Polyaxial Lateral Offset Connector

Abstract

A polyaxial offset lateral connector includes a body, an insert, and a connecting shaft. The body has a base that defines a receptacle and walls that extend from the base to define a saddle. The insert includes a cup and a pin that extends from a bottom surface of the cup. The connecting shaft has a connection portion and a neck extending from the connecting shaft to a ball. The ball is received within the receptacle of the body and defines a pin passage therethrough. The pin is the insert is received within the pin passage of the ball to prevent translation of the connecting shaft relative to the body.

Claims

1. A polyaxial offset lateral connector comprising: a body having a base defining a receptacle and walls extending from the base to define a saddle; an insert including a cup and a pin extending from a bottom surface of the cup; and a connecting shaft having a connection portion extending away from a ball, the ball received within the receptacle of the body and defining a pin passage therethrough, the pin of the insert received within the pin passage of the ball to prevent translation of the connecting shaft relative to the body.

2. The polyaxial offset lateral connector according to claim 1, wherein the insert includes retention tabs extending from side surfaces of the cup, the retention tabs received within the walls of the body to retain the insert within the body such that the pin received within the pin passage.

3. The polyaxial offset lateral connector of claim 1, wherein the insert includes locking tabs configured to engage a portion of the connecting shaft to fix the connecting shaft relative to the body.

4. The polyaxial offset lateral connector of claim 1, wherein the walls of the body of the polyaxial offset lateral connector includes a threaded inner portion configured to threadably receive a set screw.

5. The polyaxial offset lateral connector of claim 1, wherein the base of the body of the polyaxial offset lateral connector defines a side opening that is in communication with the receptacle, the side opening sized and dimensioned to permit a portion of the connecting shaft to pass into the receptacle.

6. The polyaxial offset lateral connector of claim 1, wherein an outer surface of the ball includes engagement features configured to engage the walls of the body.

7. The polyaxial offset lateral connector of claim 6, wherein the engagement features of the ball are further configured to resist movement of or fix the connecting shaft relative to the body.

8. The polyaxial offset lateral connector of claim 1, further comprising a neck extending from the connecting shaft to the ball.

9. A spinal construct comprising: a spinal rod defining a longitudinal axis; one or more screws configured to secure the spinal rod to a spine of patient such that the spinal rod extends along the spine; and a polyaxial offset lateral connector including: a body having a base defining a receptacle and walls extending from the base to define a saddle, the saddle configured to secure the body to the spinal rod; an insert including a cup and a pin extending from a bottom surface of the cup; and a connecting shaft having a connection portion extending away from a ball, the ball received within the receptacle of the body and defining a pin passage therethrough, the pin of the insert received within the pin passage of the ball to prevent translation of the connecting shaft relative to the body; the connecting portion extending away from the ball in a direction substantially transverse to the longitudinal axis.

10. The spinal construct according to claim 9, wherein the insert includes retention tabs extending from side surfaces of the cup, the retention tabs received within the walls of the body to retain the insert within the body with the pin received within the pin passage.

11. The spinal construct according to claim 9, wherein the insert includes locking tabs configured to engage a portion of the connecting shaft to fix the connecting shaft relative to the body.

12. The spinal construct according to claim 9, wherein the one or more screws includes a taper lock head configured to secure the one or more screw to the spinal rod without a set screw.

13. The spinal construct according to claim 9, wherein the walls of the body of the polyaxial offset lateral connector includes a threaded inner portion configured to threadably receive a set screw.

14. The spinal construct according to claim 9, wherein the base of the body of the polyaxial offset lateral connector defines a side opening that is in communication with the receptacle, the side opening sized and dimensioned to permit a portion of the connecting shaft to pass into the receptacle.

15. The spinal construct according to claim 9, wherein an outer surface of the ball includes engagement features configured to engage the walls of the body.

16. The spinal construct of claim 15, wherein the engagement features of the ball are further configured to resist movement of or fix the connecting shaft relative to the body.

17. The spinal construct of according to claim 9, further comprising a neck extending from the connecting shaft to the ball.

18. A method of securing spinal construct to a spine of a patient, the method comprising: securing a first screw to a first vertebra of the spine; securing a second screw to a second vertebra of the spine; securing a spinal rod in a head of the first screw and a head of the second screw, the spinal rod extending along the spine; and receiving the spinal rod in a saddle of a polyaxial offset lateral connector, the polyaxial offset lateral connector including: a body having a base defining a receptacle and walls extending from the base to define the saddle, the saddle configured to secure the body to the spinal rod; an insert including a cup and a pin extending from a bottom surface of the cup; and a connecting shaft having a connection portion extending away from a ball, the ball received within the receptacle of the body and defining a pin passage therethrough, the pin of the insert received within the pin passage of the ball to prevent translation of the connecting shaft relative to the body; the connecting portion extending away from the ball in a direction substantially transverse to the longitudinal axis.

19. The method according to claim 18, further comprising securing a third screw to the second vertebra of the spine and receiving the connection portion of the connecting shaft in a head of the third screw.

20. The method according to claim 18, wherein a neck extends from the connecting shaft to the ball.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] Various aspects of the present disclosure are described hereinbelow with reference to the drawings, which are incorporated in and constitute a part of this specification, wherein:

[0018] FIG. 1 is a perspective view of a spinal construct including an exemplary embodiment of a polyaxial offset lateral connector provided in accordance with the present disclosure;

[0019] FIG. 2 is a perspective view, with parts separated, of the polyaxial offset lateral connector of FIG. 1;

[0020] FIG. 3 is a top view of the polyaxial offset lateral connector of FIG. 1; and

[0021] FIG. 4 is a cross-sectional view taken along the section line 4-4 of FIG. 3.

DETAILED DESCRIPTION

[0022] Embodiments of the present disclosure are now described in detail with reference to the drawings in which like reference numerals designate identical or corresponding elements in each of the several views. As commonly known, the term “clinician” refers to a doctor, as surgeon, a nurse, or any other care provider and may include support personnel. Additionally, the term “proximal” refers to the portion of the device or component thereof that is closer to the clinician and the term “distal” refers to the portion of the device or component thereof that is farther from the clinician. In addition, the term “cephalad” is known to indicate a direction toward a patient' s head, whereas the term “caudal” indicates a direction toward the patient' s feet. Further still, the term “lateral” is understood to indicate a direction toward a side of the body of the patient, i.e., away from the middle of the body of the patient. The term “posterior” indicates a direction toward the patient's back, and the term “anterior” indicates a direction toward the patient's front. Additionally, terms such as front, rear, upper, lower, top, bottom, and similar directional terms are used simply for convenience of description and are not intended to limit the disclosure. In the following description, well-known functions or constructions are not described in detail to avoid obscuring the present disclosure in unnecessary detail.

[0023] Referring now to FIG. 1, a spinal construct 100 is provided and includes a polyaxial offset lateral connector or connector 10 in accordance with the present disclosure. The spinal construct 100 includes the connector 10, a spinal rod 110, a first screw 120, a second screw 130, and a third screw 140. The spinal rod 110 may be any suitable spinal rod 110 known in the art. The connector 10 allows for adjustment of the spinal construct 100 in a direction transverse to the spinal rod 110.

[0024] Each of the first, second, and third screws 120, 130, 140 is a spinal screw having a head, e.g., head 122, 132, 142, and a shank 128, 138, 148. As shown, each head 122, 132, 142 includes a set screw that secures the head to a rod, e.g., spinal rod 110. In some embodiments, one or more of the heads 122, 132, 142 may be a taper lock head that is configured to secure the respective screw 122, 132, 142 to a rod without requiring a set screw. The shank 128, 138, 148 of each of the spinal screws 120, 130, 140 is secured to a portion of a spine S to secure the respective spinal screw 120, 130, 140 to the spine S. For a detail description of an exemplary spinal screw and head, reference can be made to U.S. Pat. No. 8,403,971 and for a detailed description of an exemplary taper lock housing reference can be made to U.S. Pat. No. 8,814,919, the entire contents of each of these patents are hereby incorporated by reference.

[0025] With reference to FIGS. 2-4, the connector 10 includes a body 20, an insert 40, and a connecting shaft 60. The body 20 defines a longitudinal axis A-A and includes a base 22 and a walls 24 extending from the base 22 to define a U-saddle therebetween forming a channel 26. An inner surface of each of the walls 24 defines a recess 25 adjacent the base 22. The inner surface of each of the walls 24 may include a threaded portion configured to threadably receive a set screw 80 (FIG. 1), as detailed below. With particular reference to FIG. 4, the base 22 defines a receptacle 32 that is in communication with the channel 26 via a channel opening 36. The base 22 also defines a pin opening 38 in a bottom portion thereof that is in communication with the receptacle 32. The pin opening 38 may be a blind hole or may pass entirely through the bottom portion of the base 22, as shown. One side of the base 22 defines a side opening 34 that is in communication with the receptacle 32. The side opening 34 is sized and dimensioned to permit a portion of the connecting shaft 60 to pass into the receptacle 32.

[0026] The insert 40 includes a cup 42 and a pin 48. The cup 42 is sized and dimensioned to be received within the channel opening 36 defined in the body 20. The cup 42 includes retention tabs 44 extending from side surfaces of the cup 42. The retention tabs 44 are sized and dimensioned to be received within the recesses 25 of the walls 24 of the body 20 to releasably secure the cup 42 within the channel opening 36. The cup 42 also includes a top surface 46 that is curved from a bottom portion of the U-shaped saddle of the body 20. The pin 48 extends from a bottom surface of the cup 42 opposite the top surface 46 and is substantially cylindrical in shape. The insert 40 may also include a locking tab 49 that extends from an edge of the bottom surface of the cup 42 that is positioned opposite of the side opening 34 when the cup 42 is received within the channel opening 36. As detailed below, the locking tab 49 is configured to engage a portion of the connecting shaft 60 to fix the connecting shaft 60 relative to the body 20.

[0027] The connecting shaft 60 includes a connecting portion 62, a neck 64 and a ball 72. The connecting portion 62 is generally cylindrical in shape. The neck 64 extends from one end of the connecting portion 62 to the ball 72. The neck 64 has top and bottom flats 66 that are parallel to one another on opposite sides of the neck 64. The top and bottom flats 66 reduce the dimensions of the neck 64 when compared to the connecting portion 62. The ball 72 is sized and dimensioned to be received within the receptacle 32 defined in the base 22 of the body 20. The outer surface of the ball 72 may include engagement features 74 that are configured to engage the walls defining the receptacle 30 to fix the ball 72, and thus the connecting shaft 60, relative to the body 22. Specifically, the engagement features 74 increase friction between the ball 72 and the walls defining the receptacle 50 to resist movement of or fix the connecting shaft 60 relative to the body 22. The ball 72 defines a pin passage 76 that passes through the center of the ball 72 in a direction perpendicular to planes defined by the top and bottom surfaces 66. With particular reference to FIG. 4, the walls defining the pin passage 76 are convex towards the pin passage 76. In some embodiments, the walls defining the pin passage 76 are linear such that the pin passage is cylindrical.

[0028] Continuing to refer to FIGS. 2-4, a method of assembling the connector 10 is detailed in accordance with the present disclosure. Initially, the ball 72 of the connecting shaft 60 is inserted through the side opening 34 of the body 20 until the ball 72 is received within the receptacle 30. When the ball 72 is received within the receptacle 30 and is rotatable within the receptacle 30 such that the connecting shaft 60 is movable relative to the base 20. The top and bottom flats 66 of the neck may reduce the diameter of the connecting shaft 60 to allow for additional movement of the ball 72 within the receptacle 30. In addition, the base 22 may include a bottom surface 35 that engages the bottom flat 66 to limit movement of the connecting shaft 60 in at least one direction relative to the body 20. The engagement features 74 may engage the walls defining the receptacle to resist movement of the connection shaft 60 relative to the body 20.

[0029] When the ball 72 is received within the receptacle 30, the insert 40 is positioned in the body 20 such that the cup 42 is received in the channel opening 36 and the pin 48 passes through the pin passage 76 defined through the ball 72. When the insert 40 is received in the channel opening 36, the retention tabs 44 are received within the recesses 25 to partially secure the insert 40 within the body 20. As the insert 40 is inserted into the channel opening 36, the retention tabs 44 may engage the walls 24 to flex the walls 24 outward until the retention tabs 44 are received within the recesses 25. When the retention tabs 44 are received within the recess 25, the locking tab 49 may engage an outer surface of the ball 72 when the cup is received within the channel opening 36. The pin 48 extends entirely through the pin passage 76 and is received within the pin opening 38 in the bottom portion of the base 22.

[0030] When the insert 40 is received within the channel opening 36, the pin 48 limits movement of the connecting shaft 60 in a direction towards and away from a longitudinal axis of the pin 48, i.e., translation relative to the body 20. The pin 48 also inhibits rotation of the connecting shaft 60 about its longitudinal axis when the body 20 is fixed. In contrast, when the insert 40 is received within the channel opening 36, the connection shaft 60 is pivotable about the pin 48 and is only limited by the interaction of the neck 64 and the walls defining the side opening 34. In addition, as a result of the wall defining the pin passage 76 being convex, the connection shaft 60 is also pivotable in a vertical direction relative to the body 20 limited by the engagement of the top and/or bottom flats 66 of the neck 64 engaging the top and bottom surfaces of the side opening 34 when pivoted transverse to the longitudinal axis of the body 20.. For example, when the walls defining the pin passage 76 are convex, the connecting shaft 60 may be rotatable about its longitudinal axis in a range of about ±5°, may be pivotable up and down (i.e., towards and away bottom surface 35) about a center point of the ball 72 in a range of about ±5°, and may be pivotable about an axis of the pin 48 in a range of about ±35°. In contrast, when the walls of the pin passage 76 are linear, the connecting shaft 60 may be limited to being pivotable about an axis of the pin 48 in a range of about ±35°.

[0031] Referring back to FIG. 1, when the connector 10 is assembled, the connector 10 may be secured within a spinal construct, e.g., spinal construct 100. To secure the connector 10 within the spinal construct 100, the connecting portion 62 of the connecting shaft 60 is positioned within a saddle 144 of the third screw 140 and the body 20 is manipulated to position the spinal rod 110 within the channel 26 (FIG. 4) of the body 20. With the connection portion 62 positioned within the saddle 144 of the third screw 140, a set screw 146 is tightened to the head 142 of the third screw 140 to secure the connection portion 62 within the saddle 144 to secure the connection shaft 60 to the third screw 140. With the connecting shaft 60 secured to the third screw 140, the set screw 80 is threaded into the body 20 to secure the spinal rod 110 within the channel 26. As the set screw 80 is tightened in the body 20, the set screw 80 may drive the spinal rod 110 into engagement with the top surface 46 of the insert 40 such that a bottom surface of the cup 42 engages the ball 72 to fix the ball 72, and thus the connecting shaft 60, relative to the body 20. When the spinal rod 110 engages the top surface 46 of the insert 40, the locking tab 49 may engage the outer surface of the ball 72 to fix the ball 72 relative to the body 20.

[0032] In some embodiments, the walls 24 of the body 20 include a taper lock feature in place of the threaded set screw arrangement to secure the body 20 to the spinal rod 110.

[0033] While several embodiments of the disclosure have been shown in the drawings, it is not intended that the disclosure be limited thereto, as it is intended that the disclosure be as broad in scope as the art will allow and that the specification be read likewise. Any combination of the above embodiments is also envisioned and is within the scope of the appended claims. Therefore, the above description should not be construed as limiting, but merely as exemplifications of particular embodiments. Those skilled in the art will envision other modifications within the scope of the claims appended hereto.