Outcome
Type |
Measure |
Description |
Time frame |
Safety issue |
Primary |
Knee flexion angle during swing |
Compare maximum knee flexion angle in degrees during swing between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Primary |
Knee flexion angle during swing |
Compare maximum knee flexion angle in degrees during swing between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Primary |
Knee flexion angle during swing |
Compare maximum knee flexion angle in degrees during swing between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Primary |
Knee flexion angle during stance |
Compare maximum knee flexion angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
pre-op |
|
Primary |
Knee flexion angle during stance |
Compare maximum knee flexion angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Primary |
Knee flexion angle during stance |
Compare maximum knee flexion angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Primary |
Knee adduction angle during stance |
Compare maximum knee adduction angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
pre-op |
|
Primary |
Knee adduction angle during stance |
Compare maximum knee adduction angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Primary |
Knee adduction angle during stance |
Compare maximum knee adduction angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement.knee replacement (DJO Empowr) and single-radius (Triathlon, Stryker) and multi-radius (Vanguard, Zimmer Biomet) knee replacements. |
12 months post-op |
|
Primary |
Knee flexion moment |
Compare maximum knee flexion moment normalised to subject body weight (N-m/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
pre-op |
|
Primary |
Knee flexion moment |
Compare maximum knee flexion moment normalised to subject body weight (N-m/kg) during stance between between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Primary |
Knee flexion moment |
Compare maximum knee flexion moment normalised to subject body weight (N-m/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Primary |
Knee adduction moment |
Compare maximum knee adduction moment normalised to subject body weight (N-m/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Primary |
Knee adduction moment |
Compare maximum knee adduction moment normalised to subject body weight (N-m/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), oe a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Primary |
Knee adduction moment |
Compare maximum knee adduction moment normalised to subject body weight (N-m/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Primary |
Knee power |
Compare maximum knee power in the sagittal plane normalised to subject body weight (W/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Primary |
Knee power |
Compare maximum knee power in the sagittal plane normalised to subject body weight (W/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 month post-op |
|
Primary |
Knee power |
Compare maximum knee power in the sagittal plane normalised to subject body weight (W/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 month post-op |
|
Primary |
Vertical GRF |
Compare maximum vertical ground reaction force normalised to subject body weight (unitless) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
pre-op |
|
Primary |
Vertical GRF |
Compare maximum vertical ground reaction force normalised to subject body weight (unitless) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Primary |
Vertical GRF |
Compare maximum vertical ground reaction force normalised to subject body weight (unitless) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 month post-op |
|
Primary |
AP GRF |
Compare maximum anterior-posterior ground reaction force normalised to subject body weight (unitless) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Primary |
AP GRF |
Compare maximum anterior-posterior ground reaction force normalised to subject body weight (unitless) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Primary |
AP GRF |
Compare maximum anterior-posterior ground reaction force normalised to subject body weight (unitless) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Primary |
ML GRF |
Compare maximum medial-lateral ground reaction force normalised to subject body weight (unitless) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
pre-op |
|
Primary |
ML GRF |
Compare maximum anterior-posterior ground reaction force normalised to subject body weight (unitless) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Primary |
ML GRF |
Compare maximum anterior-posterior ground reaction force normalised to subject body weight (unitless) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Secondary |
Ankle dorsiflexion angle during swing |
Compare maximum ankle dorsiflexion angle in degrees during swing between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Secondary |
Ankle dorsiflexion angle during swing |
Compare maximum ankle dorsiflexion angle in degrees during swing between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Secondary |
Ankle dorsiflexion angle during swing |
Compare maximum ankle dorsiflexion angle in degrees during swing between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Secondary |
Ankle plantarflexion angle during stance |
Compare maximum ankle plantarflexion angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
pre-op |
|
Secondary |
Ankle plantarflexion angle during stance |
Compare maximum ankle plantarflexion angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Secondary |
Ankle plantarflexion angle during stance |
Compare maximum ankle plantarflexion angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Secondary |
Ankle plantarflexion moment during stance |
Compare maximum ankle plantarflexion moment normalised to subject body weight (N-m/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
pre-op |
|
Secondary |
Ankle plantarflexion moment during stance |
Compare maximum ankle plantarflexion moment normalised to subject body weight (N-m/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Secondary |
Ankle plantarflexion moment during stance |
Compare maximum ankle plantarflexion moment normalised to subject body weight (N-m/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Secondary |
Ankle power |
Compare maximum ankle power in the sagittal plane normalised to subject body weight (W/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Secondary |
Ankle power |
Compare maximum ankle power in the sagittal plane normalised to subject body weight (W/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Secondary |
Ankle power |
Compare maximum ankle power in the sagittal plane normalised to subject body weight (W/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Secondary |
Hip flexion maximum during swing |
Compare hip flexion angle in degrees during swing between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Secondary |
Hip flexion during swing |
Compare maximum hip flexion angle in degrees during swing between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Secondary |
Hip flexion during swing |
Compare maximum hip flexion angle in degrees during swing between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Secondary |
Hip extension during stance |
Compare maximum hip extension angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Secondary |
Hip extension during stance |
Compare maximum hip extension angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
6 months post-op |
|
Secondary |
Hip extension during stance |
Compare maximum hip extension angle in degrees during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Secondary |
Hip flexion moment during stance |
Compare maximum hip flexion moment normalised to subject body weight (N-m/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Secondary |
Hip flexion moment during stance |
Compare maximum hip flexion moment normalised to subject body weight (N-m/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Secondary |
Hip flexion moment during stance |
Compare maximum hip flexion moment normalised to subject body weight (N-m/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Secondary |
Hip power |
Compare maximum hip power in the sagittal plane normalised to subject body weight (W/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Secondary |
Hip power |
Compare maximum hip power in the sagittal plane normalised to subject body weight (W/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Secondary |
Hip power |
Compare maximum hip power in the sagittal plane normalised to subject body weight (W/kg) during stance between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Secondary |
KSS |
Compare Knee Society Score between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Secondary |
KSS |
Compare Knee Society Score between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Secondary |
KSS |
Compare Knee Society Score between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|
Secondary |
LEAS |
Compare Lower Extremity Activity Score between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
Pre-op |
|
Secondary |
LEAS |
Compare Lower Extremity Activity Score between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), or a single-radius (Triathlon, Stryker) knee replacement. |
6 months post-op |
|
Secondary |
LEAS |
Compare Lower Extremity Activity Score between healthy controls, and subjects with a dual pivot design total knee replacement (DJO Empowr), a single-radius (Triathlon, Stryker) knee replacement or a multi-radius (Vanguard, Zimmer Biomet) knee replacement. |
12 months post-op |
|