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    • 1. 发明授权
    • Device for linking adjacent rods in spinal instrumentation
    • 用于连接脊柱器械中的相邻杆的装置
    • US06402751B1
    • 2002-06-11
    • US09613406
    • 2000-07-11
    • James Van HoeckDenis S. DrummondDavid L. BrumfieldM. Neil AndersonMichael C. Sherman
    • James Van HoeckDenis S. DrummondDavid L. BrumfieldM. Neil AndersonMichael C. Sherman
    • A61B1758
    • A61B17/7052A61B17/7049
    • One embodiment of a spinal fixation system 10 including a pair of longitudinal members 11, 12 positionable adjacent the spine, means for engaging longitudinal members to the spine 13, 14, a pair of wedge members 16 each having a bearing surface 38 configured to bear on a longitudinal member 11, 12, and a connector 20 configured to span a distance between the longitudinal members 11, 12. The connector 20 includes a pair of engaging members 25, 26 each having a fixation surface 33 and a connecting surface 30, and a bridge member 21 attached to the connecting surfaces 30. The engaging members 25, 26 each define a thru-hole 35 for receiving one of the wedge members 16. The thru-holes 35 are aligned so that wherein one of the wedge members 16 is advanced through the thru-hole 35, the bearing surface 38 will bear on a corresponding longitudinal member 11, 12 to force the longitudinal member 11, 12 into contact with the fixation surface 33 and engage the longitudinal member 11, 12 to the connector 20.
    • 脊柱固定系统10的一个实施例,其包括可邻近脊柱定位的一对纵向构件11,12,用于将纵向构件接合到脊柱13,14的一对楔形构件16,每个楔形构件16具有构造成承受 纵向构件11,12和连接器20构造成跨越纵向构件11,12之间的距离。连接器20包括一对接合构件25,26,每个接合构件具有固定表面33和连接表面30,并且 桥接构件21附接到连接表面30.接合构件25,26各自限定用于容纳楔形构件16中的一个的通孔35.通孔35对准,使得楔形构件16中的一个前进 通过通孔35,支承表面38将承载在相应的纵向构件11,12上,以迫使纵向构件11,12与固定表面33接触,并将纵向构件11,12与接头 演员20。
    • 2. 发明授权
    • Device for linking adjacent rods in spinal instrumentation
    • 用于连接脊柱器械中的相邻杆的装置
    • US06113600A
    • 2000-09-05
    • US946955
    • 1997-10-08
    • Denis S. DrummondJames Van HoeckDavid L. BrumfieldM. Neil AndersonMichael C. Sherman
    • Denis S. DrummondJames Van HoeckDavid L. BrumfieldM. Neil AndersonMichael C. Sherman
    • A61B17/58A61B17/70
    • A61B17/7052A61B17/7049
    • The embodiment of a spinal fixation system 10 including a pair of longitudinal members 11, 12 positionable adjacent the spine, engaging member for engaging longitudinal members to the spine 13, 14, a pair of wedge members 16 each having a bearing surface 38 configured to bear on a longitudinal member 11, 12, and a connector 20 configured to span a distance between the longitudinal members 11, 12. The connector 20 includes a pair of engaging members 25, 26 each having a fixation surface 33 and a connecting surface 30, and a bridge member 21 attached to the connecting surfaces 30. The engaging members 25, 26 each define a thru-hole 35 for receiving one of the wedge members 16. The thru-holes 35 are aligned so that when one of the wedge members 16 is advanced through the thru-hole 35, the bearing surface 38 will bear on a corresponding longitudinal member 11, 12 to force the longitudinal member 11, 12 into contact with the fixation surface 33 and engage the longitudinal member 11, 12 to the connector 20.
    • 脊柱固定系统10的实施例包括一对可邻近脊柱定位的纵向构件11,12,用于将纵向构件接合到脊13,14的接合构件,一对楔形构件16,每个楔形构件具有构造成承载的支承面38 在纵向构件11,12和连接器20上构造成跨过纵向构件11,12之间的距离。连接器20包括一对接合构件25,26,每个具有固定表面33和连接表面30,并且 连接到连接表面30的桥构件21.接合构件25,26各自限定用于容纳楔形构件16中的一个的通孔35.通孔35对准,使得当楔形构件16中的一个楔形构件 通过通孔35前进,支承表面38将承载在相应的纵向构件11,12上,以迫使纵向构件11,12与固定表面33接触并且将纵向构件11,12接合到t 他连接器20。
    • 3. 发明授权
    • Device for linking adjacent rods in spinal instrumentation
    • 用于连接脊柱器械中的相邻杆的装置
    • US6136003A
    • 2000-10-24
    • US495977
    • 2000-02-02
    • James Van HoeckDenis S. DrummondDavid L. BrumfieldM. Neil AndersonMichael C. Sherman
    • James Van HoeckDenis S. DrummondDavid L. BrumfieldM. Neil AndersonMichael C. Sherman
    • A61B17/58A61B17/70
    • A61B17/7052A61B17/7049
    • One embodiment of a spinal fixation system 10 including a pair of longitudinal members 11, 12 positionable adjacent the spine, means for engaging longitudinal members to the spine 13, 14, a pair of wedge members 16 each having a bearing surface 38 configured to bear on a longitudinal member 11, 12, and a connector 20 configured to span a distance between the longitudinal members 11, 12. The connector 20 includes a pair of engaging members 25, 26 each having a fixation surface 33 and a connecting surface 30, and a bridge member 21 attached to the connecting surfaces 30. The engaging members 25, 26 each define a thru-hole 35 for receiving one of the wedge members 16. The thru-holes 35 are aligned so that when one of the wedge members 16 is advanced through the thru-hole 35, the bearing surface 38 will bear on a corresponding longitudinal member 11, 12 to force the longitudinal member 11, 12 into contact with the fixation surface 33 and engage the longitudinal member 11, 12 to the connector 20.
    • 脊柱固定系统10的一个实施例,其包括可邻近脊柱定位的一对纵向构件11,12,用于将纵向构件接合到脊柱13,14的一对楔形构件16,每个楔形构件16具有构造成承受 纵向构件11,12和连接器20构造成跨越纵向构件11,12之间的距离。连接器20包括一对接合构件25,26,每个接合构件具有固定表面33和连接表面30,并且 桥接构件21附接到连接表面30.接合构件25,26各自限定用于容纳楔形构件16中的一个的通孔35.通孔35对准,使得当楔形构件16中的一个前进时 通过通孔35,支承表面38将承载在相应的纵向构件11,12上,以迫使纵向构件11,12与固定表面33接触并且将纵向构件11,12接合到连接 或20。
    • 4. 发明授权
    • Device for linking adjacent rods in spinal instrumentation
    • 用于连接脊柱器械中的相邻杆的装置
    • US5947966A
    • 1999-09-07
    • US946954
    • 1997-10-08
    • Troy DrewryMichael C. ShermanJames E. Van HoeckDenis S. DrummondDavid L. BrumfieldM. Neil Anderson
    • Troy DrewryMichael C. ShermanJames E. Van HoeckDenis S. DrummondDavid L. BrumfieldM. Neil Anderson
    • A61B17/70A61B17/58
    • A61B17/7052
    • One embodiment of a spinal fixation system including a pair of longitudinal members 11, 12 positionable adjacent the spine, means for engaging longitudinal members to the spine 13, 14, a pair of wedge members 241 each having a bearing surface 242 configured to bear on a longitudinal member 11, 12, and a connector 200 configured to span a distance between the longitudinal members 11, 12. The connector 200 includes a pair of engaging members 205, 212 each having a fixation portion 207, 214 and a connecting portion 209, 216, and a bridge members 202 attachable to the connecting portions 209, 216. The engaging members 205, 212 each define a thru-hole 225 for receiving one of the wedge members 241. The thru-holes 225 are aligned so that when one of the wedge members 241 is advanced through the thru-hole 225, the bearing surface 242 will bear on a corresponding longitudinal member 11, 12 to force the longitudinal member 11, 12 into contact with the fixation surface 220, 221 and engage the longitudinal member 11, 12 to the connector 200. In a specific embodiment, the bridge member 200 defines a slot 203 and a fastener bore 227 having an axis D' intersecting the slot 203. In this embodiment, the second connecting portion 216 is insertable into the slot 203 to intersect the axis D' of the bone 227, whereby a fastener 230 received in the bore 227 will clamp the second connecting portion 216 to the bridge member 202.
    • 一种脊柱固定系统的一个实施例,其包括可邻近脊柱定位的一对纵向构件11,12,用于将纵向构件接合到脊柱13,14的一对楔形构件241,每个楔形构件241具有构造成承受 纵向构件11,12和连接器200构造成跨越纵向构件11,12之间的距离。连接器200包括一对接合构件205,212,各自具有固定部分207,214和连接部分209,216 以及可连接到连接部分209,261的桥构件202.接合构件205,212各自限定用于容纳楔形构件241中的一个的通孔225.通孔225对准,使得当 楔形构件241推进穿过通孔225,支承表面242将承载在相应的纵向构件11,12上,以迫使纵向构件11,12与固定表面220,221接触并接合lo 纵向构件11,12连接到连接器200.在具体实施例中,桥构件200限定狭槽203和具有与槽203相交的轴线D'的紧固件孔227.在该实施例中,第二连接部分216可插入 槽203与骨227的轴线D'相交,由此容纳在孔227中的紧固件230将夹紧第二连接部分216到桥构件202。
    • 5. 发明授权
    • Adjustable spinal tether
    • 可调脊柱系绳
    • US07367978B2
    • 2008-05-06
    • US10224305
    • 2002-08-20
    • Troy D. DrewryMichael C. ShermanDavid L. Brumfield
    • Troy D. DrewryMichael C. ShermanDavid L. Brumfield
    • A61B17/56
    • A61B17/82A61B17/7022A61B2017/00858
    • An improved apparatus is provided to allow for an adjustable length tether for use in the spine and other parts of the body. The tether comprises an artificial strand with an eyelet formed in one end, the other end being looped through the eyelet. The other end is then secured with respect to the eyelet by a crimp, the excess length being cut off after the length of the tether has been given an appropriate tension. Alternatively, the eyelet end may be formed around a grommet. The crimp may be separate from the grommet or a part of the grommet. The mechanism by which the length is adjusted in some cases will take advantage of the shape memory properties of alloys such as nickel-titanium.
    • 提供了一种改进的装置,以允许用于脊柱和身体的其它部分的可调节的长度系绳。 系绳包括在一端形成有孔眼的人造线,另一端环绕穿孔。 然后通过卷曲将另一端相对于孔眼固定,在系绳的长度已经被给予适当的张力之后,多余的长度被切断。 或者,孔眼端可以围绕索环形成。 卷曲可以与索环或索环的一部分分开。 在某些情况下调整长度的机制将利用镍钛等合金的形状记忆特性。