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Dave's PCF WIP: Paragraphs
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Delete 		OPT-13 One general aspect of the present disclosure can include a method for adapting kinematics of a knee joint having a condition. The method includes determining that the knee joint has the condition; implanting a femoral component on the femur, the femoral component may include a femoral articulation surface; implanting a tibial baseplate component on the tibia, the tibial baseplate component may include an insert interface; based on the condition, selecting a tibial insert configured for the second side, the tibial insert may include a baseplate interface attachable to the insert interface of the tibial baseplate component, the tibial insert may include a tibial articulation surface configured to articulate with the femoral articulation surface to adapt kinematics of the knee joint; and connecting the selected tibial insert to the tibial baseplate to adapt kinematics of the knee joint based on the condition. 13 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 FIG. 8 is a posterior cross-sectional view of the assembly of FIG. 1B, taken along line D-D in FIG. 7. 23 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 One general aspect of the present disclosure can include a knee joint prosthesis system for implantation in a knee joint of a patient. The knee joint prosthesis system may include a tibial baseplate component configured to be implanted on the tibia, the tibial baseplate component may include an insert interface; a femoral component configured to be implanted on the femur, the femoral component may include a femoral articulation surface; a right side tibial insert attachable to the insert interface of the tibial baseplate component, the right side tibial insert may include a tibial articulation surface configured to articulate with the femoral articulation surface and rotate the tibia about a longitudinal axis passing through a medial tibial compartment of the right side tibial insert during flexion or extension of a right side knee joint; a left side tibial insert attachable to the insert interface of the tibial baseplate component, the left side tibial insert may include a tibial articulation surface configured to articulate with the femoral articulation surface and rotate the tibia about the longitudinal axis passing through a medial tibial compartment of the left side tibial insert during flexion or extension of a left side knee joint; and the tibial articulation surface of the right side tibial insert may be shaped to cooperate with the femoral articulation surface to change kinematics of the knee joint having the condition if the knee joint is the left side knee joint; and the tibial articulation surface of the left side tibial insert is shaped to cooperate with the femoral articulation surface to change kinematics of the knee joint having the condition if the knee joint is the right side knee joint. 11 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 The femoral articulation surface may include a medial femoral compartment and a lateral femoral compartment and where the medial tibial compartment engages the lateral femoral compartment at a lateral dwell point during flexion and the lateral tibial compartment engages the medial femoral compartment at a medial dwell point during flexion. The lateral dwell point migrates anteriorly and outwardly and the medial dwell point migrates posteriorly and outwardly. In one embodiment, the medial femoral compartment and the lateral femoral compartment are symmetrical. The tibial insert may include one of a cruciate retaining tibial insert, a constrained condylar knee tibial insert, a posterior stabilizing tibial insert, and a medially-laterally asymmetric tibial insert and the condition may include one of a varus condition and a valgus condition. 10 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 The medial tibial compartment may include a medial perimeter, a medial high point, and a medial low point and where the lateral tibial compartment may include a lateral perimeter, a lateral high point, and a lateral low point. 9 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 The tibial articulation surface may facilitate tibiofemoral rotation within the lateral tibial compartment during flexion of the first knee joint where the condition is a valgus knee joint. The tibial articulation surface may adjust mediolateral stability during flexion of the first knee joint where the condition is a varus knee joint. The tibial articulation surface may increase constraint on a lateral collateral ligament of the first knee joint and decreases tension on a medial collateral ligament of the first knee joint. 8 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 Implementations may include one or more of the following features. The knee joint prosthesis system may include a femoral component that is configured for the first side and the tibial insert is configured for the second side of the patient. In certain embodiments, the first knee joint may be a right knee joint of the patient; the second knee joint may be a left knee joint of the patient; and the tibial insert may be configured for the left knee joint and attached to the insert interface of the tibial baseplate component of the right knee joint; and another tibial insert may be configured for the right knee joint. 7 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 One general aspect of the present disclosure can include a knee joint prosthesis system for implantation in a first knee joint of a patient. The knee joint prosthesis system may include a tibial baseplate component configured to be implanted on the tibia, the tibial baseplate component may include an insert interface; a femoral component configured to be implanted on the femur, the femoral component may include a femoral articulation surface; and a tibial insert that may include a baseplate interface attachable to the insert interface of the tibial baseplate component, the tibial insert may include a tibial articulation surface configured to articulate with the femoral articulation surface; where: the tibial articulation surface may include a medial tibial compartment and a lateral tibial compartment that is asymmetrical to the medial tibial compartment; the tibial articulation surface may be shaped to cooperate with the femoral articulation surface to adapt kinematics of the first knee joint having the condition; and the tibial articulation surface is suitable for implantation in a second knee joint on the second side, the second knee joint lacking the condition. 6 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 The various apparatus, devices, systems, and/or methods of the present disclosure have been developed in response to the present state of the art, and in particular, in response to the problems and needs in the art that have not yet been fully solved by currently available technology. 5 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 Accordingly, such patients need a knee prosthesis that facilitates tibiofemoral rotation during flexion of a patient's knee with a condition. Such patients may also need a knee prosthesis that increases mediolateral stability during flexion during flexion. The present disclosure addresses these needs. 4 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 A typical knee prosthesis system includes a tibial bone anchoring component, a tibial articulating component, which may be called a tibial insert, and a femoral bone anchoring component. Certain patients have experience different conditions in one knee or both knees that differ from accepted healthy knees. For example, one patient may present a right side knee that is in a varus condition while another patient may present with a right side knee in a valgus condition. Of course, other patients may present with a left knee or both knees in one or more of a varus and/or a valgus condition. For such patients, implanting a conventional knee prosthesis may result in a knee joint having constrained tibiofemoral rotation during flexion. Or, implanting a conventional knee prosthesis may result in a knee joint having less mediolateral stability during flexion. 3 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 FIG. 18 is another exploded rear view of the assembly of FIG. 17. 33 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 FIG. 24E is a medial view of the asymmetric tibial insert of FIG. 24A. 43 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 FIG. 24D is a lateral view of the asymmetric tibial insert of FIG. 24A. 42 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 FIG. 24C is an anterior view of the asymmetric tibial insert of FIG. 24A. 41 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 FIG. 24B is a posterior view of the asymmetric tibial insert of FIG. 24A. 40 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 FIG. 24A is a posterior exploded view of a knee prosthesis assembly with an asymmetric tibial insert. 39 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 FIG. 23A is a perspective front view of the femoral component of FIG. 14 coupled to one or more augments; FIG. 23B is a medial side view of the femoral component of FIG. 23A. 38 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 FIG. 22A is a perspective rear view of another tibial insert of the disclosure; FIG. 22B is a top view of the tibial insert of FIG. 22A; FIG. 22C is a bottom view of the tibial insert of FIG. 22A; FIG. 22D is a posterior view of the tibial insert of FIG. 22A; FIG. 22E is an anterior view of the tibial insert of FIG. 22A; FIG. 22F is a medial side view of the tibial insert of FIG. 22A. 37 Added by DJM 1 2022 1/25/22, 12:00 AM
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Delete 		OPT-13 FIG. 21A is a perspective rear view of another tibial insert of the disclosure; FIG. 21B is a top view of the tibial insert of FIG. 21A; FIG. 21C is a posterior view of the tibial insert of FIG. 21A; FIG. 21D is an anterior view of the tibial insert of FIG. 21A; FIG. 21E is a bottom view of the tibial insert of FIG. 21A. 36 Added by DJM 1 2022 1/25/22, 12:00 AM

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