Multi-axial connection system
Abstract
In one embodiment of the present invention a system for connecting a fastener element (e.g., a pedicle screw) relative to a rod for the purposes of vertebral fixation is provided. The system may permit multi-axial movement between the fastener element and the rod. Further, the system may permit the angular relationship between the fastener element and the rod to be held in a desired orientation. For the purposes of describing and claiming the present invention, the term “rod” is intended to refer to any elongated structure. Such an elongated structure may be solid or hollow and may have any desired cross-section (e.g., circular, oval, square, rectangular). Further, for the purposes of describing and claiming the present invention, the term “interference fit” is intended to refer to physical contact between two or more components.
Claims
exact text as granted — not AI-modified1 . A spinal fixation system, comprising:
at least one rod; at least one screw having a head at a first end, wherein the head of the screw includes at least one deformation element thereon; at least one body, wherein the body has a first end and a second end, wherein a rod receiving channel is disposed adjacent the first end of the body, wherein a screw head receiving chamber is disposed adjacent the second end of the body, wherein the screw head receiving chamber is tapered towards the second end of the body, and wherein the rod receiving channel and the screw head receiving chamber are operatively connected; and a compression element which cooperates with the body to push the rod, when the rod is disposed within the rod receiving channel, into contact with at least part of the deformation element of the head of the screw to deform the deformation element while pressing the head of the screw towards the tapered end of the screw head receiving chamber to fix the angular relationship of the screw relative to the rod.
2 . The spinal fixation system of claim 1 , wherein the angular relationship of the screw relative to the rod is fixed at least in part due to: (a) an interference fit between at least a portion of an outside surface of the head of the screw and at least a portion of an inside surface of the screw head receiving chamber; and (b) an interference fit between at least a portion of an outside surface of the rod and the deformation element.
3 . The spinal fixation system of claim 1 , further comprising a retention ring sized to fit at least partially around the head of the screw when the head of the screw is disposed within the screw head receiving chamber.
4 . The spinal fixation system of claim 3 , wherein the angular relationship of the screw relative to the rod is fixed at least in part due to: (a) an interference fit between at least a portion of an outside surface of the head of the screw and at least a portion of an inside surface of the retention ring; (b) an interference fit between at least a portion of an outside surface of the retention ring and at least a portion of an inside surface of the screw head receiving chamber; and (c) an interference fit between at least a portion of an outside surface of the rod and the deformation element.
5 . The spinal fixation system of claim 1 , wherein the screw is a bone screw.
6 . The spinal fixation system of claim 5 , wherein the bone screw is configured to be screwed into a pedicle portion of a spine.
7 . The spinal fixation system of claim 5 , wherein the bone screw is a cannulated bone screw.
8 . The spinal fixation system of claim 7 , wherein the deformation element substantially surrounds the cannulation in the bone screw.
9 . The spinal fixation system of claim 8 , wherein the deformation element is a substantially circular ring protruding from the head of the bone screw.
10 . The spinal fixation system of claim 1 , wherein the deformation element comprises a material which is selected from the group including: (a) a material which is softer than a material from which the rod is formed; (b) a material which is harder than a material from which the rod is formed; and (c) a material which is of essentially the same hardness as a material from which the rod is formed.
11 . The spinal fixation system of claim 1 , wherein the rod receiving channel and the screw head receiving chamber are operatively connected to allow a tool to be inserted therethrough to apply torque to the screw.
12 . The spinal fixation system of claim 11 , wherein the head of the screw is at least partially spherical.
13 . The spinal fixation system of claim 11 , wherein the head of the screw includes at least one torque receiving feature for receiving torque from the tool.
14 . The spinal fixation system of claim 13 , wherein the torque receiving feature is selected from the group including: (a) at least one indentation; (b) at least one protrusion; and (c) at least one drive face.
15 . The spinal fixation system of claim 1 , wherein the rod has a substantially circular cross section.
16 . The spinal fixation system of claim 1 , wherein the compression element has threads which cooperate with complementary threads of the body.
17 . The spinal fixation system of claim 16 , wherein the compression element has external threads which cooperate with complementary internal threads of the body.
18 . A fastener assembly used in connection with fixing a rod relative to a spine of a patient, comprising:
at least one fastener having a head at a first end and a bone connection element at a second end, wherein the head of the fastener includes at least one deformation element thereon and the bone connection element of the fastener is adapted for connection to the spine of the patient; at least one body, wherein the body has a first end and a second end, wherein a rod receiving channel for receiving the rod is disposed adjacent the first end of the body, wherein a fastener head receiving chamber is disposed adjacent the second end of the body, wherein the fastener head receiving chamber is tapered towards the second end of the body, and wherein the rod receiving channel and the fastener head receiving chamber are operatively connected; and a compression element which cooperates with the body to push the rod, when the rod is disposed within the rod receiving channel, into contact with at least part of the deformation element of the head of the fastener to deform the deformation element while pressing the head of the fastener towards the tapered end of the fastener head receiving chamber to fix the angular relationship of the fastener relative to the rod.
19 . The fastener assembly of claim 18 , wherein the angular relationship of the fastener relative to the rod is fixed at least in part due to: (a) an interference fit between at least a portion of an outside surface of the head of the fastener and at least a portion of an inside surface of the fastener head receiving chamber; and (b) an interference fit between at least a portion of an outside surface of the rod and the deformation element.
20 . The fastener assembly of claim 18 , further comprising a retention ring sized to fit at least partially around the head of the fastener when the head of the fastener is disposed within the fastener head receiving chamber.
21 . The fastener assembly of claim 20 , wherein the angular relationship of the fastener relative to the rod is fixed at least in part due to: (a) an interference fit between at least a portion of an outside surface of the head of the fastener and at least a portion of an inside surface of the retention ring; (b) an interference fit between at least a portion of an outside surface of the retention ring and at least a portion of an inside surface of the fastener head receiving chamber; and (c) an interference fit between at least a portion of an outside surface of the rod and the deformation element.
22 . The fastener assembly of claim 18 , wherein the bone connection element of the fastener is selected from the group including: (a) threads; and (b) a hook.
23 . The fastener assembly of claim 22 , wherein the fastener is configured to be connected to a pedicle portion of the spine.
24 . The fastener assembly of claim 23 , wherein the fastener is a cannulated bone screw.
25 . The fastener assembly of claim 24 , wherein the deformation element substantially surrounds the cannulation in the bone screw.
26 . The fastener assembly of claim 25 , wherein the deformation element is a substantially circular ring protruding from the head of the bone screw.
27 . The fastener assembly of claim 18 , wherein the deformation element comprises a material which is selected from the group including: (a) a material which is softer than a material from which the rod is formed; (b) a material which is harder than a material from which the rod is formed; and (c) a material which is of essentially the same hardness as a material from which the rod is formed.
28 . The fastener assembly of claim 18 , wherein the rod receiving channel and the fastener head receiving chamber are operatively connected to allow a tool to be inserted therethrough to apply torque to the fastener.
29 . The fastener assembly of claim 28 , wherein the head of the fastener is at least partially spherical.
30 . The fastener assembly of claim 28 , wherein the head of the fastener includes at least one torque receiving feature for receiving torque from the tool.
31 . The fastener assembly of claim 30 , wherein the torque receiving feature is selected from the group including: (a) at least one indentation; (b) at least one protrusion; and (c) at least one drive face.
32 . The fastener assembly of claim 18 , wherein the rod has a substantially circular cross section.
33 . The fastener assembly of claim 18 , wherein the compression element has threads which cooperate with complementary threads of the body.
34 . The fastener assembly of claim 33 , wherein the compression element has external threads which cooperate with complementary internal threads of the body.
35 . A cannulated fastener used in connection with fixing a rod in a body member relative to a spine of a patient, comprising:
a head at a first end and a bone connection element at a second end, wherein the head includes at least one deformation element thereon and the bone connection element is adapted for connection to the spine of the patient; wherein the deformation element substantially surrounds the cannulation in the fastener; and wherein the deformation element deforms under pressure applied thereto by the rod.
36 . The fastener of claim 35 , wherein the bone connection element of the fastener is selected from the group including: (a) threads; and (b) a hook.
37 . The fastener of claim 36 , wherein the fastener is configured to be connected to a pedicle portion of the spine.
38 . The fastener of claim 37 , wherein the fastener is a bone screw.
39 . The fastener of claim 35 , wherein the deformation element is a substantially circular ring protruding from the head of the fastener.
40 . The fastener of claim 39 , wherein the deformation element comprises a material which is selected from the group including: (a) a material which is softer than a material from which the rod is formed; (b) a material which is harder than a material from which the rod is formed; and (c) a material which is of essentially the same hardness as a material from which the rod is formed.Cited by (0)
No later patents cite this yet.
References (0)
No backward citations on record.