DEVICE, SYSTEM AND METHOD FOR ATTACHING A SPINAL VERTEBRA TO A ROD.

专利摘要:
The present invention relates to a device (2) and a system (1) comprising such a device for attaching a spinal vertebra to a rod (3), comprising a pedicle screw and a fastener for fixing the screw on the rod. The device comprises a flexible band connecting with the vertebra, a ring secured to the fastener, and means secured to said ring, adjustable locking of the flexible band relative to the fastener.
公开号:FR3034979A1
申请号:FR1553428
申请日:2015-04-17
公开日:2016-10-21
发明作者:Couëdic Regis Le；Denis Pasquet
申请人:Implanet SA；
IPC主号:

专利说明:

[0001] The present invention relates to a device for attaching a spinal vertebra to a shaft having a pedicle screw and a fastener for securing the screw to the shaft. It also relates to a system provided with a rod and at least one such device. It also relates to a method of fixing a rod on a vertebra in which a pedicle screw is screwed into the vertebra, the rod is slid through a fastener for fixing the screw on the rod and a screw is screwed on. pressure on the rod through the upper part of the fastener. It finds a particularly important application although not exclusive in the field of the recovery of the spine having an abnormal curvature. In order to straighten the assembly, it is known to bring the lateral edges of the vertebrae on either side of the vertebral column together by means of a rod interconnecting either screws, which are inserted into the vertebrae. same, or hooks that are introduced along the spinal canal. These devices are not entirely satisfactory. Indeed it can happen that the bone of the vertebra 30 is not good quality for example because of osteoporosis. 3034979 2 If a screw is used, it must be longer to improve the fastening. In this case the surgeon is however not certain that the pedicle does not protrude from the vertebra once screwed. Similarly in the case of the implementation of hooks, it is delicate and has a risk of accident that can cause paralysis of the patient. Another way of dealing with poor quality of the bone of a vertebra is to postpone the fixation to the vertebra of the next best quality. But this involves the fusion of the vertebrae together, which favors the so-called "hinge" syndrome, the set of constraints being carried over the stack of vertebrae fused together. To overcome these drawbacks it has been proposed (FR 2 954 905) a system implementing a flexible link for fixing the vertebra on a connecting piece itself attached to the rod. Such a system, making it possible to obtain progressive and effective tightening, may nevertheless result in some cases, in particular when the rod is made of nonmetallic material, a relaxation of the tension of the flexible band with time. The present invention aims to overcome the disadvantages of the prior art. To do this it starts from the idea of simultaneously using a pedicle screw and a flexible link 30 for fixing the vertebra on a piece fixed on the head of the pedicle screw. The length of the screw can thus be maintained at a reasonable size even in case of poor quality of the bone. The present invention therefore aims to provide a device, a system and a method for attaching a spinal vertebra to a stem that responds better than those previously known to the requirements of the practice, particularly in that it will allow excellent fixation of the spinal vertebrae. the fastener and for a cost 10 controlled with great flexibility and flexibility of mounting by the surgeon. For this purpose, the invention notably proposes a device for attaching a spinal vertebra to a stem, comprising a pedicle screw and a fastener for fastening the screw to the rod, characterized in that it furthermore comprises a flexible band. connecting with the vertebra, a ring secured to the fastener, and means integral with said ring, adjustable locking of the flexible strip 20 relative to the fastener. The ring secured to the fastener is initially independent of the latter with which it is subsequently fixed removably or irremovable. In advantageous embodiments, one or both of the following provisions are also and / or in addition: - the locking means are rotatable relative to the ring, which makes it possible to overcome the twisting of the band; The fastener comprises a cup-shaped body arranged to be traversed laterally by the rod 30 perpendicularly to the pedicle screw and provided with an internal thread in its upper part, for fastening the rod by means of a compression screw, and the ring comprises a first through-hole 5 snap-fastenable or fixable by deformation on the upper periphery of the fastener and a second lateral through-hole support means for locking; the fastener comprises a cylindrical upper portion or a cylinder portion of a first diameter, and the first orifice is cylindrical with a diameter complementary to the first diameter, with which it is arranged to cooperate with friction before screwing the compression screw and to lock by slight expansion of the fastener during tightening. The expansion is for example 0.2 mm in diameter, which is sufficient to block any movement of the ring on the fastener with which it is in cylinder / cylinder contact. the fastener comprises a frustoconical upper part, the first orifice being frustoconical of complementary shape to said upper part with which it co-operates with friction, and comprises at least one vertical locking pin at the bottom; the fastener comprises an upper part provided with a groove or a retaining rib and the first through-hole of the ring is provided with a rib or groove of corresponding shape arranged to be embedded in force; one in the other; The blocking means comprise a rigid base body comprising a through orifice, and a holding part insertable in said orifice, the holding part being at least partly in the form of a crushable wedge comprising a central bore for passing through end portions facing the band, said bore being of deformable cross-section between a first free passage section of the end portions when the piece has not been inserted into the orifice and a second section of blocking said end portions in compression when the part is wholly or substantially fully inserted into the orifice. Advantageously, the locking is done by anti-return teeth, for example V-shaped. The second orifice of the ring comprises a rib or a retaining groove and the retaining piece comprises a complementary groove or rib arranged to be clipped and then blocked. vertically upwardly with the rib or groove of the second orifice of the ring. Such an arrangement allows the rotation of one relative to the other; - The pedicle screw is round or oblong head 25 rotatably mounted in rotation in the lower part of the fastener and the fastener has a connecting structure between the cylindrical wall of the rod and said screw head. The junction structure follows the shape of the rod on one side and that of the head on the other. The invention also relates to a system comprising a rod and at least one device as described above. Advantageously, the invention also relates to a rod fixation method on a vertebra employing a device as described above. It also relates to a method for attaching a rod to a vertebra in which a pedicle screw having a fastener on the stem is screwed into the vertebra, the rod is slid through the fastener and a compression screw is screwed on. on the rod through the upper part of the fastener, characterized in that, before screwing the compression screw, a flexible band is passed around said vertebra, a first orifice is stamped on the upper periphery of the fastener passing through a ring, clip-on or fixable by deformation on said upper periphery, said ring comprising a second lateral through-hole for supporting adjustable locking means of the flexible band, said locking means being rotatable relative to the ring and / or the fastening clip, the flexible strip is placed on the vertebra and in the locking means, the flexible band is started to tension, the free rotation making it possible to limit the twisting constraints of the band then we put the whole tension before definitively block the compression screw and the band relative to the fastener.
[0002] Advantageously, the locking means comprise a rigid base body comprising a through hole, and a holding piece insertable in said orifice, the holding part being at least partly in the form of a crushable wedge comprising a central bore for passing the portions. end 5 opposite the band, said bore being of deformable cross-section between a first section of free passage of the end portions when the piece has not been inserted into the orifice and a second blocking section of said end portions in compression when the piece is wholly or substantially fully inserted into the orifice, the strip is inserted into the base body and the holding piece and after tensioning and to block the moving band, one completely inserts the coin into the body. The invention will be better understood on reading the following description of embodiments given below by way of non-limiting examples. The description refers to the accompanying drawings in which: FIG. 1 is an axionometric perspective view of a device and / or fastening system according to a first embodiment of the invention.
[0003] Fig. 1A is a sectional view according to an 'A-1A of Fig. 1 without the flexible band. FIG. 2 is a perspective view of the ring of the type used in the device of FIG. 1.
[0004] Figure 2A is a sectional view along IIA-IIA of Figure 2.
[0005] FIGS. 3A and 3B are perspective views of the blocking means according to one embodiment of the invention, before insertion (FIG. 3A) and after complete insertion (FIG. 3B) of the holding part in the body of FIG. based. Figure 4 is a longitudinal sectional view of a device and / or system according to another embodiment of the invention. FIG. 5 is a perspective view of the ring 10 used in the device of FIG. 4. FIG. 5A is a VA-VA sectional view of the ring of FIG. 5. FIG. 6 is a partial perspective view. of another embodiment of the upper part of a device according to the invention. Figure 6A is a perspective view in section along VIA-VIA of Figure 6. Figure 7 is an enlarged sectional view of the ring of Figures 6 and 6A.
[0006] Fig. 8 is a perspective view of a system comprising a device according to an embodiment of the invention with reference to Fig. 1 and a rod in position on the vertebrae. FIG. 1 shows a system 1 comprising a device 2 for fixing a vertebra (not shown) on a rod 3, comprising a pedicle screw 4 and a fastener 5 for fixing the screw on the rod. The device 2 comprises a flexible and flat strip 6 for example of braided polyester, for example of 1 to 3 mm thick and 6 mm wide and has a fastening loop on the vertebra, for example around one of its transverse or thorny branches (not shown). The loop is formed by the approximation of the end portions 6 'and 6 "of the strip The device 2 comprises a ring 7 integral with the fastener 5 and means 8 for adjustable locking of the flexible strip with respect to the 5, by blocking these two end portions 6, 6 'as will be described in more detail below: Referring also to FIG 1A, the fastener 5 comprises a substantially cylindrical body 9 in the form of recessed cup pierced at its bottom or bottom 10 to pass the pedicle screw 4, and 15 has two lateral notches 11, open upwards, lateral passage of the rod 3 which is embedded therein. in titanium, is cylindrical in its upper part 12 and flared towards the inside in its lower part, the body 9 comprises a cylindrical passage recess 13, and of locking in the axial direction of the screw. internal thread 14 d e attachment of the rod, introduced into the lateral notches 11, by a compression screw 15 which therefore compresses the rod on the head 16 of the pedicle screw 4. The latter comprises a body 17 of screwing with a step screw 18 of the type known in itself.
[0007] The head 16 is provided with a notch 19 for screwing by a tool. It is partially spherical and 3034979 10 comes to bear against the bottom 10 of the cup of the body 9 of the fastener with which it cooperates with friction in rotation and in longitudinal stop. After screwing the pedicle screw 45 previously introduced into the clip 5, and after introduction above the screw head of a junction piece / guiding / support ring-shaped on one side (head of screw) and half cylinder (rod) of the other, then after introduction of the rod 3, it puts in place the ring 7. The ring 7 is a piece for example titanium, shaped flattened bean, section horizontal longitudinal shaped 8 whose loops are not the same size.
[0008] It comprises (see FIGS. 2 and 2A) a first substantially cylindrical portion 21 provided with an internal cylindrical bore 22 or first orifice comprising a narrowed upper portion 23 forming a locking angle in axial displacement with the top 24 of the fastener. 5. The internal bore 22 cooperates frictionally in cylinder / cylinder contact with the outer surface of the cylindrical upper portion 12 of the fastener. Once the ring is inserted into the upper portion of the friction fastener, the compression clamping screw 15 is screwed on. By this screwing, the head of the screw 15 being designed for, it achieves a slight expansion of the volume it occupies during tightening, for example of the order of 0.2 mm, which deforms in compression 3034979 11 lateral the bore of the fastener, which blocks any movement of the ring relative to the fastener. The ring 7 comprises laterally with respect to the first orifice a second orifice 25, passing through, supporting means 8 for locking. The second orifice 25 (see FIG. 2A) is cylindrical with an axis parallel or substantially parallel to that of the first orifice and / or the pedicle screw. It comprises a lower portion 26 and an upper portion 27 provided with a groove 28 at its upper end portion 29. This groove is arranged to cooperate with a complementary rib belonging to the locking means 8 which will now be described.
[0009] With reference to FIGS. 3A and 3B the means 8 comprise a rigid base body 31, for example made of titanium (it can also be made of rigid plastic material). The body 31 is elongate about an axis 32. It is cylindrical and comprises at its upper part 33 the complementary rib 34 arranged to allow locking vertically upwards with the second orifice of the ring, while allowing a rotation of relative to each other.
[0010] Its lower portion 35 is cylindrical and cooperates with friction (allowing rotation about the axis 32) with the lower portion 26 of the second orifice of the ring. The body 31 is provided with a through orifice 36 of substantially oblong section.
[0011] The means 8 furthermore comprise a part 37 for holding the band 6, for example made of plastic material, at least in part wedge-shaped, that is to say of prismatic or substantially prismatic shape. The piece 37 is pierced with a bore 38 for passing the ends 6 ', 6 "of the band, of deformable cross-section between a first section S1 of free passage of the end portions when the piece 37 is not inserted. in actual compression in the orifice (Figure 3A) and a section S2, narrowed, locking the end portions in compression when the piece is fully inserted into the hole 36 (Figure 3B).
[0012] More specifically, the piece 37 has a first central portion 39 of decreasing rectangular or substantially rectangular horizontal section, and a longitudinal vertical section of trapezoidal or substantially trapezoidal isosceles 20 with walls 40 symmetrical with respect to a longitudinal plane P, at the periphery. regularly toothed externally (teeth 41). The teeth 41 (for example seven in number) are formed by longitudinal edges in the form of a triangle, the vertices of which are directed upwards or are horizontal, at acute angle (in flake). The lower teeth or the lower tooth of the workpiece and the upper tooth (s) of the orifice of the body form a means of pre-connecting one to the other by snapping.
[0013] The piece 37 further has two end portions 42 in the form of a half-cylinder or substantially half-cylinder having walls of oval cross-section, symmetrical with respect to the plane perpendicular to the longitudinal plane P, the ovality of which is directed towards the outside and is arranged, as will be seen to cooperate with walls facing the orifice 36. The trapezoidal section has an angle to the base b (relative to the small base of the trapezium) . The bore 38 thus has an oblong, cat-shaped horizontal cross-section which will deform between a sectional shape S1 (FIG. 3A) and a shrunken middle form with section S2 (FIG. 3B). In the embodiment more particularly described here the piece 37 thus has a core 43 hollowed out by the bore 38 formed by the first central portion 39 and the end portions 42.
[0014] It has the opposite main walls 40 whose external face is at an angle and forms the corner connected by the two rounded end walls 42 arranged to cooperate frictionally with the orifice which will be described below.
[0015] The thickness e of the junctions 22 between the main walls and the end walls 42 is smaller (for example two times thinner) to allow crushing deformation in the transverse direction without deformation in the longitudinal direction during the insertion. the piece in the hole (see Figure 3B).
[0016] In the remainder of the description, the same reference numerals will be used to designate identical or similar elements. FIG. 4 shows a system (without tape) with pedicle screw 4, connecting / guide piece 20, shank 3, compression screw 15 and upper part 12 'of the body 9 different from that described with reference to FIGS. 1 and 1A. Here the junction between the outer wall of the upper part 12 'of the fastener and the inner wall of the bore of the first orifice 22' is frustoconical (small base upwards), friction for example Morse taper type. The ring 7 (see FIGS. 5 and 5A) comprises two lugs 44 at the bottom part of the orifice, deformable, which cooperate with the lower face 45 of a protruding bottom portion 46 of the upper part 12 'with which they click, fixing the ring on the clip.
[0017] Figures 6, 6A and 7 show another embodiment of fastener and ring according to the invention. Here the fastener 5 comprises an upper part provided with a retention groove 47 and the first orifice 22 is provided with a rib 48 of corresponding shape arranged to be forced into one another. FIG. 8 is a perspective view of a system 50 comprising a device 2 according to the embodiment of FIG. 1.
[0018] The device 2 is fixed in a vertebra 51 of poor quality, and whose attachment is assumed 3034979 15 on the one hand by the pedicle screw whose head is held on the rod 3 by screwing the compression screw 15 and on the other hand by the band 6 passed around the epiphysis 52 of the vertebra 51.
[0019] The rod 3 is moreover fixed in known manner on the vertebra from side 53 by a pedicle screw device 54, in a manner known per se. Reference will now be made with reference to FIGS. 1, 3A, 3B and 8 to the implementation of the system according to the embodiment of the invention particularly described here. After having screwed the two corresponding to the devices 2 and the invention more pedicular screws 54 provided with their respective fasteners, in the adjacent vertebrae 51, 52, the surgeon inserts the rod 3 into the slots 11 of the attachment heads, and then closes the ring provided with locking means in which it has laid a first strand 6 'of the band 6. It then passes the flexible band (6 "strand) around the vertebra and introduces it into the locking means (c' that is to say in the holding piece 37) then puts the band in tension.The free rotation of the piece 37 makes it possible to avoid the twisting of the band.
[0020] It then screws the pressure screw 15 of the rod, the rod and the ring then being locked in motion. Then he finishes tensioning the web 37. Once the desired tension is obtained, the part 37 is completely inserted into the body 31, 3034979 16 finally blocking the two strands 6 'and 6 "by jamming. and as is also apparent from the foregoing, the present invention is not limited to the embodiments more particularly described, but embraces all the variants thereof and in particular those in which the locking means are different and / or comprise plus protruding blocking ribs within the blocking through bore 6 'and 6 ".

权利要求:
Claims (10)
[0001]
REVENDICATIONS1. Device (2) for fixing a spinal vertebra on a rod (3), comprising a pedicle screw (4) and a fastener (5) for fixing the screw to the rod, characterized in that it further comprises a flexible band (6) for connection with the vertebra, a ring (7) integral with the fastener, and means (8) integral with said ring, for locking the adjustable band (6) with respect to the fastener (5) fixing.
[0002]
2. Device according to claim 1, characterized in that the means (8) for locking are movable in rotation relative to the ring (7). 15
[0003]
3. Device according to any one of the preceding claims, characterized in that the fastener (5) comprises a body (9) in the form of a cup arranged to be traversed laterally by the rod (3) perpendicularly to the pedicle screw 20 ( 4) and provided with an internal thread (14) in its upper part, fixing the rod by means of a screw (15) of compression, and in that the ring comprises a first orifice (22) crossing clipable by deformation on the upper periphery of the fastener and a second through-hole (25) supporting lateral blocking means.
[0004]
4. Device according to any one of claims 1 and 2, characterized in that the fastener comprises a cylindrical top portion 30 or cylinder portion of a first diameter, and the first orifice is cylindrical diameter 3034979 18 complementary to first diameter, with which it is arranged to cooperate friction before screwing the compression screw and to lock by slight expansion of the fastener during tightening.
[0005]
5. Device according to any one of claims 1 and 2, characterized in that the fastener comprises a frustoconical upper part, the first hole being frustoconical complementary shape to said upper part with which it cooperates with friction, and comprises at least a vertical locking pin at the bottom.
[0006]
6. Device according to any one of claims 1 and 2, characterized in that the fastener comprises an upper portion provided with a groove or a retaining rib and the first through hole of the ring is provided with a rib or throat of corresponding shape arranged to be embedded in force one in the other.
[0007]
7. Device according to any one of the preceding claims, characterized in that the means (8) for locking comprises a body (31) of rigid base having a through hole (36), and a piece (37) of insertable support in said orifice, the holding part being at least partly in the form of a crushable wedge comprising a central bore (38) for passing the end portions (6 ', 6 ") opposite the band, said bore being deformable cross section between a first section (S1) free passage of the end portions when the piece has not been inserted into the orifice and a second section (S2) 3034979 19 blocking said end portions in compression when the piece is wholly or substantially fully inserted into the hole.
[0008]
8. Device according to claim 6, characterized in that the second orifice (25) of the ring (7) comprises a rib or a retaining groove and the retaining piece comprises a groove or a complementary rib arranged to be clipped and then blocked vertically upwardly with the rib or groove of the second orifice of the ring.
[0009]
9. Device according to any one of the preceding claims, characterized in that the pedicle screw (4) is round or oblong head (16) rotatably mounted in the lower part of the fastener and in that the attachment comprises a structure (20) connecting the cylindrical wall of the rod and said screw head.
[0010]
10. A spinal vertebra fixation system comprising a shaft and at least one device according to any one of the preceding claims.

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WO2016166482A1|2016-10-20|

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AU2016250123B2|2020-11-05|

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US20180132905A1|2018-05-17|

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引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

US5383905A|1992-10-09|1995-01-24|United States Surgical Corporation|Suture loop locking device|

---

US20100094345A1|2006-09-26|2010-04-15|Sean Saidha|Transconnector|

---

WO2009144663A1|2008-05-27|2009-12-03|Medicrea International|Vertebral osteosynthesis equipment|

---

US20110245875A1|2010-04-05|2011-10-06|Neurosurj Research & Development, LLC|Sublaminar wired screwed device for spinal fusion|

---

EP2422728A1|2010-08-25|2012-02-29|Zimmer Spine|Anchor for attachment to a bony structure|

---

EP2762095A1|2013-01-31|2014-08-06|Zimmer Spine|Device for fixing a bony structure to a support member|WO2020249918A1|2019-06-13|2020-12-17|Medicrea International|Device for additionally securing a pedicle screw to a spinal bone segment|US6176861B1|1994-10-25|2001-01-23|Sdgi Holdings, Inc.|Modular spinal system|

---

US5683404A|1996-06-05|1997-11-04|Metagen, Llc|Clamp and method for its use|

---

CN1142746C|1996-12-12|2004-03-24|库尔斯恩蒂斯股份公司|Device for connecting longitudinal support to pedicle screw|

---

US7678136B2|2002-02-04|2010-03-16|Spinal, Llc|Spinal fixation assembly|

---

US7335201B2|2003-09-26|2008-02-26|Zimmer Spine, Inc.|Polyaxial bone screw with torqueless fastening|

---

EP1719468A1|2004-12-17|2006-11-08|Zimmer GmbH|Intervertebral stabilization system|

---

FI122342B|2005-07-18|2011-12-15|Bioretec Oy|Bioabsorbable tape system, bioabsorbable tape and method of forming a bioabsorbable tape.|

---

US8128635B2|2007-10-23|2012-03-06|Zimmer Spine S.A.S.|Bone fixation tensioning tool and method|

---

US20100087864A1|2008-10-03|2010-04-08|Assaf Klein|Fastener assembly that fastens to polyaxial pedicle screw|

---

US8236032B2|2009-10-20|2012-08-07|Depuy Spine, Inc.|Spinal implant with a flexible extension element|

---

FR2954905B1|2010-01-06|2012-12-28|Implanet|DEVICE FOR FIXING VERTEBRAL|

---

EP2465457B1|2010-12-16|2014-04-30|Zimmer Spine|Device for securing a ligature to an osseous structure|

---

US9510866B2|2012-08-15|2016-12-06|Blackstone Medical, Inc.|Pivoting spinal fixation devices|

---

WO2015029042A1|2013-09-01|2015-03-05|Carbofix Orthopedics Ltd.|Composite material spinal implant|

---

US9402666B2|2014-04-30|2016-08-02|King Faisal Specialist Hospital & Research Centre|Vertebral fixation device|

---

FR3034978B1|2015-04-17|2017-04-07|Implanet|SYSTEM, PART AND METHOD FOR VERTEBRAL ANCHORING.|US10786285B2|2016-06-06|2020-09-29|Stryker European Holdings I, Llc|Paraxial revision rod-to-rod connector|

---

EP3278751A3|2016-07-15|2018-04-25|Stryker European Holdings I, LLC|Spinal fixation assembly|

---

US10869696B2|2019-01-30|2020-12-22|Medos International Sarl|Surgical device for spinal fixation|

---

GB201908098D0|2019-06-06|2019-07-24|Dodds Michael Kenneth|Anchoring device for use in spinal deformity correction surgery|

---

EP3905973A1|2020-01-17|2021-11-10|Westfälische Wilhelms-Universität Münster|Bone repair system|

法律状态:
2016-04-27| PLFP| Fee payment|Year of fee payment: 2 |

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2016-10-21| PLSC| Search report ready|Effective date: 20161021 |

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2017-04-13| PLFP| Fee payment|Year of fee payment: 3 |

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2018-04-04| PLFP| Fee payment|Year of fee payment: 4 |

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2020-03-24| PLFP| Fee payment|Year of fee payment: 6 |

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2021-03-16| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1553428A|FR3034979B1|2015-04-17|2015-04-17|DEVICE, SYSTEM AND METHOD FOR FIXING A SPINAL VERTEBRA ON A ROD.|FR1553428A| FR3034979B1|2015-04-17|2015-04-17|DEVICE, SYSTEM AND METHOD FOR FIXING A SPINAL VERTEBRA ON A ROD.|

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CN201680022004.7A| CN107530111B|2015-04-17|2016-04-14|Device and system for fixing vertebrae to a rod|

---

CA2979795A| CA2979795A1|2015-04-17|2016-04-14|Device and system for fixing a spinal vertebra to a rod|

---

KR1020177029184A| KR20170137745A|2015-04-17|2016-04-14|Apparatus and systems for securing the vertebrae of a vertebrae to a rod|

---

US15/566,612| US10543023B2|2015-04-17|2016-04-14|Device and system for fixing a spinal vertebra to a rod|

---

JP2017553876A| JP6741684B2|2015-04-17|2016-04-14|Device and system for securing a vertebra to a rod|

---

EP16730876.6A| EP3282983A1|2015-04-17|2016-04-14|Device and system for fixing a spinal vertebra to a rod|

---

PCT/FR2016/050867| WO2016166482A1|2015-04-17|2016-04-14|Device and system for fixing a spinal vertebra to a rod|

---

AU2016250123A| AU2016250123B2|2015-04-17|2016-04-14|Device and system for fixing a spinal vertebra to a rod|

---

HK18102843.5A| HK1243302A1|2015-04-17|2018-02-27|Device and system for fixing a spinal vertebra to a rod|