The objective of this study is to validate a new technique for intraoperative quantification of the patello-femoral joint kinematics in patients undergoing total knee replacement, and for postoperative quantification of implanted knee and general lower limb activity, along with relevant muscle dynamics.
In total knee replacement with patellar resurfacing, the patellar bone preparation and relevant component positioning, including relevant motion assessments, are still not navigated, and only femoral/tibial component positioning is supported by computer-assistance. After surgery, anterior knee pain is generally reported and this may due to prosthesis component mal-positioning, including the patella, and, ultimately, this may result in revision arthroplasty. Within computer-assisted surgery, surgical navigated system have been introduced to monitor femur and tibia prosthesis implantation and to assess tibio-femoral joint kinematics. In this context, the patella is still disregarded or limitedly considered, whereas it is still debated if the patella should be resurfaced in total knee replacement. Recently, new navigation-based procedures have been tested to allow the intra-operative monitoring of patellar-based data for more proper patellar resurfacing; at follow-up under active conditions, video-fluoroscopy, so far used to assess general tibio-femoral kinematics, offers the potentials for patellar motion tracking. The possibility in vivo to perform intra-operative evaluations of the patello-femoral joint data, i.e. including patellar bone morphology and motion, via computer assisted procedures during surgery would allow the surgeon to have a more complete comprehension of the knee functioning in patients undergoing total knee replacement; these procedures, along with derived data, can act as a support in for the most critical surgical actions in terms of femoral/tibial prosthesis component implantation and related patellar resurfacing. Furthermore, at post-operative follow-ups via fluoroscopic acquisitions and gait analysis, it is possible to evaluate how the implant is able to recover, or not, the normative physiological motion at both tibio-femoral and patello-femoral joint. The goal of this study is to validate a new technique for intra-operative quantification of the patello-femoral joint kinematics in patients undergoing total knee replacement, and for postoperative quantification of implanted knee and general lower limb activity, along with relevant muscle dynamics.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
20
Primary knee gonarthrosis treated with navigated total knee replacement and computer-assisted patellar replacement.
Istituto Ortopedico Rizzoli
Bologna, Italy
Knee prosthesis rotational alignment
Rotational (in deg) positioning of femur, tibia and patella prosthesis components.
Time frame: At time of surgery
Knee prosthesis translational alignment
Translational (in mm) positioning of femur, tibia and patella prosthesis components.
Time frame: At time of surgery
Intra-operative knee joint rotations
Assessed rotations (in deg): tibio-femoral flexion-extension, ad-abduction and internal-external rotation; patello-femoral flexion-extension, medio-lateral rotation and tilt.
Time frame: At time of surgery
Intra-operative knee joint translations
Assessed translations (in mm): tibio-femoral and patello-femoral anterio-posterior, medial-lateral and proximal-distal translations.
Time frame: At time of surgery
Post-operative knee joint rotations
Assessed rotations (in deg): tibio-femoral flexion-extension, ad-abduction and internal-external rotation; patello-femoral flexion-extension, medio-lateral rotation and tilt.
Time frame: 24 months
Post-operative knee joint translations
Assessed translations (in mm): tibio-femoral and patello-femoral anterio-posterior, medial-lateral and proximal-distal translations.
Time frame: 24 months
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