knee laxity, for three common single-bundle and one double-bundle reconstructions. To verify the success of the surgery with the variables calculated using the proposed workflow, a full walking cycle was simulated with the intact, ACL-ruptured, optimal ACL-reconstructed and non-optimal reconstructed knees. Our results suggested that for patellar tendon and hamstring tendon grafts, anatomical positioning (fixation force: 40 N), and for quadriceps tendon graft, isometric positioning (fixation tension: 85 N) could recover the intact joint kinematics and kinetics. Also for double-bundle reconstruction, with the numerically calculated optimal insertion sites, both bundles needed 50-N fixation force. With optimal graft positioning parameters, following the proposed workflow in this study, any of the single-bundle graft types and surgical techniques (single vs. double-bundle) may be used to acceptably recover the intact knee joint biomechanical behavior.
doi_str_mv 10.1016/j.knee.2020.01.010
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subjects Anterior cruciate ligament
Biomechanics
Cadavers
Cartilage
Computer simulation
Isometric
Kinematics
Kinetics
Knee
Ligaments
Magnetic resonance imaging
Mathematical models
Mechanical properties
Optimization
Osteoarthritis
Quadriceps muscle
Reconstructive surgery
Surgeons
Walking
title A novel approach for optimal graft positioning and tensioning in anterior cruciate ligament reconstructive surgery based on the finite element modeling technique
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