Total knee arthroplasty (TKA) has become one of the most widely used procedures for restoring knee function and relieving pain in the advanced stages of knee osteoarthritis; yet early TKA failure (<10 years post-surgery) remains a large-scale problem. Although knee instability is known to be a major cause of early failures, current methods for measuring knee balance are largely subjective and user-dependent. Ultrasound elastography (UE) is an innovative technology that enables the noninvasive quantification of soft tissue displacements and strains, which are important indicators of balance. We have recently developed such a technique for the evaluation of Achilles tendon deformation, and believe that this approach could provide important insight into knee soft tissue mechanics. The premise of this study is to use this noninvasive UE approach to measure knee balance in situ and then in patient populations to better understand the effects of TKA on altered knee balance, with the overall goal to pave the way toward intra-operative integration of this approach.
In Aim 1, ultrasound data will be collected from cadaveric knee soft tissues (medial and lateral collateral ligament, patellar tendon) while functionally loaded in a kinematic knee rig. Tissue displacements and strains will then be computed using our UE approach. Results from UE will be compared with the current gold standard approach (digital image correlation; DIC) to enable calibration and then accuracy assessment. TKAs will then be performed on the specimens by an orthopaedic surgeon, and altered knee balance will be imposed by overstuffing the medial or lateral components of the knee. The sensitivity of UE measurements to these altered balance conditions will be assessed. An important outcome of this aim will also be the public sharing of the validation dataset (ultrasound data, DIC and kinematics).
In Aim 2, soft tissue mechanics will be evaluated in healthy adults (n=20), and adults with a prior TKA demonstrating acceptable (n=20) and unacceptable (n=20) stability. Comparison of UE-computed displacements and strains will provide insight into the effects of TKA on knee stability. Finally, in Aim 3, these results will be compiled and discriminant function analysis will be used to determine which tasks and measures provide the best discriminating power for clinical assessment. These data will be paired with clinical insight to provide recommendations for clinical integration of UE for the assessment of soft tissue knee balance. Successful completion of these aims will contribute to improving the outcomes of TKA for the more than 600,000 Americans who annually undergo this procedure, and will point to specific intra-operative techniques that can improve TKA outcomes.

Public Health Relevance

This purpose of this study is to calibrate a novel quantitative ultrasound technique to enable the measurement of soft tissue balance of the knee. The study will provide insight into how total knee arthroplasty can alter knee balance, and what measureable differences exist between individuals with a TKA showing good balance, and those slated for revision surgery due to knee instability. The final outcome of this study will be recommendations for intra-operative use of this UE approach to directly improve intra-operative knee balance during TKA with the potential to improve long-term TKA success.

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Postdoctoral Individual National Research Service Award (F32)
Project #
1F32AR069459-01X1
Application #
9247371
Study Section
Special Emphasis Panel (ZRG1)
Program Officer
Lester, Gayle E
Project Start
2016-05-10
Project End
2019-05-09
Budget Start
2016-05-10
Budget End
2017-05-09
Support Year
1
Fiscal Year
2016
Total Cost
Indirect Cost
Name
Katholieke Universiteit Leuven
Department
Type
DUNS #
283400430
City
Leuven
State
Country
Belgium
Zip Code
3000
Slane, Laura Chernak; Dandois, Félix; Bogaerts, Stijn et al. (2018) Non-uniformity in the healthy patellar tendon is greater in males and similar in different age groups. J Biomech 80:16-22
Slane, Laura Chernak; Dandois, Félix; Bogaerts, Stijn et al. (2018) Patellar tendon buckling is altered with age. Med Eng Phys 59:15-20
Slane, Laura C; Slane, Josh A; Scheys, Lennart (2017) The measurement of medial knee gap width using ultrasound. Arch Orthop Trauma Surg 137:1121-1128
Slane, Laura C; Slane, Josh A; D'hooge, Jan et al. (2017) The challenges of measuring in vivo knee collateral ligament strains using ultrasound. J Biomech 61:258-262