Tibial sagittal and rotational alignment reduce patellofemoral stresses in posterior stabilized total knee arthroplasty

Patellofemoral joint complications remain an important issue in total knee arthroplasty. We compared the patellofemoral contact status between cruciate-retaining and posterior-stabilized designs with varying degrees of tibial sagittal and rotational alignment using a computer simulation to ensure pr...

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Published inScientific Reports Vol. 12; no. 1; pp. 12319 - 10
Main Authors Mizu-uchi, Hideki, Ma, Yuan, Ishibashi, Shojiro, Colwell, Clifford W., Nakashima, Yasuharu, D’Lima, Darryl D.
Format Journal Article
LanguageEnglish
Published London Springer Science and Business Media LLC 19.07.2022
Nature Publishing Group UK
Nature Publishing Group
Nature Portfolio
Subjects
692/308/2778
692/700/565/545/488
Arthroplasty (knee)
Arthroplasty, Replacement, Knee
Biomechanical Phenomena
Computer Simulation
Design
Finite element method
Humanities and Social Sciences
Humans
Joint replacement surgery
Kinematics
Knee
Knee Joint
Medicine
multidisciplinary
Q
Quadriceps muscle
R
Range of Motion, Articular
Science
Science (multidisciplinary)
Tibia
Online AccessGet full text
ISSN2045-2322
2045-2322
DOI10.1038/s41598-022-15759-6

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Abstract Patellofemoral joint complications remain an important issue in total knee arthroplasty. We compared the patellofemoral contact status between cruciate-retaining and posterior-stabilized designs with varying degrees of tibial sagittal and rotational alignment using a computer simulation to ensure proper alignments in total knee arthroplasty. Knee kinematics, patellofemoral contact force and quadriceps force were computed using a musculoskeletal modeling program (LifeMOD/KneeSIM 2010; LifeModeler, Inc., San Clemente, California) during a weight-bearing deep knee bend. Two different posterior tibial slope (PTS)s (3° and 7°) and five different tibial tray rotational alignments (neutral, internal 5° and 10°, and external 5° and 10°) were simulated. Patellofemoral contact area and stresses were next computed using finite element analysis. The patellofemoral contact force for the posterior-stabilized design was substantially lower than the cruciate-retaining design after post-cam contact because of increasing femoral roll-back. Neutral rotational alignment of the tibial component resulted in smaller differences in patellofemoral contact stresses between cruciate-retaining and posterior-stabilized designs for PTSs of 3° or 7°. However, the patellar contact stresses in the cruciate-retaining design were greater than those in posterior-stabilized design at 120° of knee flexion with PTS of 3° combined with internal rotation of the tibial component. Our study provides biomechanical evidence implicating lower PTSs combined with internal malrotation of the tibial component and the resultant increase in patellofemoral stresses as a potential source of anterior knee pain in cruciate-retaining design.
AbstractList Abstract Patellofemoral joint complications remain an important issue in total knee arthroplasty. We compared the patellofemoral contact status between cruciate-retaining and posterior-stabilized designs with varying degrees of tibial sagittal and rotational alignment using a computer simulation to ensure proper alignments in total knee arthroplasty. Knee kinematics, patellofemoral contact force and quadriceps force were computed using a musculoskeletal modeling program (LifeMOD/KneeSIM 2010; LifeModeler, Inc., San Clemente, California) during a weight-bearing deep knee bend. Two different posterior tibial slope (PTS)s (3° and 7°) and five different tibial tray rotational alignments (neutral, internal 5° and 10°, and external 5° and 10°) were simulated. Patellofemoral contact area and stresses were next computed using finite element analysis. The patellofemoral contact force for the posterior-stabilized design was substantially lower than the cruciate-retaining design after post-cam contact because of increasing femoral roll-back. Neutral rotational alignment of the tibial component resulted in smaller differences in patellofemoral contact stresses between cruciate-retaining and posterior-stabilized designs for PTSs of 3° or 7°. However, the patellar contact stresses in the cruciate-retaining design were greater than those in posterior-stabilized design at 120° of knee flexion with PTS of 3° combined with internal rotation of the tibial component. Our study provides biomechanical evidence implicating lower PTSs combined with internal malrotation of the tibial component and the resultant increase in patellofemoral stresses as a potential source of anterior knee pain in cruciate-retaining design.
Patellofemoral joint complications remain an important issue in total knee arthroplasty. We compared the patellofemoral contact status between cruciate-retaining and posterior-stabilized designs with varying degrees of tibial sagittal and rotational alignment using a computer simulation to ensure proper alignments in total knee arthroplasty. Knee kinematics, patellofemoral contact force and quadriceps force were computed using a musculoskeletal modeling program (LifeMOD/KneeSIM 2010; LifeModeler, Inc., San Clemente, California) during a weight-bearing deep knee bend. Two different posterior tibial slope (PTS)s (3° and 7°) and five different tibial tray rotational alignments (neutral, internal 5° and 10°, and external 5° and 10°) were simulated. Patellofemoral contact area and stresses were next computed using finite element analysis. The patellofemoral contact force for the posterior-stabilized design was substantially lower than the cruciate-retaining design after post-cam contact because of increasing femoral roll-back. Neutral rotational alignment of the tibial component resulted in smaller differences in patellofemoral contact stresses between cruciate-retaining and posterior-stabilized designs for PTSs of 3° or 7°. However, the patellar contact stresses in the cruciate-retaining design were greater than those in posterior-stabilized design at 120° of knee flexion with PTS of 3° combined with internal rotation of the tibial component. Our study provides biomechanical evidence implicating lower PTSs combined with internal malrotation of the tibial component and the resultant increase in patellofemoral stresses as a potential source of anterior knee pain in cruciate-retaining design.
Patellofemoral joint complications remain an important issue in total knee arthroplasty. We compared the patellofemoral contact status between cruciate-retaining and posterior-stabilized designs with varying degrees of tibial sagittal and rotational alignment using a computer simulation to ensure proper alignments in total knee arthroplasty. Knee kinematics, patellofemoral contact force and quadriceps force were computed using a musculoskeletal modeling program (LifeMOD/KneeSIM 2010; LifeModeler, Inc., San Clemente, California) during a weight-bearing deep knee bend. Two different posterior tibial slope (PTS)s (3° and 7°) and five different tibial tray rotational alignments (neutral, internal 5° and 10°, and external 5° and 10°) were simulated. Patellofemoral contact area and stresses were next computed using finite element analysis. The patellofemoral contact force for the posterior-stabilized design was substantially lower than the cruciate-retaining design after post-cam contact because of increasing femoral roll-back. Neutral rotational alignment of the tibial component resulted in smaller differences in patellofemoral contact stresses between cruciate-retaining and posterior-stabilized designs for PTSs of 3° or 7°. However, the patellar contact stresses in the cruciate-retaining design were greater than those in posterior-stabilized design at 120° of knee flexion with PTS of 3° combined with internal rotation of the tibial component. Our study provides biomechanical evidence implicating lower PTSs combined with internal malrotation of the tibial component and the resultant increase in patellofemoral stresses as a potential source of anterior knee pain in cruciate-retaining design.
Patellofemoral joint complications remain an important issue in total knee arthroplasty. We compared the patellofemoral contact status between cruciate-retaining and posterior-stabilized designs with varying degrees of tibial sagittal and rotational alignment using a computer simulation to ensure proper alignments in total knee arthroplasty. Knee kinematics, patellofemoral contact force and quadriceps force were computed using a musculoskeletal modeling program (LifeMOD/KneeSIM 2010; LifeModeler, Inc., San Clemente, California) during a weight-bearing deep knee bend. Two different posterior tibial slope (PTS)s (3° and 7°) and five different tibial tray rotational alignments (neutral, internal 5° and 10°, and external 5° and 10°) were simulated. Patellofemoral contact area and stresses were next computed using finite element analysis. The patellofemoral contact force for the posterior-stabilized design was substantially lower than the cruciate-retaining design after post-cam contact because of increasing femoral roll-back. Neutral rotational alignment of the tibial component resulted in smaller differences in patellofemoral contact stresses between cruciate-retaining and posterior-stabilized designs for PTSs of 3° or 7°. However, the patellar contact stresses in the cruciate-retaining design were greater than those in posterior-stabilized design at 120° of knee flexion with PTS of 3° combined with internal rotation of the tibial component. Our study provides biomechanical evidence implicating lower PTSs combined with internal malrotation of the tibial component and the resultant increase in patellofemoral stresses as a potential source of anterior knee pain in cruciate-retaining design.Patellofemoral joint complications remain an important issue in total knee arthroplasty. We compared the patellofemoral contact status between cruciate-retaining and posterior-stabilized designs with varying degrees of tibial sagittal and rotational alignment using a computer simulation to ensure proper alignments in total knee arthroplasty. Knee kinematics, patellofemoral contact force and quadriceps force were computed using a musculoskeletal modeling program (LifeMOD/KneeSIM 2010; LifeModeler, Inc., San Clemente, California) during a weight-bearing deep knee bend. Two different posterior tibial slope (PTS)s (3° and 7°) and five different tibial tray rotational alignments (neutral, internal 5° and 10°, and external 5° and 10°) were simulated. Patellofemoral contact area and stresses were next computed using finite element analysis. The patellofemoral contact force for the posterior-stabilized design was substantially lower than the cruciate-retaining design after post-cam contact because of increasing femoral roll-back. Neutral rotational alignment of the tibial component resulted in smaller differences in patellofemoral contact stresses between cruciate-retaining and posterior-stabilized designs for PTSs of 3° or 7°. However, the patellar contact stresses in the cruciate-retaining design were greater than those in posterior-stabilized design at 120° of knee flexion with PTS of 3° combined with internal rotation of the tibial component. Our study provides biomechanical evidence implicating lower PTSs combined with internal malrotation of the tibial component and the resultant increase in patellofemoral stresses as a potential source of anterior knee pain in cruciate-retaining design.
ArticleNumber 12319
Author Hideki Mizu-uchi
Yuan Ma
Clifford W. Colwell
Shojiro Ishibashi
Darryl D. D’Lima
Yasuharu Nakashima
Author_xml – sequence: 1
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  surname: Mizu-uchi
  fullname: Mizu-uchi, Hideki
  organization: Department of Orthopaedic Surgery, Saiseikai Fukuoka General Hospital, Department of Orthopaedic Surgery, Graduate School of Medical Sciences, Kyushu University
– sequence: 2
  givenname: Yuan
  surname: Ma
  fullname: Ma, Yuan
  organization: Department of Orthopaedic Surgery, Graduate School of Medical Sciences, Kyushu University
– sequence: 3
  givenname: Shojiro
  surname: Ishibashi
  fullname: Ishibashi, Shojiro
  organization: Department of Orthopaedic Surgery, Saiseikai Fukuoka General Hospital, Department of Orthopaedic Surgery, Graduate School of Medical Sciences, Kyushu University
– sequence: 4
  givenname: Clifford W.
  surname: Colwell
  fullname: Colwell, Clifford W.
  organization: Shiley Center for Orthopaedic Research and Education at Scripps Clinic
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  givenname: Yasuharu
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  givenname: Darryl D.
  surname: D’Lima
  fullname: D’Lima, Darryl D.
  email: ddlima@scripps.edu
  organization: Shiley Center for Orthopaedic Research and Education at Scripps Clinic
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CitedBy_id crossref_primary_10_1002_jeo2_12069
crossref_primary_10_47093_2218_7332_2024_15_1_47_60
crossref_primary_10_3389_fbioe_2023_1127289
crossref_primary_10_12677_ACM_2023_13122611
crossref_primary_10_1038_s41598_023_33183_2
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Snippet Patellofemoral joint complications remain an important issue in total knee arthroplasty. We compared the patellofemoral contact status between...
Abstract Patellofemoral joint complications remain an important issue in total knee arthroplasty. We compared the patellofemoral contact status between...
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SubjectTerms 692/308/2778
692/700/565/545/488
Arthroplasty (knee)
Arthroplasty, Replacement, Knee
Biomechanical Phenomena
Computer Simulation
Design
Finite element method
Humanities and Social Sciences
Humans
Joint replacement surgery
Kinematics
Knee
Knee Joint
Medicine
multidisciplinary
Q
Quadriceps muscle
R
Range of Motion, Articular
Science
Science (multidisciplinary)
Tibia
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Title Tibial sagittal and rotational alignment reduce patellofemoral stresses in posterior stabilized total knee arthroplasty
URI https://cir.nii.ac.jp/crid/1873116918010935040
https://link.springer.com/article/10.1038/s41598-022-15759-6
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https://www.proquest.com/docview/2692072052
https://pubmed.ncbi.nlm.nih.gov/PMC9296446
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Volume 12
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