(19)
(11)EP 3 009 089 B1

(12)EUROPEAN PATENT SPECIFICATION

(45)Mention of the grant of the patent:
21.06.2017 Bulletin 2017/25

(21)Application number: 15187397.3

(22)Date of filing:  16.05.2008
(51)International Patent Classification (IPC): 
A61B 17/70(2006.01)

(54)

SYSTEM FOR DIRECT VERTEBRAL ROTATION

SYSTEM FÜR DIREKTE WIRBELROTATION

SYSTÈME DE ROTATION VERTÉBRALE DIRECTE


(84)Designated Contracting States:
AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MT NL NO PL PT RO SE SI SK TR

(30)Priority: 18.05.2007 US 930770 P

(43)Date of publication of application:
20.04.2016 Bulletin 2016/16

(62)Application number of the earlier application in accordance with Art. 76 EPC:
08767770.4 / 2152178

(73)Proprietor: Stryker European Holdings I, LLC
Kalamazoo, MI 49002 (US)

(72)Inventors:
  • CHOI, Andy Wonyong
    WAYNE, NJ 07470 (US)
  • SCHMITZ, Michael L.
    Roswell, GA 30076 (US)
  • SUK, Se-li
    139-707 Nowon-gu (KR)

(74)Representative: Regimbeau 
20, rue de Chazelles
75847 Paris Cedex 17
75847 Paris Cedex 17 (FR)


(56)References cited: : 
WO-A2-2006/096516
FR-A1- 2 757 761
US-A1- 2005 245 928
WO-A2-2006/104813
JP-A- H1 014 934
  
      
    Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


    Description

    CROSS-REFERENCE TO RELATED APPLICATION



    [0001] The present application claims the benefit of Application Serial No. 60/930,770, filed May 18, 2007, entitled Apparatus And Method For Direct Vertebral Rotation, the disclosure of which is hereby incorporated herein by reference.

    FIELD OF THE INVENTION



    [0002] The present invention relates generally to an alignment linkage such as a direct vertebral rotation instrument for creating, restraining and/or maintaining horizontal rotation of the vertebrae during posterior spinal fusion operations. The present invention also relates to a method for creating, restraining and/or maintaining horizontal rotation of the vertebrae during posterior spinal fusion operations.

    BRIEF DESCRIPTION OF THE PRIOR ART



    [0003] During spine surgery for conditions such as scoliosis, the surgeon seeks to achieve a three-dimensional correction of the spinal column shape by realigning and instrumenting the vertebrae in order to achieve an eventual fusion of the vertebral bodies in the desired alignment. Typically, the misalignment of the patient's vertebral bodies is readily apparent in the sagittal and coronal planes, either visually or by radiography. More difficult to see and correct is rotational misalignment of the vertebrae about the axis in the defined along the length of the spine. This rotation is often characterized in the scoliosis patient by projection of the ribs of the back creating a so-called rib hump on one side of the back caused by the rotation of the thoracic vertebrae and the attached ribs. While the axis of rotation actually changes along the length of the spine due to the spines natural curvature, for convenience of discussion the axis will be discussed as if it is a vertical line.

    [0004] In order to correct such a rotational misalignment, the surgeon must axially rotate the vertebrae in the opposite direction so that they are correctly oriented about the longitudinal axis of the spine. A corrective rotation of this type is often referred to as a "derotation."

    [0005] Direct vertebral rotation, hereinafter "DVR," is one method of horizontally rotating and re-aligning vertebral bodies. To use DVR, screws are implanted in the pedicles of the vertebrae and then a horizontal torque is applied by a lever arm or extension tube mounted to the screw head. As mentioned above, the indication is frequently scoliosis, but other deformity issues may be addressed through DVR. Tubular lever arms are then placed on the screws in line with the axis of the screw. A force is then applied to the lever arms to rotate the spinal vertebrae. This brings the vertebrae into the desired positions and in line with one another. The surgeon and the surgeon's assistants face the difficult task of manually rotating and aligning the various lever arms to eventually fasten the pedicle screw assemblies to rods and form a construct holding the vertebrae in the desired alignment.

    [0006] Polyaxial pedicle screw assemblies have, by way of example, a cage shaped to receive a bone screw, a rod and a blocker or set screw engaging screw threads. Generally, cages have two arms that extend away from the screw and define a slot through which the rod can pass transverse to the axis of the cage. Often, such cages are referred to as tulip-shaped. The cage can move polyaxially about the head of the bone screw until the assembly is fixed in a position. Once the rod is in place, the blocker is threaded within or on the outside of the cage. The blocker engages, directly or indirectly, the rod which in turn engages the head of the bone screw seated in the cage or engages the cage itself. The blocker thus locks or immobilizes the assembly.

    [0007] A monoaxial pedicle screw assembly generally includes a bone screw with an integral cage or head to receive the rod and blocker or nut.

    [0008] For DVR, the lever arms apply torque to the bone screw and the bone screw, in turn, applies the torque to the vertebrae. Either a polyaxial or monoaxial screw assembly may be used. The lever must fit tightly and grasp the screw head in order to apply the torque. If a polyaxial screw assembly is used, the head should be immobilized in the direction of axial rotation to allow the transmission of torque. A polyaxial screw also has a limited extent of free travel and can create torque on the vertebra once the range of movement of the head is exceeded.

    [0009] International Publication Number WO 2006/096516 discloses a system and method for manipulating vertebrae during a spinal surgical procedure. The system includes a plurality of shaft-like instruments for manipulating the vertebrae, each instrument being attachable to a bone anchor implanted in a vertebra, and the system includes a connector configured to connect two or more of the instruments together. The connector includes a first arm and a second arm pivotably connected together by a hinge, and the connector includes a plurality of receiving elements, some of which may be movable along the connector. The receiving elements have partially spherical inner surfaces that are configured to receive spherical connection elements on the instruments, in order to permit polyaxial motion of the instruments when received by the connector.

    SUMMARY OF THE INVENTION



    [0010] The present invention fills the need described above by providing a system for direct vertebral rotation as described in the appended claims.

    [0011] The Subject-matter of the invention is defined by claim 1. Further advantages are achieved by the embodiments indicated by the dependent claims.

    [0012] There is disclosed an instrument and associated method that aligns and holds the DVR lever arms relative to each other to achieve an initial axial alignment of a segment of vertebrae and allow the DVR rotation by rotating the instrument and lever arms together.

    [0013] Joining the lever arms or extension tubes with such a clamping instrument allows the surgeon to more uniformly and easily rotate the tubes together and to stepwise achieve a relative orientation of a segment of vertebrae. The segment of vertebra to be aligned can be aligned collectively relative to adjacent spinal segments.

    [0014] There is also disclosed a method of direct vertebral rotation, wherein the steps include attaching pedicle screws to at least two vertebrae to be aligned and attaching a lever to each of the pedicle screws. The levers are positioning between jaws of a direct vertebral rotation instrument and the jaws held in closed position. The jaws are brought together to rotate the vertebrae to be aligned relative to each other, and the vertebrae to be aligned are collectively rotated relative to adjacent spinal segments by rotating the direct vertebral rotation instrument.

    [0015] Furthermore, there is also disclosed a direct vertebral rotation instrument comprising a first jaw; a second jaw; a hinge connecting the first jaw and the second jaw; and a lock for locking the first jaw to the second jaw.

    [0016] The system for direct vertebral rotation has at least two pedicle screws. The system also includes at least two levers attachable to the pedicle screws and a clamping instrument configured to clamp the levers.

    [0017] The instrument has substantially parallel jaws to engage or clamp the lever arms in relative alignment for manipulation.

    [0018] The jaws of the instrument have a compliant material for interface with the lever arms in order to assist in gripping the lever arms and thus facilitate the effective adjustment of the longitudinal position of the lever arms.

    [0019] There is further disclosed a method of rotating vertebrae located within a patient's body about the spinal axis by: implanting a first pedicle screw on a first vertebra; implanting a second pedicle screw on a second vertebra; attaching a first moment arm and a second moment arm to the first screw and the second screw, respectively; locking the first moment arm and a second moment arm in a preliminary angular orientation with respect to the spinal axis by applying pressure using the opposing jaws of an instrument to align and restrain said moment arms; and rotating the instrument, arms and vertebra relative to the spinal axis.

    [0020] The present disclosure may be reduced to be practiced by a clamping instrument which includes elongate jaws having opposed interior faces and being hingeably or rotatably connected at one end or interior from one end, the jaws having an open position and a closed position, the open position facilitating the instrument to be arranged about a plurality of pedicle screw extension tubes or other lever arms associated with vertebra. The instrument in its closed position holds and initially aligns the lever arms on the interior faces of the jaws.

    [0021] The above-described instrument may include handles to facilitate at least the closing of the jaws. The handles may be in the central area of the jaws and extend transverse to the elongate axis of the jaws, or may be displaced towards or at one end of the jaws, or even as an extension generally in alignment with the elongate axis of the jaws, or a portion of the jaws themselves may serve as portions of handles.

    [0022] Furthermore, the jaws may be hingeably connected at one end or are located interiorly from one end and include a spring mechanism to hold the jaws in a normally open position. This normally open position facilitates arrangement of the jaws about the extension tubes or lever arms to be clamped within the jaws. The hinge may be integral with one or both jaws, or may be a separate element connected to the jaws.

    [0023] In one example, the closing mechanism is provided to hold the jaws in a closed position such that a surgeon or surgeon's assistant does not need to hold the handles together in order to maintain the instrument in a closed position. In one example, a closing mechanism may be a latching mechanism provided anywhere along the jaws, or even on the handles themselves. In another example, a latching mechanism is provided at the end of the jaws opposite the hinge mechanism, and comprises a pawl and ratchet arrangement which automatically latches the jaws as the jaws are closed. The latching mechanism may have an extension with a finger grip, which may simply be a surface designed to facilitate gripping of one's finger (knurling, raised gripping ribs, etc.). The finger gripping portion may extend laterally outside of one of the jaws such that a depression on that portion will release the pawl and ratchet mechanism.

    [0024] In another example, the interior faces of the jaws have a surface to facilitate gripping the extension tubes or lever arms. In another example, this may be a compliant material such as rubber. The coefficient of friction of such a material should facilitate the gripping of the lever arms,
    and the material may also include compliancy such that the lever arms are, upon undergoing a clamping force, forced into the material for gripping purposes. The compliance also allows the lever arms to be gripped at various angles and positions along the length of the jaws.

    [0025] In another example, a method includes the use of the above broadly-described instrument by surrounding a plurality of lever arms with a normally open instrument, positioning the instrument about the lever arms, closing the instrument such that the jaws clamp the lever arms, and manually applying a torque and otherwise manipulating the instrument in order to manipulate the lever arms and thus the vertebra to which the lever arms are connected, directly or indirectly. The clamping of the jaws may achieve an initial desired alignment of the lever arms and vertebrae and then the entire assembly of the lever arms and vertebrae may be further rotated to the final position. The method may also include the steps of fixing spinal rods or other fixation devices arranged with respect to the vertebra to maintain the vertebra in the aligned position, and subsequently releasing the clamping instrument and removing the same from the lever arms.

    BRIEF DESCRIPTION OF THE DRAWINGS



    [0026] 

    Figure 1 is a schematic right side view of four adjacent vertebrae of a spine, with pedicle screws and lever arms as used in DVR.

    Figure 2 is a plan view as in Figure 1 showing the lever arms and establishing a coordinate system relative to the human body.

    Figure 3 is a schematic right side view of four adjacent vertebrae of a spine, with pedicle screws, lever arms and an instrument according to the present invention.

    Figure 4 is a plan view as in Figure 3 showing the lever arms and instrument of the present invention.

    Figure 5 is a perspective left side view of four lever arms and an instrument according to the present invention.

    Figure 6 is a perspective left side view of two lever arms and an instrument according to the present invention.

    Figure 7 is a perspective view of an instrument according to the present invention in the open position.


    DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS



    [0027] Referring to Figure 1, the portion of the spine illustrated includes a first vertebra 1a, which may be the T10 (Tenth Thoracic) vertebra of a patient, a second vertebra 1b, which may be the T9 (Ninth Thoracic) vertebra of a patient, a third vertebra 1c, which may be the T8 (Eighth Thoracic) vertebra of a patient, and a fourth vertebra 1d, which may be the T7 (Seventh Thoracic) vertebra of a patient. The systems and methods described hereafter may be applicable to any vertebra or vertebrae of the spine and/or the sacrum (not shown). In this application, the term "vertebra" may be broadly interpreted to include the sacrum although rotation is only attempted relative to the sacrum and the sacrum itself is not rotated.

    [0028] Pedicle screw assemblies 11a-11d (collectively screws 11) are implanted in the associated pedicles of the vertebrae 1a-1d. In one of many pedicle screw arrangements, pedicle screw assemblies 11a-11d each have a cage 13 shaped to receive a rod and a set screw that passes through an aperture of the cage. Each screw 11 also has a threaded shaft 15 which is threaded into the vertebra 1 to implant the pedicle screw assembly.

    [0029] Connected to the head 13 of each screw 11 are moment arms 21a-21d (collectively moment arms 21). In this embodiment the moment arms 21 are cannulated tubes having an open distal end 23 allowing placement of objects such as the aforementioned locking screws and suitable locking screw drivers through the cannulae of the tubes. These moment arms 21 serve as lever arms in connection with the vertebral rotation system herein. The proximal end 25 of each moment arm 21 removeably engages the head 13 of the respective pedicle screw assembly 11 so as to be able to apply torque to the vertebrae 1.

    [0030] Figure 2 shows a top view, related to Figure 1, of the distal end of the moment arms 21a-21d. Also shown is a coordinate system defining superior and inferior directions along the spinal axis and left and right directions in the plane defined by the spine axis A-A. Thus, the torque to be applied by the moment arms 21 is in the left or right direction. It can be seen that the distal ends 23 of the moment arms 21 are offset in various left-right and inferior-superior directions depending on the initial geometry of the patient's spine and the pedicle screw placements as determined by the surgeon.

    [0031] Figure 3 schematically illustrates an embodiment of a clamping instrument 31 according to the present invention. The instrument 31 engages, aligns and restrains the positions of the moment arms 21 by clamping the arms 21 in the distal region outside the patient's body.

    [0032] Figure 4 shows a top schematic view, related to Figure 3, of the distal end of the moment arms 21a-21d and of the clamping instrument 31. The instrument 31 has longitudinal jaws 33 that are capable of being moved toward and away from each other in the lateral left and right directions to clamp onto the moment arms 21 and consequently align and restrain them. Each jaw 33 has a compliant material 35, such as a polymer or rubber, to conform to each moment arm 21 and accept the arms at various inferior-superior angles along the length of the jaws 35. The compliant material assists in gripping the moment arms 21.

    [0033] End portions 37 of the clamping instrument 31 connect the jaws 33 to complete an approximately rectangular structure having a central opening for the moment arms 21. A first end portion 37 incorporates a hinge or other mechanism for allowing the jaws to come together and a second end portion 37 incorporates, in the preferred embodiment, a latching mechanism or other closing mechanism that restrains the jaws 33 in the closed position. The clamping instrument 31, once closed on the moment arms 21, are capable of being moved toward and away from each other in the lateral left and right directions to align and restrain the moment arms 21.

    [0034] The clamping instrument 31 has two different functions for aligning the vertebrae. The first alignment is achieved by the closing and latching of the jaws 33 as shown by the relative rotations of the moment arms 21 shown between Figures 2 and 4. Thus, moment arm 21b is rotated leftward relative to arm 21a, moment arm 21c rightward relative to arm 21b and so on. Consequently, each vertebra is rotated relative to adjacent vertebrae to achieve an initial rotation within the instrumented segment of vertebrae. If straight moment arms 21 are used, the degree of initial rotation for each vertebra 1 depends primarily on the positioning and orientation of each pedicle screw assembly 11. If desired, a special moment arm 21 with an offset distal portion may be used to increase or decrease the preliminary rotation of a given vertebra 1.

    [0035] The second alignment is achieved by manually rotating the clamping instrument 31 and the clamped moment arms 21 together to align the instrumented spinal segment. Thus, the clamping instrument 31 can achieve rotation both on a vertebra-to-vertebra basis and of an entire segment of the spine relative to the rest of the spine.

    [0036] Figure 5 shows a perspective view of a preferred embodiment of the invention with the clamping instrument 31 restraining four moment arms 21, each of which has a passage 27 at its proximal end to accommodate a spinal rod. Mounted to the longitudinal jaws 33 are handles 45. The handles 45 serve the dual purposes of assisting in the closing of the jaws for the initial rotation and then allowing manipulation of the entire instrument for the final rotation. The handles 45 may be placed in any suitable position on the clamping instrument 31. In the illustrated embodiment, the handles 45 are shown in a central location, but in other embodiments these may be closer to or at the latch end opposite the hinge end.

    [0037] As also seen in Figure 6, hinge 41 is at one end of the clamping instrument 31, and a latch 43 is at the opposite end. In one embodiment, no latch is required as the handles can hold the instrument in the closed position when being held by a surgeon or surgeon's assistant. In another embodiment, a latching device can be provided on or associated with the handles as opposed to directly on the jaws of the clamping instruments.

    [0038] As shown best in Figure 6, the instrument 31 may accommodate the moment arms 21 at various angles in the inferior/superior plane. The resilient material 35 assists in this regard as it conforms to and grips the arms 21 at various angles. As shown, the instrument 31 may be also be used in a left-right orientation, and the moment arms 21a and 21d may be attached to pedicle screws on either side of the spinous process of the same vertebra. This arrangement creates a triangulated structure that can apply a greater torque to a vertebra while decreasing the bending moment on the pedicle screws. This approach can be used in conjunction with a second instrument 31 oriented in the superior-inferior direction to first create an initial alignment using the first instrument 31 and then restrain the vertebra with respect to other vertebrae using the second instrument 31.

    [0039] Figure 7 shows the clamping instrument 21 in an open position and more clearly shows portions of its structure, particularly the hinge and latching structures. In the preferred embodiment, a spring-loaded hinge biased toward the open position is employed. Also in a preferred embodiment, a spring-loaded ratchet and pawl type latch 43 is employed. Thus, one-handed operation is facilitated. The clamping instrument 31 can be arranged about the moment arms 21, i.e., extension tubes, closed and latched, all with one hand. Disengagement of the latch 43 is facilitated by the latch extension and finger grip which lies outside of one jaw. A simple depression of this extended finger grip portion will disengage the ratchet and pawl arrangement.

    [0040] Although the invention herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention.

    [0041] The following numbered examples describe features in accordance with various non-claimed embodiments as further described above:

    Example 1: A method of direct vertebral rotation comprising:

    attaching pedicle screws to at least two vertebrae to be aligned;

    attaching a lever to each of the pedicle screws;

    positioning the levers between jaws of a direct vertebral rotation instrument;

    holding the jaws in closed position;

    rotating the vertebrae to be aligned relative to each other by bringing the jaws together; and

    collectively rotating the vertebrae to be aligned relative to adjacent spinal segments by rotating the direct vertebral rotation instrument.

    Example 2. The method of example 1, further comprising latching the jaws together.

    Example 3. The method of example 1, further comprising:

    maintaining the position of the vertebrae relative to each other.

    Example 4.The method of example 1, further comprising:

    attaching a lever with an offset distal portion to at least one pedicle screw.

    Example 5.The method of example 2, wherein the jaws have a first layer and a second layer.

    Example 6.The method of example 2, wherein at least a portion of the jaws is compliant.

    Example 7. The method of example 2, wherein at least a portion of the jaws is made from rubber or polymer.

    Example 8. The method of example 2, wherein the direct vertebral rotation instrument has handles configured to be held in a hand.

    Example 9. The method of example 2, wherein the direct vertebral rotation instrument has a hinge configured to connect the jaws.

    Example 10. The method of example 2, wherein the direct vertebral rotation instrument has a lock configured to latch the jaws together.

    Example 11. A direct vertebral rotation instrument comprising:

    a first jaw;

    a second jaw;

    a hinge connecting the first jaw and the second jaw; and

    a lock for locking the first jaw to the second jaw.

    Example 12. The instrument of example 11, further comprising:

    handles attached to each of the first jaw and the second jaw, wherein the handles are configured to rotate the first jaw and the second jaw towards or away from each other.

    Example 13. The instrument of example 12, wherein the first jaw and the second jaw have a first layer and a second layer.

    Example 14. The instrument of example 13, wherein the first layer is compliant.

    Example 15. The instrument of example 13, wherein the first layer is made from a material selected from a group consisting of polymer and rubber.

    Example 16. A system for direct vertebral rotation comprising:

    at least two pedicle screws;

    at least two levers attachable to the pedicle screws; and

    a clamping instrument configured to clamp the levers.

    Example 17. The system of example 16, further comprising:

    a third lever, the third lever having an offset distal portion.

    Example 18. The system of example 17, wherein the clamping instrument comprises:

    a first jaw;

    a second jaw;

    a hinge connecting the first jaw and the second jaw;

    a lock for locking the first jaw to the second jaw; and handles attached to each of the first jaw and the second jaw, wherein the handles are configured to rotate the first jaw and the second jaw towards or away from each other.

    Example 19. The system of example 18, wherein the first jaw and the second jaw have a first layer and a second layer, and the first layer is compliant.

    Example 20. The system of example 18, wherein the first layer is made from polymer or rubber.




    Claims

    1. A system for direct vertebral rotation comprising:

    at least two levers (21), each of the levers being attachable to a pedicle screw (11) implanted in a vertebra of a spine such that each lever extends proximally from the respective pedicle screw; and

    a clamping instrument (31) configured to clamp the levers, the clamping instrument including a first jaw (33) and a second jaw (33), each of the first and second jaws including an inner portion facing towards the other of the first and second jaws, wherein the first and second jaws are movable relative to one another to a closed position in which a plurality of the levers are receivable between the first and second jaws

    characterized in that:

    the inner portion of each of the first and second jaws includes a compliant material (35), and the compliant material of the first and second jaws is configured to conform to the levers received between the first and second jaws when the first and second jaws are in the closed position.


     
    2. The system of claim 1, wherein the clamping instrument (31) further comprises handles (45) attached to each of the first jaw (33) and the second jaw (33), wherein the handles are configured to move the first jaw and the second jaw towards or away from each other.
     
    3. The system of claim 2, wherein the handles (45) extend transverse to an elongate axis of the respective first and second jaws (33).
     
    4. The system of claim 2, wherein the handles (45) are located in a central area of the respective first and second jaws (33).
     
    5. The system of claim 1, wherein the compliant material (35) is selected from a group consisting of polymer and rubber.
     
    6. The system of claim 1, wherein the clamping instrument (31) further comprises a lock (43) for locking the first jaw (33) to the second jaw (33) in the closed position.
     
    7. The system of claim 6, wherein the lock (43) comprises a pawl and ratchet arrangement which automatically latches the first and second jaws (33) as the first and second jaws are moved to the closed position.
     
    8. The system of claim 7, wherein the lock (43) includes a finger gripping portion extending laterally outside of one of the first and second jaws (33) such that depression of the finger gripping portion releases the pawl and ratchet arrangement.
     
    9. The system of claim 1, wherein the clamping instrument (31) further comprises a hinge (41) connecting the first jaw and the second jaw, and wherein the first and second jaws (33) are movable between an open position and the closed position by rotating about the hinge.
     
    10. The system of claim 9, wherein the hinge (41) is spring-loaded so as to bias the first and second jaws (33) into the open position.
     
    11. The system of claim 9, wherein the clamping instrument (31) further comprises a lock (43) for locking the first jaw (33) to the second jaw (33) in the closed position, wherein the lock (42) is located at an opposite end of the first and second jaws (33) from the hinge (41).
     
    12. The system of claim 1, further comprising the at least two pedicle screws (11).
     
    13. The system of claim 12, further comprising a rod adapted to be received by a cage (13) of each of the at least two pedicle screws (11).
     
    14. The system of claim 1, further comprising:

    a third lever (21), the third lever having an offset distal portion.


     
    15. The system of claim 1, wherein the first and second jaws (33) are capable of being moved toward and away from each other to clamp onto the levers (21) in order to align and restrain the levers.
     


    Ansprüche

    1. System für direkte Wirbelrotation, aufweisend:

    mindestens zwei Hebel (21), wobei jeder Hebel so an einer in einem Wirbel einer Wirbelsäule implantierten Pedikelschraube (11) angebracht werden kann, dass jeder Hebel sich proximal von der jeweiligen Pedikelschraube aus erstreckt; und

    ein Klemminstrument (31), konfiguriert für ein Klemmen der Hebel, wobei das Klemminstrument eine erste Klemmbacke (33) und eine zweite Klemmbacke (33) aufweist, jede der ersten und zweiten Klemmbacken einen inneren, gegen die andere der ersten und zweiten Klemmbacken gerichteten Abschnitt aufweist, wobei die ersten und zweiten Klemmbacken relativ zueinander in eine geschlossene Position bewegbar sind, in der mehrere Hebel zwischen den ersten und zweiten Klemmbacken aufgenommen werden können,

    dadurch gekennzeichnet, dass:

    der innere Abschnitt jeder der ersten und zweiten Klemmbacken ein nachgiebiges Material (35) umfasst, und das nachgiebige Material der ersten und zweiten Klemmbacken konfiguriert ist, um den Hebeln zwischen den ersten und zweiten Klemmbacken zu entsprechen, wenn sich die ersten und zweiten Klemmbacken in der geschlossenen Position befinden.


     
    2. System nach Anspruch 1, wobei das Klemminstrument (31) ferner an jeder die erste Klemmbacke (33) und die zweite Klemmbacke (33) angebrachte Handgriffe (45) aufweist, wobei die Handgriffe konfiguriert sind, um die erste Klemmbacke und die zweite Klemmbacke zueinander hin oder voneinander weg zu bewegen.
     
    3. System nach Anspruch 2, wobei sich die Handgriffe (45) quer zu einer verlängerten Achse der jeweiligen ersten und zweiten Klemmbacken (33) erstrecken.
     
    4. System nach Anspruch 2, wobei die Handgriffe (45) in einem mittigen Bereich der jeweiligen ersten und zweiten Klemmbacken (33) angeordnet sind.
     
    5. System nach Anspruch 1, wobei das nachgiebige Material (35) ausgewählt ist aus einer Gruppe bestehend aus Polymer und Gummi.
     
    6. System nach Anspruch 1, wobei das Klemminstrument (31) ferner eine Verriegelung (43) zum Verriegeln der ersten Klemmbacke (33) gegen die zweite Klemmbacke (33) in der geschlossenen Position aufweist.
     
    7. System nach Anspruch 6, wobei die Verriegelung (43) eine Sperrklauen- und Ratschenanordnung aufweist, die die ersten und zweiten Klemmbacken (33) automatisch verriegelt, wenn die ersten und zweiten Klemmbacken in die geschlossene Position bewegt werden.
     
    8. System nach Anspruch 7, wobei die Verriegelung (43) einen Fingergriffabschnitt aufweist, der sich seitlich auf der Außenseite einer der ersten und zweiten Klemmbacken (33) so erstreckt, dass ein Niederdrücken des Fingergriffabschnitts die Sperrklauen- und Ratschenanordnung löst.
     
    9. System nach Anspruch 1, wobei das Klemminstrument (31) ferner ein Scharnier (41) aufweist, das die erste Klemmbacke mit der zweiten Klemmbacke verbindet, und wobei die ersten und zweiten Klemmbacken (33) durch Drehung um das Scharnier zwischen einer geöffneten Position und einer geschlossenen Position bewegt werden können.
     
    10. System nach Anspruch 9, wobei das Scharnier (41) federbelastet ist, um die ersten und zweiten Klemmbacken (33) in die geöffnete Position vorzuspannen.
     
    11. System nach Anspruch 9, wobei das Klemminstrument (31) ferner eine Verriegelung (43) zum Verriegeln der ersten Klemmbacke (33) gegen die zweite Klemmbacke (33) in der geschlossenen Position aufweist, wobei die Verriegelung (42) an einem dem Scharnier (41) entgegengesetzten Ende der ersten und zweiten Klemmbacken (33) platziert ist.
     
    12. System nach Anspruch 1, ferner aufweisend die mindestens zwei Pedikelschrauben (11).
     
    13. System nach Anspruch 12, ferner aufweisend einen Stab, der angepasst ist für eine Aufnahme von einem Korb (13) von jeder der mindestens zwei Pedikelschrauben (11).
     
    14. System nach Anspruch 1, ferner aufweisend:

    einen dritten Hebel (21), wobei der dritte Hebel einen versetzten distalen Abschnitt aufweist.


     
    15. System nach Anspruch 1, wobei die ersten und zweiten Klemmbacken (33) zueinander hin und voneinander weg bewegt werden können, um an den Hebeln (21) zu klemmen, um die Hebel auszurichten und festzuhalten.
     


    Revendications

    1. Système pour la rotation vertébrale directe comprenant :

    au moins deux leviers (21), chacun des leviers pouvant être fixé à une vis pédiculaire (11) implantée dans une vertèbre d'une colonne vertébrale de sorte que chaque levier s'étend de manière proximale à partir de la vis pédiculaire respective ; et

    un instrument de serrage (31) configuré pour serrer les leviers, l'instrument de serrage comprenant une première mâchoire (33) et une seconde mâchoire (33), chacune des première et seconde mâchoires comprenant une partie interne orientée vers l'autre parmi les première et seconde mâchoires, dans lequel les première et seconde mâchoires sont mobiles l'une par rapport à l'autre dans une position fermée dans laquelle une pluralité de leviers peuvent être reçus entre les première et seconde mâchoires,

    caractérisé en ce que :

    la partie interne de chacune des première et seconde mâchoires comprend un matériau souple (35), et le matériau souple des première et seconde mâchoires est configuré pour se conformer aux leviers reçus entre les première et seconde mâchoires lorsque les première et seconde mâchoires sont dans la position fermée.


     
    2. Système selon la revendication 1, dans lequel l'instrument de serrage (31) comprend en outre des poignées (45) fixées à chacune parmi la première mâchoire (33) et la seconde mâchoire (33), dans lequel les poignées sont configurées pour déplacer la première mâchoire et la seconde mâchoire l'une vers l'autre ou à distance l'une de l'autre.
     
    3. Système selon la revendication 2, dans lequel les poignées (45) s'étendent transversalement par rapport à un axe allongé des première et seconde mâchoires (33) respectives.
     
    4. Système selon la revendication 2, dans lequel les poignées (45) sont positionnées dans une zone centrale des première et seconde mâchoires (33) respectives.
     
    5. Système selon la revendication 1, dans lequel le matériau souple (35) est sélectionné dans un groupe comprenant un polymère et le caoutchouc.
     
    6. Système selon la revendication 1, dans lequel l'instrument de serrage (31) comprend en outre un verrou (43) pour verrouiller la première mâchoire (33) sur la seconde mâchoire (33) dans la position fermée.
     
    7. Système selon la revendication 6, dans lequel le verrou (43) comprend un agencement de cliquet et de rochet qui verrouille automatiquement les première et seconde mâchoires (33) lorsque les première et seconde mâchoires sont déplacées dans la position fermée.
     
    8. Système selon la revendication 7, dans lequel le verrou (43) comprend une partie de préhension de doigt s'étendant latéralement à l'extérieur de l'une des première et seconde mâchoires (33) de sorte que l'enfoncement de la partie de préhension de doigt libère l'agencement de cliquet et de rochet.
     
    9. Système selon la revendication 1, dans lequel l'instrument de serrage (31) comprend en outre une charnière (41) raccordant la première mâchoire et la seconde mâchoire, et dans lequel les première et seconde mâchoires (33) sont mobiles entre une position ouverte et la position fermée en tournant autour de la charnière.
     
    10. Système selon la revendication 9, dans lequel la charnière (41) est à ressort afin de solliciter les première et seconde mâchoires (33) dans la position ouverte.
     
    11. Système selon la revendication 9, dans lequel l'instrument de serrage (31) comprend en outre un verrou (43) pour verrouiller la première mâchoire (33) sur la seconde mâchoire (33) dans la position fermée, dans lequel le verrou (42) est positionné au niveau d'une extrémité opposée des première et seconde mâchoires (33) par rapport à la charnière (41).
     
    12. Système selon la revendication 1, comprenant en outre les au moins deux vis pédiculaires (11).
     
    13. Système selon la revendication 12, comprenant en outre une tige adaptée pour être reçue par une cage (13) de chacune des au moins deux vis pédiculaires (11).
     
    14. Système selon la revendication 1, comprenant en outre :

    un troisième levier (21), le troisième levier ayant une partie distale décalée.


     
    15. Système selon la revendication 1, dans lequel les première et seconde mâchoires (33) peuvent être déplacées l'une vers l'autre et à distance l'une de l'autre pour serrer les leviers (21) afin d'aligner et retenir les leviers.
     




    Drawing




















    Cited references

    REFERENCES CITED IN THE DESCRIPTION



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    Patent documents cited in the description