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    • 4. 发明授权
    • Spinal fixation system
    • 脊柱固定系统
    • US08021398B2
    • 2011-09-20
    • US11461987
    • 2006-08-02
    • Patrick J. SweeneyMichael S. ButlerMichael J. Milella, Jr.
    • Patrick J. SweeneyMichael S. ButlerMichael J. Milella, Jr.
    • A61B17/70
    • A61B17/7037A61B17/7038A61B17/7041
    • According to one embodiment of the invention, a spinal fixation system includes a bone screw having a longitudinal access and a fixation rod configured to connect the bone screw to at least one additional bone screw. The fixation rod is lateral to the longitudinal axis. A coupling mechanism includes a bone screw securing device configured to secure the coupling mechanism to the bone screw and a fixation rod securing device configured to secure the coupling mechanism to the fixation rod. The spinal fixation system further includes a fastening mechanism. Rotation of the fastening mechanism secures the bone screw securing device to the bone screw and the fixation rod securing device to the fixation rod.
    • 根据本发明的一个实施例,脊柱固定系统包括具有纵向进入的骨螺钉和被配置为将骨螺钉连接到至少一个另外的骨螺钉的固定杆。 固定杆是纵向轴线的横向。 联接机构包括构造成将联接机构固定到骨螺钉上的骨螺钉固定装置和被配置为将联接机构固定到固定杆上的固定杆固定装置。 脊柱固定系统还包括紧固机构。 紧固机构的旋转将骨螺钉固定装置固定到骨螺钉和固定杆固定装置固定到固定杆上。
    • 5. 发明授权
    • Stenotic device
    • 狭窄装置
    • US08021394B2
    • 2011-09-20
    • US11801291
    • 2007-05-09
    • Michael S. ButlerMichael J. Milella, Jr.
    • Michael S. ButlerMichael J. Milella, Jr.
    • A61B17/70A61F2/44
    • A61B17/7062A61B17/70
    • A spinal implant is configured to be received between bony spinal protrusions of adjacent vertebrae particularly, but not necessarily, in the lumbar region of the spine and hold them apart. The spinal implant may be used interlaminar, interbody or interbony protrusion. The present bony spinal protrusion spacer is not fixed to any bony structures of the vertebrae and, as such, use of the present bony spinal protrusion spacer does not result in fusion. It may therefore be removed if necessary. Attachment structures formed as part of the bony spinal protrusion spacer receive and engage portions of adjacent bony protrusions. The attachment structures provide one or more ridges, bumps, protrusions, projections, lips, flanges, overhangs, overhangs that are threadably engaged, extensions and/or the like that form one or more pockets or cavities into which portions of adjacent bony spinal protrusions are separately lodged and held. In this manner (via retention of the bony spinal protrusions), appropriate and/or desired spacing between adjacent vertebrae is maintained. As such, the present bony spinal protrusion spacer is designed to remain safely and permanently in place without attaching to the bone or ligaments of the back.
    • 脊柱植入物构造成被接收在相邻椎骨的骨脊柱突起之间,特别地但不一定在脊柱的腰部区域中,并将它们分开。 脊椎植入物可以用于层间,体间或椎间突出。 本发明的骨脊柱突出间隔物不固定到椎骨的任何骨结构,因此使用本发明的骨脊柱突出间隔物不会导致融合。 因此如果需要,可以将其移除。 形成为骨脊突起间隔部分的附接结构接收并接合相邻骨突起的部分。 连接结构提供形成一个或多个凹穴或空腔的一个或多个凸起,凸起,突起,突出部,唇缘,凸缘,突出部,突出部分,其可螺纹接合,延伸部和/或类似物,相邻骨脊柱突出部分的部分 分别提出并举行。 以这种方式(通过保留骨脊柱突起),维持相邻椎骨之间的适当和/或期望的间隔。 因此,本发明的骨脊柱突出间隔物被设计成保持安全和永久地就位,而不附着到背部的骨骼或韧带上。
    • 8. 发明授权
    • Multi-axial spinal cross-connectors
    • 多轴脊柱交叉连接器
    • US08721689B2
    • 2014-05-13
    • US11906804
    • 2007-10-04
    • Michael S. ButlerMichael J. Milella, Jr.Kara A. Bucci
    • Michael S. ButlerMichael J. Milella, Jr.Kara A. Bucci
    • A61B17/70
    • A61B17/7052
    • A multi-axial spinal cross-connector is configured for connection between spinal fixation devices such as spinal fixation rods. The cross-connector has first and second connection members that are joinable at a fixable pivot junction. The pivot junction allows the connection members to assume various positions relative to one another. A clamp is provided on each end of the first and second connection members whose open and closed states are controlled by fixation of a pivot structure which also fixates the positions of the first and second connection members relative to each other. The cross-connector provides single and/or multi-step locking of both end clamps at the pivot joint. The cross-connector also provides easy in situ sizing, positioning and adjustability.
    • 多轴向脊柱交叉连接器构造成用于在诸如脊柱固定杆的脊柱固定装置之间连接。 交叉连接器具有第一和第二连接构件,其可连接在可固定的枢转接合处。 枢转连接点允许连接构件相对于彼此呈现各种位置。 在第一和第二连接构件的每个端部设置有夹子,其开口和闭合状态通过枢轴结构的固定来控制,枢轴结构也固定第一和第二连接构件相对于彼此的位置。 交叉连接器在枢轴接头处提供两端夹具的单和/或多步锁定。 交叉连接器还提供容易的原位尺寸,定位和可调性。
    • 9. 发明授权
    • Pedicle screw constructs and spinal rod attachment assemblies
    • 椎弓根螺钉构造和脊柱杆附件组件
    • US08663287B2
    • 2014-03-04
    • US11651721
    • 2007-01-10
    • Michael S. ButlerMichael J. Milella, Jr.
    • Michael S. ButlerMichael J. Milella, Jr.
    • A61B17/70
    • A61B17/7037A61B17/7038A61B17/7041
    • Spine fixation constructs are configured to receive and retain a spinal rod onto a vertebral bone screw. The spine fixation constructs provide for 360° rotation about a bone screw and variable axial placement about the bone screw. In one form, a rod holder of the spine fixation construct is configured to be axially received onto the bone screw. Axial positioning of the rod holder on the bone screw is fixed through cooperation of the rod holder with a fixation component. The fixation component is axially received onto the bone screw. Retention of the spinal rod by the spinal rod holder is also provided via the fixation member. In one form, spinal rod retention is provided upon axial retention of the spinal rod holder onto the bone screw through cooperating action between the fixation mechanism and the spinal rod holder. According to an embodiment, a member of the rod holder is caused to pivot and capture the spinal rod upon receipt of the fixation member onto the bone screw and rod holder. According to another embodiment, pivoting motion of a pawl of the rod holder by the fixation member not only locks the spinal rod but skews the pawl relative to the bone screw to wedge the axial placement of the pawl and thus the rod holder relative to the bone screw.
    • 脊柱固定结构构造成将脊柱杆接纳并保持在椎骨螺钉上。 脊柱固定结构围绕骨螺钉提供360°旋转,并围绕骨螺钉可变轴向放置。 在一种形式中,脊柱固定构造的杆保持器构造成轴向地容纳在骨螺钉上。 杆支架在骨螺钉上的轴向定位通过杆保持器与固定部件的协作来固定。 固定部件被轴向地接收到骨螺钉上。 还通过固定构件来提供由脊柱杆保持器支撑的脊柱杆。 在一种形式中,通过在固定机构和脊柱杆保持器之间的配合作用将脊柱杆保持器轴向保持在骨螺钉上,提供了脊柱杆保持。 根据实施例,当将固定构件接收到骨螺钉和杆保持器上时,杆保持器的构件被枢转并捕获脊柱杆。 根据另一个实施例,通过固定构件的杆保持器的棘爪的枢转运动不仅锁定脊柱杆,而且相对于骨螺钉偏转棘爪,以楔住棘爪的轴向放置,并且因此使杆保持器相对于骨骼 拧。