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    • 4. 发明申请
    • PRE-OPERATIVELY PLANNED HUMERAL IMPLANT AND PLANNING METHOD
    • 预先规划好的人工种植体和规划方法
    • WO2017184792A1
    • 2017-10-26
    • PCT/US2017/028470
    • 2017-04-19
    • IMASCAP SASBALL, Robert
    • BALL, Robert
    • A61F2/40A61F2/30A61F2/46B29C67/00
    • Humeral prosthetic implants (100, 200, 300, 400), systems, kits and methods of forming the humeral prosthetic implants, systems and kits are disclosed. The humeral prosthetic implants include proximal cup portions (110, 210, 310, 410) and distal stem (140, 230, 330, 440) portions, wherein the proximal cup portion is joined to the distal stem portion at a desired offset and/or angle configured based on an analysis of the humeral diaphysis and/or metaphysis offset in a patient. The humeral prosthetic implants may also include an adapter (160, 250, 350, 460) configured to join the proximal cup component with the stem component, wherein the adapter is configured to join the stem component to the stemless cup at a desired offset and/or angle.
    • 公开了肱骨假体植入物(100,200,300,400),形成肱骨假体植入物,系统和套件的系统,套件和方法。 肱骨假体植入物包括近侧杯部分(110,210,310,410)和远侧杆(140,230,330,440)部分,其中近侧杯部分以期望的偏移量连接到远侧杆部分和/或 基于对患者中的肱骨干骨干和/或干骺端偏移的分析而配置的角度。 肱骨假体植入物还可以包括适配器(160,250,350,460),该适配器被构造成将近侧杯部件与杆部件连接,其中适配器构造成将杆部件以期望的偏移量连接到无杆杯并且/ 或角度。
    • 6. 发明申请
    • SHOULDER IMPLANTS
    • WO2019079104A3
    • 2019-04-25
    • PCT/US2018/055490
    • 2018-10-11
    • IMASCAP SASBALL, Robert J.
    • BALL, Robert J.SLONE, William J.
    • A61F2/40A61F2/46
    • An implant is disclosed that has a base member, an articulating member, and a coupling portion that secures the base member to the articulating member. The implant can be a shoulder implant (100, 200, 300) that has a baseplate (102, 230, 310), an articulating component (104, 210), and a fixation component (106, 270, 342). The baseplate includes a first side (110, 234, 314) with a projection (108, 240, 320) that has a first Morse taper and may be offset from a center line of the baseplate and a second side (116, 236, 316) that has a post or stem (114, 250, 330) that is offset from the center line of the baseplate. The articulating component includes a cavity (122, 220) with a second Morse taper that is offset from a center line of the articulating component. The articulating component is attachable to the baseplate when the projection is received in the cavity of the articulation component. A threaded through hole (130, 222) extends from the cavity of the articulating component to a second, convex side or articulating surface (120, 212) thereof. The through hole can be aligned with the cavity. The fixation component (106, 342) can engage the through hole and is contained within a cavity (132, 322, 242) of the baseplate by a spring (138, 262, 360) and a cap (140), a second fixation member (280), or an engagement member (370).
    • 8. 发明申请
    • SHOULDER IMPLANTS
    • WO2019079104A8
    • 2019-04-25
    • PCT/US2018/055490
    • 2018-10-11
    • IMASCAP SASBALL, Robert J.
    • BALL, Robert J.SLONE, William J.
    • A61F2/40A61F2/46
    • An implant is disclosed that has a base member, an articulating member, and a coupling portion that secures the base member to the articulating member. The implant can be a shoulder implant (100, 200, 300) that has a baseplate (102, 230, 310), an articulating component (104, 210), and a fixation component (106, 270, 342). The baseplate includes a first side (110, 234, 314) with a projection (108, 240, 320) that has a first Morse taper and may be offset from a center line of the baseplate and a second side (116, 236, 316) that has a post or stem (1 14, 250, 330) that is offset from the center line of the baseplate. The articulating component includes a cavity (122, 220) with a second Morse taper that is offset from a center line of the articulating component. The articulating component is attachable to the baseplate when the projection is received in the cavity of the articulation component. A threaded through hole (130, 222) extends from the cavity of the articulating component to a second, convex side or articulating surface (120, 212) thereof. The through hole can be aligned with the cavity. The fixation component (106, 270, 342) can engage the through hole and is contained within a cavity (132, 322, 242) of the baseplate by a spring (138, 262, 360) and a cap (140), a second fixation member (280), or an engagement member (370).