Source: https://patents.google.com/patent/EP0978258B1/en
Timestamp: 2019-08-17 22:03:41
Document Index: 450513416

Matched Legal Cases: ['arts 58', 'arts 58', 'arts 58', 'art 60', 'art 58', 'arts 58', 'arts 58', 'arts 58', 'arts 58', 'arts 58']

EP0978258B1 - Instrument for the positioning of an implant in the human spine - Google Patents
Instrument for the positioning of an implant in the human spine Download PDF
EP0978258B1
EP0978258B1 EP19990115017 EP99115017A EP0978258B1 EP 0978258 B1 EP0978258 B1 EP 0978258B1 EP 19990115017 EP19990115017 EP 19990115017 EP 99115017 A EP99115017 A EP 99115017A EP 0978258 B1 EP0978258 B1 EP 0978258B1
EP19990115017
EP0978258A1 (en
Rainer Prof. Kotz
Richard Dr. Vlasak
Rainhard Prof. Dr. Windhager
Paul Prof. Wuisman
1998-08-07 Priority to DE29814174U priority
1999-08-02 Application filed by Stryker Trauma GmbH filed Critical Stryker Trauma GmbH
2000-02-09 Publication of EP0978258A1 publication Critical patent/EP0978258A1/en
2002-10-16 Publication of EP0978258B1 publication Critical patent/EP0978258B1/en
The invention relates to an instrument for the positioning of an implant in the human spine as a replacement for one or more vertebrae, according to claim 1.
With diseases of the human spine it is increasingly necessary to remove one or more vertebra or vertebral bodies. After the removal a replacement implant must be inserted which assumes the load on the spine. For this various embodiments are known, above all cage-like bodies which are adapted to the shape of the vertebra body and leave adequate possibilities for the bone material to grow in. Additionally it is however necessary to attach a stabilizing implant which rigidly connects bordering healthy vertebra bodies to one another. The vertebra body space retainers although mostly in the position to transmit pressure forces, may however not carry out a lateral stabilization.
Document US-A-5776197 discloses a vertebral implant system having plates attachable to the healthy vertebra bodies. A forceps is used to provide a distracting force to these plates.
The implantation of such implants is effected from the front side of the patient, wherein the implant is inserted laterally into the spine. Before the insertion, as mentioned a clearing out of the diseased vertebra body and a dissection of the invertebral disc is required. With the invention an instrumentation is to be created for the implantation of such implants in a way and manner which is simple as possible and which is gentle on the patient. Furthermore there is to be created a possibility of setting the healthy vertebral body or to keep it at a distance during the preparation work.
With the instrumentation according to the invention there are provided vertebra body plates which may be attached to the healthy vertebra body. The vertebra body plates may be part of the implant to be implanted, or plates attached separately to a rod, which temporarily may be brought into engagement with the healthy vertebra body. The instrumentation according to the invention further envisages distraction rods which are connectable at one end to a vertebra body plate. If it is the case of a removable plate it may be formed as one piece with the distraction rod. If the vertebra body plate is already part of the final implant the distraction rod is designed separately and is preferably connected to the vertebra plate via a threaded connection.
The instrumentation according to the invention further envisages two U-shaped parts, whose limbs cooperate in a telescopic manner and form a tubular housing around attached distraction rods, wherein the U-shaped parts comprise inner sections which are supported on the distraction rods. The U-shaped parts or the tubular housing formed by them forms a type of tunnel which keeps soft parts away from the operating region and permits an access without hindrance to the operating region.
Finally there is provided a distraction instrument which is connectable to the other end of the distraction rods for applying a force onto the rods transversely to their longitudinal extension. In this manner the vertebrae may be moved apart or the distance between the vertebrae may be retained.
According to one formation of the invention the vertebra plates are formed approximately rectangular with a first limb which bears against an end surface of the vertebral column or on the invertebral disk and with a second limb which bears on the circumferential surface of the vertebra body and which can be screwed to this. The second limb comprises a threaded hole for a screwing to a distraction rod or an implant rod. Both may be identical.
In order to create the possibility of attaching a vertebra plate quite early to the health vertebra body or of setting the healthy vertebra, before the replacement implant is inserted, in another formation of the invention it is useful when a section of the replacement implant, which faces a vertebra body, comprises a receiving section and the first limb of the vertebra plate and the receiving section are formed such that the replacement implant may be inserted into a space cleared of one or more vertebra bodies whilst the vertebra plates are already attached. For example the cooperating sections may comprise swallowtail guides so that in the axial direction a secure connection between the vertebra plate and replacement implant is created.
So that no unnecessary injuries may take place the web of the U-shaped parts are curved outwardly in a circular arc shaped manner. According to another formation of the invention on the inner side they comprise a fork or jaw-shaped section which is supported on a distraction rod.
It is useful when the U-shaped parts after the bearing on the distraction rods are fixed to one another in their position, since for the operation procedures it is also necessary to remove the distraction rods in order to carry out further manipulations. Therefore one formation of the invention envisages that on a lateral end edge of one limb a U-shaped part comprises a row of recesses and on the other U-shaped part there is linked a bar with a lateral peg which lockingly is introducable into one of the recesses. The recesses may comprise a narrow location and the locking peg comprises an elongate cross section and is rotatably mounted in the bar. In the one rotational position the peg is therefore lockingly fixed in a recess, whilst in another position, for example rotated about 90°, it may be moved out of the recess.
According to requirement it may also be necessary to lengthen the housing or the tunnel. One formation of the invention envisages that two or more pairs of U-shaped parts are provided which are formed so that they may be stuck onto one another.
A distraction frame according to a further formation of the invention is provided with two jaws of which one is attached to a connection piece in a rigid manner and the other adjustable in steps. Onto the jaws there are attached receiving pieces for the distraction rods, wherein the one receiving piece is adjustable with respect to the rigid receiving piece by way of a threaded spindle. In this manner a coarse and fine adjustment for the distraction procedure is created.
shows perspectively a replacement implant for one or more vertebra bodies of the human spine.
shows the lateral view of the replacement implant according to Fig. 1.
shows a lateral view of a part of the human spine with a tunnel-like or tube-like housing leading through to the operating region.
shows a section through the housing according to Fig. 3 and the distraction rods leading to the healthy vertebrae.
shows a plan view of the upper distraction rod according to Fig. 4.
shows a lateral view of the lower distraction rod according to Fig. 4.
shows perspectively a grip for the rods according to the Figures 5 and 6.
shows perspectively the housing according to Fig. 4.
shows a lateral view of a U-shaped part of the housing according to Fig. 8.
shows a section through the U-shaped part according to Fig. 9.
shows a lateral view of the representation according to Fig. 11 in the direction of arrow 12.
shows a plan view of a bar of the housing according to Fig. 8.
shows a section through the representation according to Fig. 13 along the line 14-14.
shows the lateral view of an introduction rod for the replacement implant according to the Figures 1 and 2.
shows a lateral view of a screwer for fastening a nut of the implant according to Figures 1 and 2.
shows a perspective view of a distraction instrument according to the invention.
The replacement implant in the Figures 1 and 2, for one or more vertebra bodies is composed of several individual parts, specifically of an annular oval or elliptical middle body 10 and of a middle body 12 the same in contour but of a smaller height. Furthermore an upper end body 14 and a lower end body 16 are to be recognized. The bodies 10 to 16 are fittingly stacked over one another and may be fixed with respect to one another via a suitable toothing running in the direction of the larger diameter of the oval. Furthermore clip-like pins may be arranged in bores of the individual bodies in order to fix these with respect to one another. The end bodies may comprise an inclined end surface or be shaped annular-cylindrical as the middle bodies 10, 12, wherein the inclination of the end surfaces may also be different. The bodies 10 to 16 may with this be formed in a modular manner, wherein for example the middle bodies may be provided in graded heights, whilst for example the end bodies have the same height but have differingly inclined free end surfaces.
The end bodies 14, 16 furthermore comprise on the free surfaces swallowtail guides 18. Above and below the end bodies 14, 16 there are arranged vertebra plates 20, 22. They comprise a first limb 24 which comprises two distanced runners which at the free end are connected to one another. The runners form on the inner edges a swallowtail profile which fittingly cooperates with the swallowtail guide 18 so that the limb 14 may be fittingly inserted into the end body 14 or 16, as is represented in Figures 1 and 2. A plate-like limb 26 bent at right angles thereto comprises holes, which cannot be recognized, for accommodating bone screws 28 which are screwed into the healthy vertebra bodies for attaching and stabilizing the complete arrangement according to the Figures 1 and 2. Furthermore the plate-like limbs comprise spikes 30 which face in the same direction as the first limb 24. The spikes dig themselves into the walling of the healthy vertebra.
The middle bodies 10, 12 comprise on the circumference threaded holes 44, wherein the holes 44 are arranged on the middle circumferential line in each case at a circumferential distance of 90°. As can be recognized from Fig. 1, the arrangement of the vertebra plates 20, 22 and the plate 32 is such that they lie in the direction of the large diameter of the oval of the bodies 10 and 12. Accordingly there is located also a threaded hole 44 of the plate 32 lying opposite. Into this hole there may be screwed an adjusting screw 46 which comprises a first threaded section 48 and a second threaded section which is not to be recognized and which extends through the elongate hole 40. Between the threaded sections there is located a radial collar 50 which bears against the inner side of the plate 32 (Fig. 2). A nut 52 is screwed onto the other part of the other threaded section, which is located on the other side of the plate 32. With the help of this arrangement the distance of the plate 32 to the cage stack may be adjusted.
In Fig. 3 there is indicated a part of the human spine in the lumbar region, wherein between two healthy vertebra bodies 52, 54 there is effected a clearing out of two diseased vertebra bodies. In Fig. 3 it is further shown that two vertebra plates are attached in the above mentioned way and manner, wherein the plate 22 may also be part of an instrument which will be gone into further below and which is only temporarily connected to the vertebra body 52. One further recognizes in Fig. 3 a tunnel-like housing 56 which extends towards the operating region. It consists of two U-shaped parts of sheet material, whose limbs are inserted into one another in a telescopic manner. On the inner side of the web of the U-shaped parts 58, 60 there are attached attachments 62, 64 with a jaw at the free end which partly accommodates a distraction rod 66, 68. The U-shaped parts 58, 60 are consequently supported on the rods 66, 68 in this manner. The parts 58, 60 are also mutually locked as is indicated at 70. This will also be gone into further below.
The construction of the housing 56 is clearer from the Figures 8 to 12. One recognizes that the limbs of the U-shaped part 60 comprise a row of recesses 72 on the lateral edge. The limbs of the U-shaped part 58 comprise on the same side two distanced recesses 74. A bar 76 comprises pegs 78, 80 which cooperate with the recesses 72, 74 in order to fix the U-shaped parts 58, 60 in their position to one another. The recesses 72, 74 are formed such that they comprise a narrow location 82. From the Figures 13 and 14 the construction of the bar 76 can be deduced more clearly. The pegs 78, 80 comprise a shank 84 and a somewhat larger head 86 at the free end. In Fig. 13 the pegs 78, 80 are shown rotated about 90° relative to one another. This is also to be recognized in Fig. 14. If the peg 78 in the position according to Fig. 14 is introduced into one of the recesses 72, 74 it may pass the narrow cross section 82. If subsequently the peg 78 is rotated by 90° it is locked in the recess 72, 74. The same applies to peg 80. With the help of the bar 76 therefore the distance of the U-shaped parts 58, 60 to one another may be adjusted.
The U-shaped parts 58, 60 on the inner side of the limbs comprise upwardly standing pegs 88 and on the lower side mountings 90. Therefore pairs of U-shaped parts 58, 60 may be stuck onto one another. Furthermore the U-shaped parts 58, 60 on the side lying opposite the recesses 72 comprise eyes 92 for fastening the housing 56 to the vertebrae (for this see Fig. 4).
In Fig. 4 it is to be recognized that on the rod 66 there is attached an angular attachment 96 which is the same as the vertebra plate 20, 22 and which is placed on the vertebra body 52 in the same manner. As is subsequently explained in more detail the instrument 66 serves a preparatory operating procedure before the insertion of the replacement implant.
The rod 68 is connected to the vertebra plate 20. The rod 68 is constructed in a complex manner. It consists of an inner threaded rod 98 which at one end is screwed into the threaded hole of the second limb 26 in the vertebra plate 20. The rod 98 extends through a hollow rod 100. Near to the limb 26 the threaded rod 98 is surrounded by a sleeve section 102 which at the free end comprises a radial flange section 104. At one end the hollow rod 100 accommodates a section of a peg 106 which, as will yet be described, cooperates with a distraction apparatus. With the help of the peg 106 the threaded rod 98 may be screwed into the threaded hole. Simultaneously the rod 100 is pressed against the sleeve section 102 and thus the flange 104 against the limb 96. In this manner a force may be effectively transmitted onto the vertebra body 54. The described arrangement serves for attaching a vertebra plate 20 in the way and manner shown in Fig. 4, wherein subsequently the limb 26 is provisionally fixed on the vertebra body 54 with the help of a bone screw, and on the other hand serves the setting of the vertebra body 54.
Similar to the rod 68 there is provided a peg 108 on the rod 66 which creates a rotational connection to the rod 66 and is suitable for the application into the distraction apparatus.
In Fig. 6 there is shown a plan view of the rod 68. One recognizes that a releasable grip 116 according to Fig. 7 is connectable to the rods 66, 68 or to the pegs 108, 106. For this purpose the grip 116 comprises a grip head 118. After placing in the rod 66 or 68 the grip 116 may be removed. Subsequently a distraction frame, as is shown in Fig. 17, may be brought into connection with the rods 66, 68. The distraction frame 120 consists of a bolt 122 which is round in cross section and which in an end region comprises a toothing 124. At the other end of the bolt 122 there sits a jaw 124. It is rigidly attached. A second jaw 126 is displaceable on the bolt 122 and comprises a latching mechanism 128, in order to fix the jaws 126 in a desired or selected position on the toothing 124.
The jaws 124, 126 comprise at the other ends receiving pieces 130 and 132 which extend coaxially towards one another and comprise receiving openings 134. The receiving piece 130 is rigidly connected to the jaw 124. The receiving piece 132 may be adjusted in its position relative to the receiving piece 130 with the help of a threaded spindle, not shown in Fig. 17, which is rotated via a knob 136. The receiving openings 134 accommodate the pegs 106, 108 or the rods 66, 68 so that with the help of the frame 120 a distraction force may be exerted onto the vertebrae 52, 54.
A rod 66 with the attachment 112 is introduced on a wire or other guide, not shown, which has been previously introduced. In this case two rods 66 are introduced for the attachment on the vertebrae. Thereafter the housing 56 is implanted after the soft parts have been brought out of the way. With this the U-shaped parts of the housing 56 are supported in the described way and manner on the rods 66 and in the assumed position are fixed by the described locking 70. Before, an attachment of the housing 56 may be fastened to the vertebrae with the help of a wire which is wound through eyes 92. Subsequently the distraction frame 120 is connected to the rods 66 and a distraction is effected. Thereafter the resection of the diseased bone parts or invertebral disk and the dissection of the neighbouring vertebra bodies takes place. After the loosening of the U-shaped parts of the housing 56 relative to one another the distraction frame and the instrument 66 are removed. Thereafter there is effected the introduction of the vertebra plates 20, 22 in the above described way and manner, wherein they are firstly only fixed with one screw on the vertebra 52, 54. It is to be understood that one may also work without the instrument 66 in that right at the beginning the vertebra plates 20, 22 are introduced in the described way and manner and are applied for the first distraction. After the introduction of the vertebra plates via the instrument 68 again with the help of the distraction frame 120 a distraction is carried out and an exact alignment of the vertebrae 52, 54 for the subsequent insertion of the stack formed by the cage-like bodies 10 to 16. Before this is effected the adjusting screw 46 is screwed into the middle body 12 in the manner shown in Fig. 2. At the end of the adjusting screw 56 there is provided a threaded bore into which there is screwed a threaded section 140 of a rod 142 which is connectable at the other end to the removable grip. The instrument shown in Fig. 15 as a result serves the introduction of the stack formed by the bodies 10 to 16 between the vertebra plates 20, 22, wherein the introduction instruments 68 for the vertebra plates 20, 22 are still connected to these. From now on the distraction frame 120 and the rods 68 may be removed from the vertebra plates 20, 22. Into the second limb of the vertebra plates 20, 22 there is then screwed the second bone screw 28, in order to finally fasten the vertebra plates 20, 22. As soon as this is effected the connection and compression plate 32 is applied and fixed relatively loosely with the help of screws 42, 43. With the help of the adjusting screw 68 there is effected an alignment of the stack of the bodies 10 to 16. Thereafter by tightening the screw 42 a compression takes place and the bodies 10 to 16 are rigidly tensioned on one another. Finally with the help of a hollow shank 144 which at one end comprises a mounting 146 for a nut and at the other end is connected to a grip 148, the nut 52 is fastened to the threaded section of the adjusting screw 46. The nut may be displaced across the rod 142 just as the hollow rod 144 and is subsequently tightened in order to rigidly connect the plate 32 to the adjusting screw 46. From now on the instruments according to the Figures 15 and 16 as well as the tunnel-like housing 56 may be removed. Thus the implantation of the implant is completed.
An instrument for the positioning of an implant (10, 12, 14, 16) in the human spine, as a replacement for one or more vertebra bodies, said instrument comprising:
vertebra body plates (20, 22) attachable to the healthy vertebra bodies (52, 54)
distraction rods (66, 68) each of which at one end is attachable to a respective vertebra body plate (20, 22, 96)
two U-shaped parts (58, 60), whose limbs telescopically cooperate and form a tubular housing (56) around the attached distraction rods (66, 68), wherein the U-shaped parts (58, 60) comprise inner attachments (62, 64) which are supported on the distraction rods (66, 68) and
a distraction instrument (120) which is connectable to the other ends of the distraction rods (66, 68) for exerting a force on the rods (66, 68) transversely to their longitudinal extension.
An instrument according to claim 1, characterised in that the vertebra plates (20, 22) are formed approximately rectangularly with a first limb (24) which bears against on end surface of a vertebra body (52, 54) or against an invertebral disk and with a second limb (26) which bears on the circumferential surface of a vertebra body (52, 54) and can be screwed to this, wherein the second limb (26) comprises a threaded hole for a connection to a distraction rod (68) or to an introduction rod.
An instrument according to claim 2, characterised in that a section (14, 16) of the replacement implant, which faces a vertebra body (52, 54), comprises a receiving section (18) and the first limb (24) and the receiving section (18) are formed such that the replacement implant may be inserted in the place cleared of one or more vertebra bodies whilst the vertebra plates (20, 22) are already attached.
An instrument according to one of the claims 1 to 3, characterised in that the web of the U-shaped parts (58,60) is curved outwardly in a circular arc shaped manner.
An instrument according to one of the claims 1 to 4, characterised in that to the inner side of the webs of the U-shaped parts (58, 60) there is attached a fork-shaped or jaw-shaped section (62, 64) which is supported on a distraction rod (66, 68).
An instrument according to one of the claims 1 to 5, characterised in that on a lateral end edge of one limb of a U-shaped part (58, 60) there is formed a row of recesses (72, 74), on the other U-shaped part there is linked a bar (76) with a lateral peg (78, 80) which can be lockingly introduced into one of the recesses.
An instrument according to claim 6, characterised in that the recesses (72, 74) comprise a narrow location (82), the locking peg (78, 80) comprises an elongate cross section (84) and is rotatably mounted in the bar (76) in a manner such that it may be inserted into one of the recesses (72, 74) (72, 74) only in a first rotational position and in a second rotational position can be locked in the recess.
An instrument according to claim 6 and 7, characterised in that the bar (76) at both ends comprises a rotatable locking peg (78, 80) and the lateral edges of the other U-shaped profile likewise comprise at least one recess with a narrow location.
An instrument according to one of the claims 1 to 8, characterised in that two or more pairs of U-shaped parts (58, 60) are provided which are formed such that they can be stuck onto one another.
An instrument according to one of the claims 1 to 9, characterised in that an introduction rod (68) connectable to a vertebra plate (20, 22) serves as a distraction rod.
An instrument according to one of the claims 1 to 10, characterised in that a rod (142) which can be releasably attached laterally on the replacement implant serves as an introduction rod.
An instrument according to claim 10 or 11, characterised in that the rods are connectable to a releasable grip (116).
An instrument according to claim 11, characterised in that laterally on the replacement implant formed from several cage-like annular bodies (10, 12, 14, 16) (stack) there is attached a compression plate (32) whose distance to the stack is adjusted by an adjusting screw (46) which is screwed into a middle body (10, 12) and whose end is screwed to the compression plate (32), wherein a threaded section of the adjusting screw (46) extends through an elongate hole (40) of the compression plate (32) and the rod (142) can be brought into rotational engagement with the end of the threaded section and there is provided a hollow rod (144) with a mounting (146) at one end for a nut (52) which can be screwed onto the threaded section and which may be displaced over the introduction rod (142).
An instrument according to one of claims 1 to 13, characterised in that a distraction frame (120) is provided with two jaws (124, 126), of which the one (124) is rigidly attached to a connection piece (130, 132) and the other is connected adjustable in steps, on the jaws (124, 126) there are attached receiving pieces (130, 132) for the distraction rods (66, 68), wherein the one receiving piece (132) is adjustable with respect to the rigid receiving piece (130) by way of a threaded spindle.
An instrument according to one of the claims 1 to 14, characterised by a distraction rod (66) which at the inner end comprises an angle plate which with one limb may bear against the end surface of the vertebra body and whose other limb bears against the lateral wall of the vertebra body.
EP19990115017 1998-08-07 1999-08-02 Instrument for the positioning of an implant in the human spine Active EP0978258B1 (en)
EP0978258A1 EP0978258A1 (en) 2000-02-09
EP0978258B1 true EP0978258B1 (en) 2002-10-16
EP19990115017 Active EP0978258B1 (en) 1998-08-07 1999-08-02 Instrument for the positioning of an implant in the human spine
DE29814174U1 (en) 1999-12-16
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