Patent ID: 11938030
Assignee: nan
Field: Medical technology (Instruments)
Classification: CPC A  G | IPC A  G

Claim 16:
17. The system of claim 1, wherein the joint is a knee joint and wherein the at least one processor is configured to use the artificial neural network to fit, align, or fit and align the virtual implant component in relationship to at least a peripheral margin, a bone edge, a dimension, a plane, a shape, a radius, a convexity, a concavity, or a surface of at least one of a medial wall of the femoral notch, a lateral wall of the femoral notch, a roof of the femoral notch, a residual ACL origin, a residual ACL insertion, a medial wall of the medial condyle, a lateral wall of the lateral condyle, a medial epicondylar eminence, a lateral epicondylar eminence, a medial femoral condyle, a lateral femoral condyle, a posterior portion of medial femoral condyle, a posterior portion of lateral femoral condyle, a central portion of medial femoral condyle, a central portion of lateral femoral condyle, an anterior portion of medial femoral condyle, an anterior portion of lateral femoral condyle, an intercondylar notch, an intercondylar notch surface, an intercondylar notch ceiling, an intercondylar notch medial wall, an intercondylar notch lateral wall, a posterior portion of medial tibial plateau, a posterior portion of lateral tibial plateau, a central portion of a medial tibial plateau, a central portion of a lateral tibial plateau, an anterior portion of medial tibial plateau, an anterior portion of lateral tibial plateau, a medial tibial spine, a lateral tibial spine, an anteromedial tibial rim, an anterolateral tibial rim, a medial tibial rim, a lateral tibial rim, a lowest point of the medial plateau, a lowest point of the lateral plateau, a highest point of the medial plateau, a highest point of the lateral plateau, an uncut medial tibial plateau surface, an uncut lateral tibial plateau surface, a cut medial tibial plateau surface, a cut lateral tibial plateau surface, an uncut femoral condyle surface, a cut femoral condyle surface, an uncut anterior femur surface, a cut anterior femur surface, a transepicondylar axis, a Whiteside's line, an anterior cortex, a tibial slope, a medial joint line, a lateral joint line or a combination thereof, or wherein the joint is a hip joint and wherein the at least one processor is configured to use the artificial neural network to fit, align, or fit and align the virtual implant component in relationship to at least a peripheral margin, a bone edge, a dimension, a plane, a shape, a radius, a convexity, a concavity or a surface of at least one of a portion of or an entire acetabulum, a portion of or an entire edge of an acetabulum, multiple portions of an edge of an acetabulum, a portion of an iliac wall, a portion of a pubic bone, a portion of an ischial bone, an anterior superior iliac spine, an anterior inferior iliac spine, a symphysis pubis, a portion of or an entire greater trochanter, a portion of or an entire lesser trochanter, a portion of or an entire femoral shaft, a portion of or an entire femoral neck, a portion of or an entire femoral head, a fovea capitis, a transverse acetabular ligament, a pulvinar, a ligamentum teres, a labrum, one or more osteophytes, a femoral neck angle, a femoral shaft angle, an acetabular angle, an inclination, an acetabular anteversion, a femoral anteversion, a femoral shaft angle, a pelvic tilt, a pelvic plane, a femoral offset, a Shenton's line, a Hilgenreiner line, a Perkin line, an acetabular index, a femoral resection plane, an acetabular resection plane, an uncut femoral surface, a cut femoral bone surface, or a combination thereof, or wherein the joint is a shoulder joint and wherein the at least one processor is configured to use the artificial neural network to fit, align, or fit and align the virtual implant component in relationship to a peripheral margin, a bone edge, a dimension, a plane, a shape, a radius, a convexity, a concavity, or a surface of at least one of a portion of or an entire glenoid, a portion of or an entire coracoid process, a portion of or an entire acromion, a portion of a clavicle, a portion of or an entire humeral head, a portion of or an entire humeral neck, a portion of a humeral shaft, one or more humeral osteophytes, one or more glenoid osteophytes, a portion of or an entire glenoid labrum, a portion of or an entire shoulder ligament, a portion of a shoulder capsule, a humeral neck angle, a humeral shaft angle, a glenoid angle, a glenoid inclination, a glenoid anteversion, a humeral anteversion, a humeral shaft angle, a humeral offset, a humeral resection plane, a glenoid resection plane, an uncut humeral surface, a cut humeral bone surface, or a combination thereof, or wherein the joint is an ankle joint and wherein the at least one processor is configured to use the artificial neural network to fit, align, or fit and align the virtual implant component in relationship to at least a peripheral margin, a bone edge, a dimension, a plane, a shape, a radius, a convexity, a concavity or a surface of at least one of a portion of or an entire distal tibia, a portion of or an entire distal fibular, a portion of or an entire talus, one or more tibial or fibular osteophytes, one or more talar osteophytes, a portion of or an entire ankle ligament, a portion of an ankle joint capsule, a tibial angle, a fibular angle, a talar angle, a tibial resection plane, a talar resection plane, an uncut tibial surface, an uncut talar surface, a cut tibial bone surface, a cut talar bone surface, or a combination thereof.