Can Intraoperative Sensors Determine the "Target" Ligament Balance? Early Outcomes in Total Knee Arthroplasty.

BACKGROUND The optimal "target" ligament balance for each patient undergoing total knee arthroplasty (TKA) remains unknown. The study purpose was to determine if patient outcomes are affected by intraoperative ligament balance measured with force-sensing implant trials and if an optimal "target" balance exists. METHODS A multicenter, retrospective study reviewed consecutive TKAs performed by 3 surgeons. TKA's were performed with standard surgical techniques and ligament releases. After final implants were made, sensor-embedded smart tibial trials were inserted, and compartment forces recorded throughout the range of motion. Clinical outcome measures were obtained preoperatively and at 4 months. Statistical analysis correlated ligament balance with clinical outcomes. RESULTS One hundred eighty-nine consecutive TKAs were analyzed. Patients were grouped by average medial and lateral compartment force differences. Twenty-nine TKAs (15%) were balanced within 15 lbs and 53 (28%) were "balanced" greater than 75 lbs. Greater improvement in University of California Los Angeles activity level was associated with a mediolateral force difference <60 lbs. (P = .006). Knee Society objective, function, and satisfaction scores, and self-reported health state were unrelated to mediolateral balance in the knee. CONCLUSION Intraoperative force-sensing has potential in providing real-time objective data to optimize TKA outcomes. These data support some early outcomes may improve by balancing TKAs within 60 lbs difference. Close follow-up is warranted to determine if gait pattern adaptations affect longer term outcomes with greater or less ligament "imbalance."

[1]  R. Komistek,et al.  Analysis of the Flexion Gap on In Vivo Knee Kinematics Using Fluoroscopy. , 2015, The Journal of arthroplasty.

[2]  P. Sharkey,et al.  Why Are Total Knee Arthroplasties Failing Today? , 2002 .

[3]  M. Roche,et al.  A new method for defining balance: promising short-term clinical outcomes of sensor-guided TKA. , 2014, The Journal of arthroplasty.

[4]  Sina Babazadeh,et al.  The relevance of ligament balancing in total knee arthroplasty: how important is it? A systematic review of the literature , 2009, Orthopedic reviews.

[5]  Adam C. Brekke,et al.  AT THE ANNUAL MEETINGS OF THE KNEE SOCIETY Development of a New Knee Society Scoring System , 2011 .

[6]  S. Kurtz,et al.  Projections of primary and revision hip and knee arthroplasty in the United States from 2005 to 2030. , 2007, The Journal of bone and joint surgery. American volume.

[7]  M. Roche,et al.  Primary TKA Patients with Quantifiably Balanced Soft-Tissue Achieve Significant Clinical Gains Sooner than Unbalanced Patients , 2014, Advances in orthopedics.

[8]  Ryosuke Kuroda,et al.  Soft tissue balance measurement in posterior-stabilized total knee arthroplasty with a navigation system. , 2009, The Journal of arthroplasty.

[9]  J O Galante,et al.  Wear patterns on retrieved polyethylene tibial inserts and their relationship to technical considerations during total knee arthroplasty. , 1994, Clinical orthopaedics and related research.

[10]  J. Seon,et al.  The effect of flexion balance on functional outcomes in cruciate-retaining total knee arthroplasty , 2015, Archives of Orthopaedic and Trauma Surgery.

[11]  H. Brown,et al.  Validity of Euroqol--a generic health status instrument--in patients with rheumatoid arthritis. Economic and Health Outcomes Research Group. , 1994, British journal of rheumatology.

[12]  Akihiro Sudo,et al.  Prediction of post-operative range of motion using intra-operative soft tissue balance in total knee arthroplasty with navigation , 2015, Computer aided surgery : official journal of the International Society for Computer Aided Surgery.

[13]  T. Fehring,et al.  Knee instability after total knee arthroplasty. , 1994, Clinical orthopaedics and related research.

[14]  L. Whiteside Soft tissue balancing: the knee. , 2002, The Journal of arthroplasty.

[15]  K. Saleh,et al.  Soft‐tissue Balancing During Total Knee Arthroplasty in the Varus Knee , 2009, The Journal of the American Academy of Orthopaedic Surgeons.

[16]  A. Gonzalez Della Valle,et al.  The Position of the Patella and Extensor Mechanism Affects Intraoperative Compartmental Loads During Total Knee Arthroplasty: A Pilot Study Using Intraoperative Sensing to Guide Soft Tissue Balance. , 2015, The Journal of arthroplasty.

[17]  T. Briggs,et al.  Short-term outcome in total knee replacement after soft-tissue release and balancing. , 2008, The Journal of bone and joint surgery. British volume.

[18]  Elena Losina,et al.  Estimating the burden of total knee replacement in the United States. , 2013, The Journal of bone and joint surgery. American volume.

[19]  H. Amstutz,et al.  Treatment of primary osteoarthritis of the hip. A comparison of total joint and surface replacement arthroplasty. , 1984, The Journal of bone and joint surgery. American volume.

[20]  M. Pagnano,et al.  Instability after total knee arthroplasty. , 2008, The Journal of bone and joint surgery. American volume.

[21]  Martin Roche,et al.  Dynamic soft tissue balancing in total knee arthroplasty. , 2014, The Orthopedic clinics of North America.

[22]  W. Norman Scott,et al.  Surgery of the knee , 2001 .

[23]  D. Dennis,et al.  Gap Balancing versus Measured Resection Technique for Total Knee Arthroplasty , 2010, Clinical orthopaedics and related research.

[24]  C. Olcott,et al.  The Ranawat Award. Femoral component rotation during total knee arthroplasty. , 1999, Clinical orthopaedics and related research.

[25]  Anthony J. Petrella,et al.  Optimizing Femoral Component Rotation in Total Knee Arthroplasty , 2001, Clinical orthopaedics and related research.

[26]  Richard S Laskin,et al.  Computer-assisted navigation in TKA: where we are and where we are going. , 2006, Clinical orthopaedics and related research.

[27]  S. Odum,et al.  Early Failures in Total Knee Arthroplasty , 2001, Clinical orthopaedics and related research.

[28]  B. Beynnon,et al.  The Transepicondylar Axis Approximates the Optimal Flexion Axis of the Knee , 1998, Clinical orthopaedics and related research.

[29]  T. Schmalzried,et al.  Assessing activity in joint replacement patients. , 1998, The Journal of arthroplasty.

[30]  Steven M. Kurtz,et al.  The Epidemiology of Revision Total Knee Arthroplasty in the United States , 2009, Clinical orthopaedics and related research.

[31]  M. Roche,et al.  Increased satisfaction after total knee replacement using sensor-guided technology. , 2014, The bone & joint journal.

[32]  Mohamed R Mahfouz,et al.  In vivo comparison of knee kinematics for subjects having either a posterior stabilized or cruciate retaining high-flexion total knee arthroplasty. , 2008, The Journal of arthroplasty.

[33]  K. Gustke Use of smart trials for soft-tissue balancing in total knee replacement surgery. , 2012, The Journal of bone and joint surgery. British volume.

[34]  C. Olcott,et al.  Femoral component rotation during total knee arthroplasty , 1999 .

[35]  W. J. Dixon,et al.  Processing Data for Outliers , 1953 .

[36]  P. Noble,et al.  The New Knee Society Knee Scoring System , 2012, Clinical orthopaedics and related research.

[37]  Robert A Siston,et al.  Is There a Gold Standard for TKA Tibial Component Rotational Alignment? , 2013, Clinical orthopaedics and related research.