Computer-assisted gap equalization in total knee arthroplasty.

This in vitro biomechanical study compared a conventional balancing technique in knee arthroplasty to a technique using computer assistance. The experimental technique used a soft tissue tensioner instrumented with computer-monitored load cells to quantify soft tissue tension. To assess outcome, a tibial load transducer measured medial and lateral compartment forces and tibial rotation. An electromagnetic tracking system quantified knee position under simulated muscle loading. The computer-assisted technique improved knee balance before insertion of components. However, once components were implanted, there was no difference in knee load balance between the 2 techniques. No correlation was shown between compartmental load balance and tibial rotation or mechanical axis misalignment. Although computer-assisted surgery may improve technical accuracy, further work is necessary to achieve an optimal final knee load balance.

[1]  K A Krackow,et al.  The effect of medial release on flexion and extension gaps in cadaveric knees: implications for soft-tissue balancing in total knee arthroplasty. , 1999, The American journal of knee surgery.

[2]  S. E. Irby,et al.  Instrumented implant for measuring tibiofemoral forces. , 1996, Journal of biomechanics.

[3]  T. Fehring Rotational Malalignment of the Femoral Component in Total Knee Arthroplasty , 2000, Clinical orthopaedics and related research.

[4]  Cyril Boeri,et al.  Low reproducibility of the intra–operative measurement of the transepicondylar axis during total knee replacement , 2004, Acta orthopaedica Scandinavica.

[5]  J. Insall,et al.  Total knee arthroplasty , 2015 .

[6]  B. Philipps,et al.  Interindividual reproducibility in perioperative rotational alignment of femoral components in knee prosthetic surgery using the transepicondylar axis , 2002, Knee Surgery, Sports Traumatology, Arthroscopy.

[7]  P. Sarangi,et al.  Severe varus and valgus deformities treated by total knee arthroplasty. , 1994, The Journal of bone and joint surgery. British volume.

[8]  G. Scuderi**,et al.  Mechanisms of failure of the femoral and tibial components in total knee arthroplasty. , 1989, Clinical orthopaedics and related research.

[9]  D. D’Lima,et al.  Polyethylene Contact Stresses, Articular Congruity, and Knee Alignment , 2001, Clinical orthopaedics and related research.

[10]  D J Pratt,et al.  Soft-tissue balance and recovery of proprioception after total knee replacement. , 1996, The Journal of bone and joint surgery. British volume.

[11]  P S Walker,et al.  Effect of knee component alignment on tibial load distribution with clinical correlation. , 1989, Clinical orthopaedics and related research.

[12]  P. Lotke,et al.  Influence of positioning of prosthesis in total knee replacement. , 1977, The Journal of bone and joint surgery. American volume.

[13]  M. Winemaker,et al.  Perfect balance in total knee arthroplasty: the elusive compromise. , 2002, The Journal of arthroplasty.

[14]  S F Attfield,et al.  Quantification of soft-tissue imbalance in condylar knee arthroplasty. , 1993, Journal of biomedical engineering.

[15]  Richard R Glisson,et al.  The effects of varus tibial alignment on proximal tibial surface strain in total knee arthroplasty: The posteromedial hot spot. , 2002, The Journal of arthroplasty.

[16]  S F Attfield,et al.  Measurement of soft tissue imbalance in total knee arthroplasty using electronic instrumentation. , 1994, Medical engineering & physics.

[17]  M A Freeman,et al.  Alignment in total knee arthroplasty. Correlated biomechanical and clinical observations. , 1983, Clinical orthopaedics and related research.

[18]  T. Wilton,et al.  Soft-tissue tension total knee arthroplasty. , 2004, The Journal of arthroplasty.

[19]  M. Ritter,et al.  Postoperative alignment of total knee replacement. Its effect on survival. , 1994, Clinical orthopaedics and related research.

[20]  James A. Johnson,et al.  Accuracy of an electromagnetic tracking device: a study of the optimal range and metal interference. , 1996, Journal of biomechanics.

[21]  R Nagamine,et al.  Changes in knee alignment after total knee arthroplasty. , 1999, The Journal of arthroplasty.

[22]  K A Krackow,et al.  Flexion-extension joint gap changes after lateral structure release for valgus deformity correction in total knee arthroplasty: a cadaveric study. , 1999, The Journal of arthroplasty.

[23]  W R Walsh,et al.  Intraoperative assessment of tibiofemoral contact stresses in total knee arthroplasty. , 1998, The Journal of arthroplasty.

[24]  Hideki Yoshikawa,et al.  In vivo kinematics of mobile‐bearing knee arthroplasty in deep knee bending motion , 2004, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.