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    • 5. 发明授权
    • Systems, devices, and methods for mechanically reducing and fixing bone fractures
    • 用于机械还原和固定骨折的系统,装置和方法
    • US08690808B2
    • 2014-04-08
    • US13051774
    • 2011-03-18
    • Mark A. ReileyJames C. ColinMattew ThompsonKurt Vedder
    • Mark A. ReileyJames C. ColinMattew ThompsonKurt Vedder
    • A61F5/00
    • A61B17/1739A61B17/1782A61B17/848A61F5/04
    • A fracture reduction is mechanically achieved by supporting a body region having the bone fracture on a frame. A first reduction mechanism on the frame is operated to apply to the bone fracture a first predefined force reduction vector that returns the bone fracture to a corrective alignment in a first anatomic orientation, while also mechanically maintaining the corrective alignment in the first anatomic orientation. Independently, a second reduction mechanism on the frame is operated to apply a second predefined force reduction vector that returns the bone fracture to a corrective alignment in a second anatomic orientation different than the first anatomic orientation without altering the corrective alignment in the first anatomic orientation, while mechanically maintaining the corrective alignment in the second anatomic orientation. The fracture reduction is mechanically fixed by mechanically guiding the placement at least one bone fixing device into the reduced bone fracture.
    • 通过在框架上支撑具有骨折的身体区域来机械地实现骨折减少。 操作框架上的第一减速机构用于将骨折应用于将第一解剖方向上的骨折返回至校正对准的第一预定力减小矢量,同时还机械地保持第一解剖方向上的校正对准。 独立地,操作框架上的第二减速机构以施加第二预定义力减小矢量,该第二预定义力减小矢量将骨骨折返回至不同于第一解剖方向的第二解剖方向的校正对准,而不改变第一解剖方位的校正对准, 同时在第二解剖学方向机械地保持校正对准。 通过将至少一个骨固定装置的放置机械地引导至减少的骨折中来机械固定骨折复位。
    • 8. 发明申请
    • Systems, Devices, and Methods for Mechanically Reducing and Fixing Bone Fractures
    • 用于机械降低和固定骨折的系统,设备和方法
    • US20120071802A1
    • 2012-03-22
    • US13051774
    • 2011-03-18
    • Mark A. ReileyJames C. ColinMattew ThompsonKurt Vedder
    • Mark A. ReileyJames C. ColinMattew ThompsonKurt Vedder
    • A61B17/66A61F5/01A61B17/90
    • A61B17/1739A61B17/1782A61B17/848A61F5/04
    • A fracture reduction is mechanically achieved by supporting a body region having the bone fracture on a frame. A first reduction mechanism on the frame is operated to apply to the bone fracture a first predefined force reduction vector that returns the bone fracture to a corrective alignment in a first anatomic orientation, while also mechanically maintaining the corrective alignment in the first anatomic orientation. Independently, a second reduction mechanism on the frame is operated to apply a second predefined force reduction vector that returns the bone fracture to a corrective alignment in a second anatomic orientation different than the first anatomic orientation without altering the corrective alignment in the first anatomic orientation, while mechanically maintaining the corrective alignment in the second anatomic orientation. The fracture reduction is mechanically fixed by mechanically guiding the placement at least one bone fixing device into the reduced bone fracture.
    • 通过在框架上支撑具有骨折的身体区域来机械地实现骨折减少。 操作框架上的第一减速机构用于将骨折应用于将第一解剖方向上的骨折返回至校正对准的第一预定力减小矢量,同时还机械地保持第一解剖方向上的校正对准。 独立地,操作框架上的第二减速机构以施加第二预定义力减小矢量,该第二预定义力减小矢量将骨骨折返回至不同于第一解剖方向的第二解剖方向的校正对准,而不改变第一解剖方位的校正对准, 同时在第二解剖学方向机械地保持校正对准。 通过将至少一个骨固定装置的放置机械地引导至减少的骨折中来机械固定骨折复位。
    • 9. 发明申请
    • SYSTEMS, DEVICES, AND METHODS FOR MECHANICALLY REDUCING AND FIXING BONE FRACTURES
    • 用于机械减少和固定骨折的系统,设备和方法
    • US20120303030A1
    • 2012-11-29
    • US13292707
    • 2011-11-09
    • Mark A. ReileyKurt Vedder
    • Mark A. ReileyKurt Vedder
    • A61B17/66A61B17/88
    • A61B17/1739A61B17/848A61F5/04A61F5/05841
    • An array of mechanical force reduction assemblies sized and configured to independently mechanically manipulate a fractured bone region. Each assembly functions independently of the other assemblies, to apply and maintain one of the prescribed mechanical reduction forces to the fracture, to thereby mechanically reduce the fracture in a desired way. A carrier coupled to the assembly accommodates temporary attachment of an orthotic brace, residing thereon, partially or fully assembled in a region of the bone fracture. A linkage mechanism accommodates the rotational articulation of the brace in response to the application of one or more mechanical force vectors, to move the bone fracture into a desired anatomic orientation. A locking mechanism maintains the orientation of the brace to maintain the desired anatomic orientation. After release from the carrier, the brace serves in an ambulatory fashion to maintain the desired anatomic orientation after reduction and as healing occurs.
    • 一组机械力减小组件,其大小和构造以独立地机械地操纵骨折骨区域。 每个组件独立于其它组件起作用以将规定的机械还原力中的一个施加并保持到断裂中,从而以期望的方式机械地减少断裂。 联接到组件的载体容纳临时附接的矫形支架,其位于其上,部分或完全组装在骨折的区域中。 连杆机构响应于一个或多个机械力矢量的应用来适应支架的旋转关节运动,以将骨折移动到期望的解剖方向。 锁定机构保持支架的取向以保持所需的解剖方向。 在从载体释放后,支架以移动方式起作用,以便在还原之后保持所需的解剖学取向​​并且发生愈合。