Recently, E.Motion-PS-Pro (B.Braun-Aesculap, Tuttlingen, Germany), a new mobile bearing knee system with a unique ball and socket post-cam mechanism was developed for use in total knee arthroplasty. This study aims to determine (1) whether the use of E.Motion-PS-Pro improves prosthesis fitness for the femur and tibia in terms of under- or over-hang incidence compared to an established successful prosthesis, Genesis II (Smith \& Nephew, Memphis, U.S.A.), (2) whether patients with this new prosthesis experience less pain and faster wound healing in early recovery phase, (3) whether patients with E.Motion-Pro reach functional plateaus faster than patients with Genesis II and the functional plateaus of patients with E.Motion-Pro are higher than those of patients with Genesis II.
Total knee arthroplasty (TKA) is a satisfactory treatment option for patients with advanced knee diseases that are intractable with other modalities in terms of pain relief, functional restoration, and deformity correction. Unfortunately, however, many patients have to go through a recovery period of several months during which they experience considerable pain and suffer from incompletely restored functions. In recent years, to improve the quality of life during early recovery period after TKA, great efforts have been made in multiple areas including the use of minimally invasive surgical technique, improved pain management protocols, and postoperative rehabilitation protocols. Nonetheless, this almost inevitable presence of painful and disabling recovery period is a major concern to patients scheduled for or considering TKA as a treatment option. Furthermore, this issue can become a more serious obstacle to very elderly patients who have to balance the benefits of remaining years with improved functions from replaced knees and the burden of recovery duration after TKA. In theory, the use of a better fitting prosthesis with sound kinematic performance can shorten the duration of recovery period and improve the quality of life by reducing pain and facilitating functional recovery. Better fitting prostheses allegedly less involve prosthesis overhang at femoral condylar level, which can cause impingement symptoms and at anterior flange area, which can cause patellofemoral symptoms. Prosthesis providing better kinematic performance such as natural motion and joint stability throughout motion arc can reduce pain and discomfort in early recovery period and shorten the duration of recovery period. Recently, E.Motion-PS-Pro (B.Braun-Aesculap, Tuttlingen, Germany), a new mobile bearing knee system with a unique ball and socket post-cam mechanism was developed. This new prosthesis was designed to achieve better prosthesis fitting, to minimize bone loss from box preparations for post-cam mechanism, to improve joint stability throughout motion arc, particularly in high flexion, and to reduce the risk for wear and fracture at the post by increasing contact area. If the intended design rationales work out well, this prosthesis shall reduce soft tissue impingement and provide better kinematic performances, which reduces pain and facilitates functional restoration. Therefore, the current investigators aim to determine (1) whether the use of E.Motion-PS-Pro improves prosthesis fitness for the femur and tibia in terms of under- or over-hang incidence compared to an established successful prosthesis, Genesis II (Smith \& Nephew, Memphis, U.S.A.), (2) whether patients with this new prosthesis experience less pain and faster wound healing in early recovery phase, (3) whether patients with E.Motion-Pro reach functional plateaus faster than patients with Genesis II and the functional plateaus of patients with E.Motion-Pro are higher than those of patients with Genesis II. The investigators hypothesize that (1) E.Motion-Pro reduces the incidence of prosthesis under- or over-hang, (2) patients with E.Motion-Pro experience less pain and faster wound healing in early recovery phase, and (3) patients with E.Motion-Pro reach functional plateau faster and the functional outcomes at 1 year are better in patients with E.Motion-Pro than those with Genesis II.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
300
patients will undergo total knee arthroplasty with e.motion PS Pro implant
patients will undergo total knee arthroplasty with Genesis II implant
Joint Reconstruction Center, Seoul National University Bundang Hospital
Seongnam-si, Gyeonggi-do, South Korea
RECRUITINGprosthesis fit
Component fitness will be evaluated by whether there is overhang (too wide or big) or underhang (too narrow or small) more than 2 mm at any of three sites: condyle, junction, and anterior flange
Time frame: from the start to end of surgery (expected average of 90 minutes)
pain level during gait at 3 months after surgery
Pain levels will be evaluated by asking how much pain patients feel during weight bearing gait at 3 months in 0-10 visual analog scale (0-no pain and 10-maximum pain)
Time frame: at 3 months after surgery
knee swelling (circumference measured at the knee) at 3 months
Knee swelling will be evaluated by measuring the leg circumference at the knee level (mid-patella), and the measured circumference will be compared with the preoperative circumference
Time frame: at 3 months after surgery
flexion contracture and maximum flexion at 3 months
Flexion contracture and further flexion will be measured by a single investigator using a 38-cm clinical goniometer with patients supine
Time frame: at 3 months after surgery
the new American Knee Society (AKS) score at 6 months
Patients will be evaluated at 6 months using the new scoring system of American Knee Society. The American Knee Society scoring system evaluates multiple aspects of outcomes: 1) Objective knee indicators (maximum points 80) - alignment (25), mediolateral (ML) stability (15), anteroposterior (AP) stability (10), range of motion (ROM) (30); 2) Knee score (maximum points 80) - symptoms (25), patient satisfaction (40), and expectation (15); 3) Function score (maximum points 100) - walking \& standing (30), standard activities (30), advanced activities (25), discretionary knee activities (15)
Time frame: at 6 months after surgery
whether balanced gaps were achieved
Balanced gap achievement will be called when flexion-extension and medio-lateral gaps are not beyond 2 mm difference
Time frame: from the start to end of surgery (expected average of 90 minutes)
tourniquet time
Tourniquet time will be measured as the duration in minutes from the point making skin incision to deflating tourniquet to check whether arterial bleeders are after implant fixation
Time frame: from the start to end of surgery (expected average of 90 minutes)
blood volume drained via a vacuum drainage in the subcutaneous tissue
blood volume drained via a vacuum drainage will be measured as the total amount drained from the end of surgery to removal of vacuum drainage in mL.
Time frame: from the end of surgery to removal of vacuum drainage (usually at 2 days after surgery)
hemoglobin drop on postoperative 2 and 5 days
hemoglobin drop on the 2nd and 5th postoperative days will be evaluated by subtracting hemoglobin level on the 2nd or 5th day from the preoperative level.
Time frame: at 2 and 5 days after surgery
pain level during motion arc exercise at 2 and 6 weeks
Pain levels during motion arc exercise will be evaluated at 2 and 6 weeks using 0-10 Visual Analogue Scale.
Time frame: at 2 and 6 weeks after surgery
knee swelling at 2 and 6 weeks
knee swelling will be evaluated at 2 and 6 weeks by noting the leg circumference at the mid-patella level
Time frame: at 2 and 6 weeks after surgery
need for walking aid at 6 weeks
Whether patients still need a walking aid (yes/no) will be noted at 6 weeks
Time frame: at 6 weeks after surgery
patient satisfaction with early recovery pattern at 3 months
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Patient satisfaction with early recovery pattern will be evaluated at 3 month using a 0-4 Likert scales (0-disappointed, 1-less satisfactory than expected, 2 - as expected, 3- more satisfactory than expected, 4 - extremely satisfactory)
Time frame: at 3months after surgery
flexion contracture and further flexion at 6 weeks, and 6, 12, 24 months
Motion arc will be evaluated in extension deficit (flexion contracture) and maximum flexion at 6 weeks, 6 months, 12 months, and 2 years
Time frame: at 6 weeks, and 6, 12, 24 months after surgery
patient satisfaction with replaced knees at 12 and 24 months
Patients will be evaluated for their satisfaction with replaced knees at 12 and 24 months after surgery with 0-4 Likert scale and 0-10 Visual analogue scale.
Time frame: at 12 and 24 months after surgery