Upload shank swivel head bone screw spinal implant
A polyaxial bone screw having a bone implantable shank, a head and a retaining ring. The retaining ring includes an outer partial hemispherical surface and an inner bore with radially extending channels and partial capture recesses. The shank includes a bone implantable body with an external helical wound thread and an upwardly extending capture structure. The capture structure includes at least one spline which extends radially outward and has a wedged surface that faces radially outward therefrom. The capture structure operably passes through a central bore of the retaining ring while the spline passes through a suitably shaped channel so that the spline becomes positioned above the head at which time the shank is rotated appropriately and the shank is drawn back downwardly so that the spline engages and seats in the capture recess. The head includes an internal cavity having a spherical shaped surface that mates with the ring surface and has a lower restrictive neck that prevents passage of the ring once the ring is seated in the cavity.
This application is a continuation of U.S. patent application Ser. No. 10/818,554, filed Apr. 5, 2004, now U.S. Pat. No. ______, which is a continuation of U.S. patent application Ser. No. 10/464,663, filed Jun. 18, 2003, now U.S. Pat. No. 6,716,214, and a continuation-in-part of U.S. patent application Ser. No. 10/651,003, filed Aug. 28, 2003, now U.S. Pat. No. ______, each of which is incorporated herein in its entirety by reference.
BACKGROUND OF THE INVENTIONThe present invention is directed to a polyaxial bone screw for use in spinal surgery and the like and especially to such a screw adapted to receive a rod member and secure the rod member to a vertebra or the like.
Many spinal surgery procedures require securing various implants to bone and especially to vertebrae along the spine. For example, elongate rods are often required that extend along the spine to provide support to vertebrae that have been damaged or weakened due to injury, disease or the like. Such rods must be supported by certain vertebra and support other vertebra. The most common mechanism for providing such structure is to implant bone screws into certain bones which then in turn support the rod or are supported by the rod. Bone screws of this type may have a fixed head relative to a shank thereof. In the fixed bone screws, the head cannot be moved relative to the shank and the rod must be favorably positioned in order for it to be placed within the head. This is sometimes very difficult or impossible to do so polyaxial bone screws are commonly used. The polyaxial bone screws allow rotation of the head about the shank until a desired rotational position is achieved for the head relative to the shank after which the rod can be inserted and the position of the head eventually locked with respect to movement relative to the shank.
The present invention is directed to such swivel head type bone screws and, in particular, to swivel head bone screws having an open head that allows placement of the rod member within the head and then subsequent closure by use of a closure top, plug or the like to capture the rod in the head of the screw.
Because such implants are for placement within the human body, it is always desirable for the implant to have as little effect on the body as possible. Consequently, it is quite desirable for the implants to have a relatively small profile both in height and width. It is also desirable that the implants be lightweight.
Furthermore, it is desirable that the swivel head implants be unlikely to unintentionally disassemble within the body. It is very undesirable for pieces of the implant to be free to move around within the body after surgery is completed and it also assures that the implant retains an ability to correct the structural problem for which it was implanted. Furthermore, if the implant should slip or become loose for some reason, it is still desirable for all of the parts to remain together and not separate.
Consequently, it is desirable for there to be a lightweight, low profile polyaxial bone screw which assembles in such a manner that each subsequent piece locks proceeding pieces within the overall structure, so that there is less likelihood that the various pieces of the structure will undesirably disassemble.
SUMMARY OF THE INVENTIONThe present invention is directed to a polyaxial bone screw or structure that comprises a shank, a head and a retainer ring that operably cooperate with each other. The bone screw is designed to allow the shank to be locked or secured in a selected angular configuration with respect to the head, while the head receives a rod member and while the shank is implanted in a bone, such as a vertebra or vertebral body.
The shank has an implant body which includes an external helically wound thread that is in turn attached by a neck to a capture end with a capture or connector type structure. The capture structure is positioned outside the bone in use and has a radiused and cylindrically shaped radially outer surface that has at least one radially outwardly extending non helically wound projection or spline thereon. The capture structure also has an upper axially aligned and radiused dome that protrudes above the remainder of the shank and above the ring during use to manipulate the shank and to contact the rod. Further, in some embodiments the shank includes off axis apertures, grooves, side slots or the like for use by an installation tool with a mating configured head for driving and rotating the shank into the bone.
The head has a generally cylindrical shaped profile with an upwardly open U-shaped channel formed therein so as to effectively produce a lower base with two upstanding and spaced arms. The inner surfaces of the arms have a threadform thereon or another suitable guide and advancement structure such as a helically wound flangeform for use in closing the upper part of the channel. Located in the interior of the base and coaxially aligned with the head is a chamber having an interiorly facing partial spherical shaped surface. The chamber further opens onto a bottom surface of the head through a head lower wall bore forming a constricted or restrictive neck sized and shaped to allow passage of the capture structure therethrough.
The retainer ring includes an external partial spherical or hemispherical surface that is sized and shaped to be seated in and slidably engage the partial spherical surface within the head, both having approximately the same radius of generation. The ring also has an internal, centrally located and axially extending ring bore sized and shaped to receive the capture structure of the shank therethrough. Further, the ring has a series of axially extending channels positioned about and opening into the central bore that are sized and shaped to allow sliding passage of the shank splines entirely through the ring so that the shank can be inserted through the ring while the ring is positioned within the chamber in the head. The channels are not helically wound about the bore and preferably extend vertically or parallel to the axis of the ring. The ring further includes a set of recesses that are circumferentially spaced from the channels and that open onto the upper part of the ring and into the bore, but do not pass entirely through the ring and that can be entered by the splines by drawing the shank with the splines thereon axially downwardly with respect to the ring. In this manner, the splines can be passed upwardly or uploaded through the ring by sliding through the channels in conjunction with the remainder of the shank capture and after sliding completely through the bore, the shank is then rotated a certain number of degrees relative to the head, and then drawn back downwardly or downloaded so that the splines encounter and engage the recesses wherein the splines are captured by the ring. The splines preferably have a wedge-shaped surface thereon which pushes not only downwardly, but radially outward against the retainer or capture ring when force is applied to the top of the shank.
During assembly, the ring is placed through the U-shaped channel into the chamber having the partial spherical surface and then rotated so that the ring hemispherical surface mates with and slidably engages the head partial spherical surface. Subsequently, the shank capture structure is uploaded into and extended through the ring central bore, while the splines pass through the channels. The shank is then rotated relative to the ring and then the shank is moved in an axially reverse direction opposed to uploading while the splines are positioned over the recesses so as to be aligned with the recesses and not aligned with the channels and so that the splines then enter the recesses. The ring with connected shank effectively thereafter form a ball and socket joint with the head and allow free rotation to a selected angular configuration until later locked in the selected configuration. The shank, head and ring are then placed in a bone by screwing the shank body into the bone using the apertures on the top of the shank or alternative structure such as grooves or faceted surfaces on the outside of the portion of the shank extending above the ring.
Thereafter, a rod is placed in the U-shaped channel and captured therein by closing the channel by use of a closure top or plug having a threadform or other external guide and advancement structure that mates with and advances along mating guide and advancement structure of the arms of the head, when the closure top is rotated. Preferably, the closure top also includes a break-off head that provides purchase for a tool for rotation and torquing of the closure top to a preselected torque and that such torque is transferred and applied as pressure against the rod received in the head. Once the preselected torque is achieved, the break-off head breaks away from the closure top. Under pressure from the closure top, the rod pushes against the dome of the shank that extends above the ring and thereby urges the splines downwardly. Because of the wedge shaped structure of the splines, the splines push both downwardly and outwardly upon the retainer or capture ring, when force is applied to the dome, so as to frictionally engage and positively seat the retaining ring in the cavity and prevent further rotation in conjunction with the shank dome frictionally engaging the rod under pressure. In particular, the hemispherical surface of the ring abuttingly and frictionally mates with the integral hemispherical interior facing surface of the head, while the dome frictionally mates with the rod under pressure from the rod so as to lock the shank and ring in a selected angular configuration relative to the head. The shank, in this manner, can be locked in a configuration selected from an infinite number of angular configurations with respect to the head. Once fully assembled in this manner, unless a part breaks into pieces, the shank cannot disengage from the capture ring and the head without disassembly of the device by reversing the process or breaking the parts.
OBJECTS AND ADVANTAGES OF THE INVENTIONTherefore, the objects in the present invention are: to provide a polyaxial bone screw having a bone implantable shank that can be locked in a fixed position relative to a head of the bone screw; to provide such a bone screw having a capture or retaining ring having a partial external hemispherical surface that seats within a partial internal spherical shaped chamber surface within and integrally formed with a head of the bone screw to form a ball and socket joint and wherein the shank is securable to the retaining ring; to provide such a bone screw wherein the shank has at least one spline that extends radially outward from a capture end thereof and wherein the retaining ring has a central bore that receives the capture end while a channel opening into the bore allows the spline to slide through the ring so as to pass above the ring, at which time the shank can be rotated a select number of degrees and further wherein the retaining ring has a capture recess that receives the spline on further downward or reverse movement along the axis of the shank relative to the retainer ring; to provide such a bone screw wherein the shank has an upwardly protruding radiused dome which has a radius that in one embodiment is substantially less than the radius of the external hemispherical surface on the retainer ring and that extends upwardly within the head chamber so as to reduce height of the screw head and further, is operably positioned so as to engage a rod member received in the head so as to receive downward pressure from the rod during assembly; to provide such a bone screw wherein a closure top is used to close a channel in the bone screw head after receiving the rod and to apply pressure to the rod member that in turn, exerts pressure on the dome of the shank so as to urge each spline into an abutting and tight relationship with the retaining ring and to urge the retaining ring both downwardly and radially outwardly, so that the external hemispherical surface on the retaining ring more completely contacts and frictionally engages the internal spherical surface within the chamber of the head thereby providing improved mechanical fixation to prevent further rotation of the shank relative to the head; to provide such a bone screw which has a comparatively low profile and which is comparatively light in weight; to provide such a bone screw that resists disassembly thereof except by removal of the closure top; to provide such a bone screw wherein the closure top can be removed by the surgeon should disassembly be desired at which time the entire structure can be easily and quickly disassembled and removed from the bone, if necessary; to provide such a bone screw wherein the shank is locked in position relative to the head during usage in a locked or fixed configuration; to provide such a bone screw wherein the shank cannot disassemble from the head and the retaining ring once the screw is fully assembled except if the closure top is removed and the device is disassembled by the surgeon; to provide such a bone screw which is easy to use and extremely effective for the intended usage thereof.
Other objects and advantages of this invention will become apparent from the following description taken in conjunction with the accompanying drawings wherein are set forth, by way of illustration and example, certain embodiments of this invention.
The drawings constitute a part of this specification and include exemplary embodiments of the present invention and illustrate various objects and features thereof.
As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which may be embodied in various forms. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention in virtually any appropriately detailed structure.
The reference number 1 generally represents a polyaxial bone screw apparatus or assembly in accordance with the present invention operably utilized by implantation into a vertebra 2 and in conjunction with a longitudinal member or rod 3 so as to operably secure the rod 3 in a fixed position relative with respect to the vertebra 2.
The fully assembled bone screw assembly 1 comprises a shank 6, a head 7, a retainer ring 8 and a closure top 9. The shank 6 is perhaps best seen in
Axially extending outward and upward from the shank body 15 is a neck 20 of reduced radius as compared to the adjacent top 18 of the body 15. Further extending axially and outwardly from the neck 20 is a capture end or structure 21 operably providing a connective or capture structure free from the bone or vertebra 2 for joining with the head 7. The capture structure 21 has a radially outer cylindrical surface 22. The cylindrical surface 22 has at least one non-helically wound and radially outward extending projection or spline 24 that extends beyond the surface 22. In the embodiment shown in
The shank upper end 25 still further includes at least one tool engagement aperture for engagement by a tool driving head (not shown) that is sized and shaped to fit into the apertures for both driving and rotating the shank 6 into the vertebra 2. In the illustrated embodiment, a pair of apertures 31 located in spaced relationship to each other, the dome 29 and the shank axis of rotation A are located on the shank upper end 25. The apertures 31 extend into the shank capture structure 21 parallel to the axis A. It is foreseen that various numbers of apertures, slots or the like may be utilized in accordance with the invention for engaging the driving tool of suitable and similar mating shape, or that the outer surface of the upper axial projection can be grooved or formed with a faceted surface that can be driven by a mating tool that goes over the surface.
The head 7 has a generally cylindrical shaped profile, as is seen in
A chamber or cavity 47 is located within the head base 33 that opens upwardly into the U-shaped channel 38. The cavity 47 includes a partial spherical shaped surface 48, at least a portion of which forms a partial internal hemispherical seat 49 for the ring 8, as is described further below. A bore 52 further communicates between the cavity 47 and the bottom exterior of the base 33 and is coaxial with a rotational axis B of the head 7. The bore 52 at least partially defines a restrictive neck 54 that has a radius which is smaller than the radius of the ring 8, as will be discussed further below, so as to form a restrictive constriction at the location of the neck 54 relative to the retainer ring 8 to prevent the ring 8 from passing between the cavity 47 and the lower exterior of the head 7. A bevel 55 extends between the neck 54 and the bottom exterior of the base 33. The hemispherical shaped surface 48 has a second radius associated therewith.
The retainer ring 8 which is best seen in
The retainer ring 8 also has three capture partial slots, receivers or recesses 62 which extend radially outward from the upper part the bore 57 and that do not extend the entire length from top to bottom of the retainer ring 8, but rather only open on the top surface 59 and extend partly along the height of the ring 8 thereof. The recesses 62 are sized and positioned and shaped to receive the splines 24 from above when the splines 24 are in a non-aligned configuration relative to the channels 60. That is, each of the recesses 62 has a width that approximates the width of the splines 24 and has a mating wedge engaging surface 64 that is shaped similar to the spline wedge forming faces 27, so that the splines 24 can be slidably received into the recesses 62 from above by axially translating or moving the shank 6 downward relative to the ring 8 when the splines 24 are positioned above the recesses 62 in a recess aligned configuration.
In some embodiments, the wedge engaging faces 64 slope slightly greater than the wedge forming faces 27 on the splines 24 so that there is additional outward wedging that takes place when the splines 24 are urged downwardly into the recesses 62, as further discussed below.
In this manner the shank capture structure 21 can be uploaded or pushed upwardly through the retainer ring central bore 57 so as to clear the top 58 of the retainer ring 8, rotated approximately 60 degrees and then downloaded or brought downwardly so that the splines 24 become located and captured in the recesses 62. Once the splines 24 are seated in the recesses 62 the shank 6 cannot move further axially downward relative to the ring 8. Preferably, the retainer ring 8 is constructed of a metal or other material having sufficient resilience and elasticity as to allow the ring 8 to radially expand slightly outward by downward pressure of the splines 24 on the recesses 62 under pressure from structure above, as will be discussed further below. This produces a slight outward radial expansion in the ring 8 at the location of the recesses 62.
The ring 8 has a radially outer partial hemispherical shaped surface 65 sized and shaped to mate with the partial spherical shaped surface 48 and having a third radius approximately equal to the second radius associated with the surface 48. The ring third radius is substantially larger than the first radius associated with the dome 29 and also substantially larger than the radius of the neck 54.
The longitudinal member or elongate rod 3 can be any of many different types of implants utilized in reconstructive spinal surgery and the like, but is normally a cylindrical elongate structure having a cylindrical surface 66 of uniform diameter. The rod 3 is preferably sized and shaped to snugly seat near the bottom of the U-shaped channel 38 and, during normal operation, will be positioned slightly above the bottom of the channel 38. In particular, the rod 3 normally engages the shank dome 29, as is seen in
The closure top 9 can be any of the variety of different types of closure tops for use in conjunction with the present invention with suitable mating structure on the upstanding arms 34 and 35. The illustrated closure top 9 has a generally cylindrical shaped base 67 with an upwardly extending break-off head 68. The base 67 includes a helically wound guide and advancement structure 71 that is sized, shaped and positioned so as to engage the guide and advancement structure 42 on the arms 34 and 35 to allow the closure top 9 to be rotated into the head 7 and, in particular, to close the top of the U-shaped channel 38 to capture the rod 3, see
The closure top break-off head 68 is secured to the base 67 at a neck 73 that is sized and shaped so as to break away at a preselected torque that is designed to properly seat the retainer ring 8 in the head 7. The break-off head 68 includes an external faceted surface 75 that is sized and shaped to receive a conventional socket head of a driving tool (not shown) to rotate and torque the closure top 9. The break-off head 68 also includes a central bore 77 and grooves 78 for operably receiving the manipulating tools.
The closure top 9 also includes removal structure comprising a pair of off axis pass through apertures 81 that extend from top to bottom of the base 67. The apertures 81 are located parallel to an axis of rotation axis D of the closure top 9, but are radially spaced away therefrom. The apertures 81 become accessible from the top of the base 67 after the break-off head 68 breaks away from the base 67, as is seen in
While the embodiment illustrated in
When the polyaxial bone screw assembly 1 is placed in use in accordance with the invention the retainer ring 8 is normally first slid through the head U-shaped channel 38, as is shown in
With reference to
The assembly 1 is then normally screwed into a bone, such as vertebra 2, by rotation of the shank 6 using a suitable driving tool (not shown) that operably drives and rotates the shank 6 by engagement thereof at the apertures 31. The relative position of the shank 6 is shown in
A rod 3 is eventually positioned within the head U-shaped channel 38, as is seen in
If removal of the assembly 1 is necessary, the assembly 1 can be disassembled by using a driving tool mating with the closure top apertures 81 to rotate the base 67 and reverse the advancement thereof in the head 7 and then disassembly of the remainder of the assembly 1 in reverse mode in comparison to the procedure described above for assembly.
Illustrated in
Illustrated in
The capture ring 107, shown in
It is to be understood that while certain forms of the present invention have been illustrated and described herein, it is not to be limited to the specific forms or arrangement of parts described and shown.
Claims
1. A polyaxial bone screw comprising:
- a) a head having a channel adapted to receive an elongate longitudinal member and having a lower restrictive neck;
- b) a shank having a lower portion adapted to be implanted in a bone of a patient and an upper portion; said shank upper portion being sized and shaped to be positioned in said head so as to extend through said lower restrictive neck;
- c) a retainer ring separate from said shank and received in said head; said retainer ring mating with and non-pivotably coupled to said shank upper portion to form a subassembly; said subassembly being polyaxially rotatable relative to said head prior to locking of the position of said shank relative to said head, said retainer ring width being larger than a width of said head lower restrictive neck so as to hold said shank upper portion in said head while allowing polyaxial movement of said subassembly relative to said head during positioning; and
- d) said shank upper portion being sized, shaped and positioned so as to directly receive a downward force from said longitudinal member after said longitudinal member is received in said head channel, so as to lock the position of the shank relative to the head.
2. The bone screw according to claim 1 wherein:
- a) the shank having an upper end; and
- b) said retaining ring engages said shank upper portion substantially below said shank upper end, such that between the shank and the retainer ring only said shank receives said direct downward force.
3. The bone screw according to claim 1 wherein:
- a) said shank is cannulated.
4. The bone screw according to claim 1 wherein:
- a) said shank upper portion includes an engagement end positioned and shaped so as to be adapted to abut against a longitudinal member placed in said channel.
5. The bone screw according to claim 4 wherein:
- a) said engagement end is convex.
6. The bone screw according to claim 1 wherein:
- a) said shank upper portion is sized and shaped to extend into said head channel when the bone screw is fully assembled.
7. The bone screw according to claim 1 including:
- a) a closure having mating structure for mating with said head and closing said channel so as to be adapted to capture said rod in said channel.
8. The bone screw according to claim 7 wherein:
- a) said closure having a helically wound mating guide and advancement structure and said head including a complimentary guide and advancement structure sized and shaped to allow said closure to be rotated into and torqued in said head.
9. The bone screw according to claim 8 in combination with:
- a) an elongate member.
10. The bone screw according to claim 9 wherein:
- a) said shank upper portion is shaped and positioned such that upon assembly of said bone screw and said elongate member, said shank upper portion has an engagement region that directly and frictionally engages said elongate member so as to secure said shank in a selected fixed angular configuration relative to said head.
11. In a polyaxial bone screw assembly having a shank and a head with an upward opening receiving channel wherein the channel is sized and shaped to receive a rod located above the shank during use and having a lower restrictive neck; the improvement comprising:
- a) said shank being sized and shaped to be loaded upwardly through said head lower restrictive neck and thereafter being captured in said head by a separate retainer ring secured to said shank such that said shank and said retainer ring together pivot relative to said head while said shank is in said head and during positioning of the head relative to the shank, said shank being sized, shaped and positioned in said head so as to receive a downward force from above when a rod is placed in said channel so as to lock the position of the shank and head relative to each other.
12. The screw according to claim 11 wherein:
- a) said shank includes an upper portion that extends into said channel when said shank is loaded into said head.
13. The bone screw according to claim 12 wherein:
- a) said retainer ring engages said shank substantially below said upper portion, such that only said shank receives said direct downward force from above.
14. The bone screw according to claim 12 wherein:
- a) said retainer ring is sized and shaped to be uploaded into said head through said lower restrictive neck.
15. The bone screw according to claim 12 wherein:
- a) said retainer ring is sized and shaped to be downloaded into said head through said channel.
16. The bone screw according to claim 15 wherein:
- a) said retainer ring has a radiused surface adapted to pivotally mate with a radiused mating surface in a chamber in said head.
17. In a polyaxial bone screw assembly having a shank and a head with a channel sized and shaped to receive a rod; the improvement comprising:
- a) said shank being sized and shaped to allow uploading of said shank into said head such that said shank is positioned directly beneath and receives a downward force from a rod located in said channel;
- b) a retaining ring that is non-integral with said head and said shank for capturing said shank in said head; said ring being secured to said shank while in said head and pivoting together with said shank during positioning of said shank relative to said head, wherein said ring receives downward force from said shank for frictionally securing said ring against said head in a locked configuration.
18. In a polyaxial bone screw having a shank and a head wherein said head includes a rod receiving channel; the improvement comprising:
- a) said shank being sized and shaped to allow for said shank to be uploaded into said head;
- b) said shank having an upper engagement region sized and shaped to project sufficiently into said channel after said shank is loaded into said head so as to directly engage a rod received in said channel and to be biased into locking engagement against said head due to application of force to such a rod on a side of said rod opposite said shank; and
- c) a retaining ring that is non-integral with the shank; the retaining ring being joined with the shank in the head and thereafter pivoting with said shank relative to said head.
19. The bone screw according to claim 18 wherein:
- a) said retaining ring engages said shank substantially below said upper engagement region, such that only said shank receives a direct force from above.
20. The bone screw according to claim 18 in combination with a rod and a closure operably closing said channel and biasing against said rod opposite said shank and wherein said closure is rotatably joinable to said head by flangeforms.
21. A polyaxial bone screw and rod assembly comprising:
- a) a head having a channel adapted to receive a rod and having a lower bore;
- b) a shank having a threaded lower portion adapted to be implanted in a bone and an upper portion with a capture structure;
- c) said shank upper portion being sized and shaped to be uploaded through said head lower bore and thereafter extend into said channel so as to engage a rod in said channel;
- d) a retaining structure having a retainer ring that mates with and secures to said capture structure to form a subassembly inside said head; said retainer ring being non-integral with said shank; said retainer ring being downloaded from a top of the said head; said subassembly polyaxially rotating relative to said head during positioning of said shank relative to said head;
- e) a rod that is sized and shaped to be received in said channel; and
- f) said shank upper portion further including an upper convex surface sized, shaped and positioned such that when said bone screw is fully assembled and said rod is located in said channel, said convex surface engages said rod to urge said subassembly into a non-moveable configuration relative to said head.
22. The bone screw according to claim 21 wherein:
- a) said retainer ring engages said shank upper portion substantially below said upper convex surface, such that only said shank receives a direct downward force.
23. The bone screw according to claim 21 wherein:
- a) said retaining ring is a continuous ring.
24. The bone screw according to claim 21 wherein:
- a) said retaining ring is a discontinuous ring.
25. A polyaxial bone screw and rod assembly comprising:
- a) an elongate rod;
- b) a head having a rod receiving channel for operably receiving said rod; said channel being positioned between a pair of upstanding and spaced arms with each arm having a first of a guide and advancement structure thereon; said head having a lower bore and a chamber located between said channel and said bore;
- c) a shank having a lower portion adapted to be secured to a bone and an upper capture portion sized and shaped to extend through said bore and be polyaxially rotatably held within said head chamber during positioning of said head relative to said shank;
- d) a non-integral retainer sized and shaped to secure to said shank upper capture portion of said shank so as to polyaxially rotate with said shank relative to said head during positioning;
- e) said shank having an integral upper rod engaging structure that is sized and shaped to project into said channel and be engaged by said rod when said rod is in said channel; and
- f) a closure for closing between said arms and having second guide and advancement structure thereon that rotatably mates with said first guide and advancement structure; said closure upon advancement operably biasing said rod against said shank so as to lock said shank in position relative to said head.
26. The assembly according to claim 25 wherein:
- a) said first and second guide and advancement structures are selected from a group consisting of reverse angle threads, buttress threads and flangeforms.
27. The assembly according to claim 25 wherein:
- a) said first and second guide and advancement structures are flangeforms.
28. The assembly according to claim 25 wherein
- a) said shank is cannulated along the entire length thereof.
29. The assembly according to claim 25 wherein:
- a) said retainer having a first radiused surface such that said retainer rotates with said shank during positioning of said shank relative to said head; and
- b) said head chamber having a second radiused surface operably receiving said first radiused surface and allowing polyaxial rotation between said shank and said head during positioning.
30. The bone screw according to claim 25 wherein:
- a) said capture structure engages said shank upper capture portion substantially below said integral upper rod engaging structure, such that only said shank receives a direct downward force when said rod is biased against said shank.
31. In an implant assembly including a bone screw and a rod wherein said bone screw has a head with a rod receiving channel and a shank with an integral lower portion adapted to be secured to a bone and an integral upper portion pivotally received in said head during positioning, the improvement comprising wherein:
- a) said shank is uploaded into said head and said shank upper portion extends substantially into said channel when said shank upper portion is received in said head and directly engages said rod so that biasing of said rod downward against said shank operably locks said shank in position relative to said head before said rod fully seats in a bottom of said channel and such that said shank first receives a downward force thereon upon downward biasing of said rod and then transfers the downward force from the shank to lock the shank in a fixed position relative to the head; and
- b) a capture ring sized and shaped to mate with said shank upper portion and pivoting with said shank upper portion during polyaxial rotation of said shank relative to said head.
32. The assembly according to claim 31 wherein:
- a) said shank is cannulated along the entire length thereof.
33. In an implant assembly including a bone screw and a rod wherein said bone screw has a head with a rod receiving channel and a shank with a lower portion adapted to be secured to a bone and an upper portion pivotally received in said head during positioning, the improvement comprising wherein:
- a) said shank is cannulated along the entire length thereof; and
- b) said shank upper portion projects into said channel so as to directly engage said rod when said rod is located in said channel and said shank is biased by said rod when fully lowered in said channel so as to lock said shank in a fixed position relative to said head; and
- c) a capture ring sized and shaped to mate with said shank upper portion and pivoting with said shank upper portion during polyaxial rotation of said shank relative to said head.
34. The assembly according to claim 35 including
- a) a closure that is rotatably mated with said head so as to bias against said rod when rotated, such that said rod biases against said shank and locks said shank in position relative to said head.
35. The assembly according to claim 33 wherein:
- a) only said shank receives a downward force thereon upon downward biasing of said rod.
36. A polyaxial bone screw comprising:
- a) a head having a channel adapted to receive an elongate rod and having a lower bore;
- b) a shank having a lower portion adapted to be implanted in a bone of a patient and an upper portion; said shank being sized and shaped to be loaded into said head and through said bore;
- c) a retainer ring separate from said shank and received in said head; said retainer ring cooperating with said shank upper portion so as to polyaxially rotate with said shank relative to said head during positioning of said shank relative to said head prior to locking of the position of said shank relative to said head, said retainer ring presenting a head engaging surface diameter larger than said head lower bore so as to hold said shank in said head while allowing polyaxial movement of said shank relative to said head during positioning;
- d) said shank upper portion being sized and shaped so as to extend into said channel after said shank is received in said head; and
- e) said shank upper portion includes an engagement end positioned and shaped so as to be adapted to abut against a rod placed in said channel.
37. The bone screw according to claim 36 wherein:
- a) said engagement end is convex.
38. The assembly according to claim 36 wherein:
- a) only said shank receives a downward force thereon upon downward biasing of said rod.
39. A polyaxial bone screw assembly comprising:
- a) an elongate rod;
- b) a head having a channel receiving said rod during use and having a lower bore and a lower opening;
- c) a shank having a lower portion adapted to be implanted in a bone of a patient and an upper portion; said shank upper portion being sized and shaped to be loaded into said head and through said lower opening;
- d) a retainer ring separate from said shank and received in said head; said retainer ring mating with and secured to said shank upper portion so as to rotate together with said shank relative to said head during positioning and so as to form a subassembly prior to locking of the position of said shank relative to said head, said subassembly presenting a head engaging surface diameter larger than said head lower bore so as to hold said shank in said head while allowing polyaxial movement of said shank relative to said head during positioning;
- e) said shank upper portion being sized, shaped and positioned so as to receive a downward force transferred through a rod placed into said channel after said shank is received in said head;
- f) a closure including a mating structure for mating with said head and closing said channel so as to be adapted to capture said rod in said channel;
- g) said closure is positioned in said head and engages said head; and wherein
- h) said shank upper portion is shaped and positioned such that upon assembly of said bone screw and said rod, said shank upper portion directly receives said force, said force being generated by said closure that causes frictional engagement of said ring with said head so as to secure said shank in a selected fixed angular configuration relative to said head.
40. The polyaxial bone screw assembly according to claim 39 wherein:
- a) said shank being sized, shaped and positioned in said head so as to directly receive said downward force from above when a rod is placed in said channel.
41. The polyaxial bone screw assembly according to claim 39 wherein:
- a) said ring engaging said shank upper portion substantially below a top surface thereof; wherein only said shank receives said downward force.
42. In a polyaxial bone screw having a shank and a head having an inner chamber with an internal curvate surface and also having a lower opening; the improvement comprising:
- a) said chamber internal surface having a larger dimension than said opening;
- b) said shank having an upper portion that has a smaller width than said opening to allow said shank to be uploaded through said opening;
- c) a rod receiving channel located above said chamber; said shank extending into said channel so as to engage a rod in said channel during use; and
- d) a retaining structure that loads separately from said shank into said chamber and captures said shank in said chamber; said retaining structure being secured to and rotating with said shank relative to said head and having a lower surface sized and shaped to slidingly mate and rotate with said chamber internal surface during positioning.
43. In a polyaxial bone screw having a shank and a head; the improvement comprising:
- a) said head having a lower aperture and said shank being sized and shaped so as to allow uploading of an upper portion of said shank through said aperture into said head; and
- b) retaining structure that is non-integral with said shank and loaded into said head separately from said shank; said retaining structure mating with and being secured to said shank so as to capture and pivot with said shank upper portion in said head so as to allow polyaxial movement of said shank relative to said head.
44. A polyaxial bone screw assembly comprising:
- a) a head having a channel adapted to receive an elongate longitudinal member and having a lower restrictive neck;
- b) a shank having a lower portion adapted to be implanted in a bone of a patient and an upper portion; said shank upper portion being sized and shaped to be positioned in said head so as to extend through said lower restrictive neck;
- c) a retainer ring separate from said shank and received in said head; said retainer ring mating with and non-pivotably coupled to said shank upper portion said shank and said retainer ring when coupled being polyaxially rotatable together relative to said head prior to locking of the position of said shank relative to said head, said retainer ring width being larger than a width of said head lower restrictive neck so as to hold said shank upper portion in said head while allowing polyaxial movement of said shank relative to said head during positioning; and
- d) said shank upper portion being sized, shaped and positioned so as to receive a downward force from said longitudinal member after said longitudinal member is received in said head channel, so as to lock the position of the shank relative to the head channel thereby locking the position of the shank and head relative to each other.
45. A polyaxial bone screw assembly comprising:
- a) an elongate member;
- b) a head having a channel to receive the elongate longitudinal member and having a lower restrictive neck;
- c) a shank having a lower portion adapted to be implanted in a bone of a patient and an upper portion; said shank upper portion being sized and shaped to be positioned in said head so as to extend through said lower restrictive neck;
- d) a retainer ring separate from said shank and received in said head; said retainer ring mating with and non-pivotably coupled to said shank upper portion; said upper shank and said retainer ring when coupled being polyaxially rotatable together relative to said head prior to locking of the position of said shank relative to said head, said retainer ring width being larger than a width of said head lower restrictive opening so as to hold said shank upper portion in said head while allowing polyaxial movement of said shank relative to said head during positioning; and
- e) the upper portion being sized and shaped to extend upward and so as to be located beneath the elongate member, when the elongate member is received in the channel; when the assembly is fully assembled, the elongate member operably transferring a downward force to the shank upper portion, so as to urge the coupled shank and retainer ring into frictional contact with head and so as to lock the configuration of the shank with respect to the head.
46. In a polyaxial bone screw having a shank and a head with a channel sized and shaped to receive a rod; the improvement comprising:
- a) said shank being sized and shaped to allow uploading of said shank into said head such that said shank is positioned directly beneath and receives a downward force from a rod located in said channel; a retaining ring that is non-integral with said head and said shank for capturing said shank in said head; said ring being secured to said shank while in said head and pivoting together with said shank during positioning of said shank relative to said head, wherein said ring only engages said shank and said head.
Type: Application
Filed: Aug 7, 2009
Publication Date: Jan 21, 2010
Inventor: Roger P. Jackson (Prairie Village, KS)
Application Number: 12/462,766
International Classification: A61B 17/86 (20060101);