JPWO2023018566A5 - - Google Patents

Claims (60)

A bone separation fastener, comprising:
A fastener shaft,
a proximal end;
a distal end; and
a fastener shaft having a longitudinal axis;
a helical thread disposed about the fastener shaft along the longitudinal axis and having a concave undercut surface;
A bone staple, comprising:
a first end having a first bone engaging feature;
a second end having a second bone engaging feature;
an intermediate portion extending between the first end and the second end and including an opening configured to receive the fastener shaft;
When the bone separation fastener is implanted along the separation between the first bone portion and the second bone portion,
the concave undercut surface is oriented toward one of the proximal end and the distal end of the fastener shaft;
the concave undercut surface is configured to resist at least one force transmitted between the first bone portion and the second bone portion to stabilize the separation;
the first bone-engaging feature engages the first bone portion to connect the first end of the bone staple to the first bone portion;
the second bone-engaging feature engages the second bone portion to connect the second end of the bone staple to the second bone portion;
The bone separation fastener, wherein the bone staple coupled to the first and second bone portions resists at least one force transmitted between the first and second bone portions to stabilize the separation. The bone separation fastener according to claim 1, wherein the proximal end of the fastener shaft comprises a fastener head. The bone separation fastener of claim 2, wherein when the bone separation fastener is implanted along the separation between the first bone portion and the second bone portion, the fastener head engages with an intermediate portion of the bone staple to couple the fastener shaft to the bone staple. the fastener head includes a first locking feature;
The bone separating fastener of claim 3 , wherein the intermediate portion includes a second locking feature configured to engage a first locking feature to lock the fastener head to the bone staple. At least one of the first bone-engaging feature and the second bone-engaging feature:
one or more rough surfaces;
One or more teeth,
one or more blades;
one or more ribs,
one or more legs,
The bone separation fastener of claim 1 , comprising at least one of: the first bone-engaging feature comprises a first leg extending in a first downward direction from a first end of the bone staple;
6. The bone separation fastener of claim 5, wherein the second bone engaging feature comprises a second leg projecting from the second end of the bone staple along a second inferior direction, the first inferior direction being substantially parallel to the second inferior direction. the first bone engaging feature comprises a plurality of first legs projecting downwardly from the first end of the bone staple;
The bone separation fastener of claim 5 , wherein the second bone engaging feature comprises a plurality of second legs projecting downwardly from the second end of the bone staple. A bone separation fastener, comprising:
1. A compressible fastener shaft, comprising:
a proximal end;
a distal end; and
a compressible fastener shaft having a longitudinal axis;
a helical thread disposed about the compressible fastener shaft along a longitudinal axis, the helical thread having a concave undercut surface;
a compression system configured to move the compressible fastener shaft from a first uncompressed state to a second compressed state;
When the bone separation fastener is implanted along the separation between the first bone portion and the second bone portion,
the concave undercut surface is oriented toward one of a proximal end and a distal end of the compressible fastener shaft;
the compression system moves the compressible fastener shaft from a first uncompressed state to a second compressed state;
The bone separation fastener, wherein the concave undercut surface compresses the first bone portion toward the second bone portion and resists at least one force transmitted between the first and second bone portions to stabilize the separation. The compression system comprises:
an inner bore formed in the compressible fastener shaft;
at least one collet feature formed in the compressible fastener shaft about the bore;
a compression member configured to move the at least one collet feature radially toward a longitudinal axis of the compressible fastener shaft to move the compressible fastener shaft from a first uncompressed state to a second compressed state;
The bone separation fastener of claim 8 comprising: the compression member is removably coupleable to the compressible fastener shaft;
10. The bone separation fastener of claim 9, wherein the compression member engages a distal end of the compressible fastener shaft to radially move the at least one collet feature and compress the compressible fastener shaft. a distal end of the compressible fastener shaft comprising a first chamfered surface;
the compression member includes a second chamfered surface;
The bone separation fastener of claim 10 , wherein the second chamfered surface engages the first chamfered surface to radially move the at least one collet feature and compress the compressible fastener shaft. The bone separation fastener of claim 9, wherein the at least one collet feature comprises one or more slots formed in the compressible fastener shaft. The bone separation fastener of claim 9, further comprising a fastener head disposed at the proximal end of the compressible fastener shaft. The bone separation fastener of claim 13, wherein the fastener head has a concave shape configured to engage and longitudinally compress the first bone portion and the second bone portion. the inner bore of the compressible fastener shaft is internally threaded;
The compression member
a compression member head;
a compression member shaft configured to be received within the bore ;
The compression member shaft
a proximal end;
a distal end; and
an external thread disposed about the distal end of the compression member shaft;
When the compression member shaft is received within the bore of the compressible fastener shaft,
the external threads of the compression member shaft engage the internal threads of the compressible fastener shaft;
15. The bone separation fastener of claim 14, wherein the compression member head radially compresses the compressible fastener shaft to resist at least one force transmitted between the first and second bone portions and stabilize the separation. A bone separation fastener, comprising:
A first shaft,
a proximal end;
a distal end; and
a first shaft having a longitudinal axis;
a first helical thread disposed about the first shaft along the longitudinal axis and including a first concave undercut surface;
1. A bone plate comprising:
a first end having a first opening configured to receive a first shaft into a first bone portion;
a second end of the bone plate including a bone engaging feature configured to couple the second end to a second bone portion;
a bone plate including an intermediate portion extending between a first end and a second end of the bone plate;
Equipped with
A bone separation fastener, wherein when the first shaft is implanted across the separation between the first bone portion and the second bone portion, the first shaft passes through the first opening in the bone plate, through the first bone portion and into the second bone portion to stabilize the separation between the first bone portion and the second bone portion. the bone engaging feature:
one or more roughened surfaces;
One or more teeth;
one or more blades;
one or more ribs;
one or more legs;
17. The bone separation fastener of claim 16, comprising at least one of: A second shaft,
a proximal end;
a distal end; and
a second shaft having a longitudinal axis;
a second helical thread disposed about the second shaft along the longitudinal axis and including a second concave undercut surface;
17. The bone separation fastener of claim 16, comprising: 20. The bone separation fastener of claim 18, wherein a second end of the bone plate includes a second opening configured to receive the second shaft. When the second shaft is implanted across the separation between the first and second bone portions,
20. The bone separation fastener of claim 19, wherein the second shaft passes through a second opening in the bone plate, through a second bone portion, and into the first bone portion to stabilize the separation between the first and second bone portions. 1. An intervertebral implant comprising:
A shaft,
a proximal end;
a distal end; and
a longitudinal axis;
a shaft having a minor diameter;
a helical thread disposed about the shaft along a longitudinal axis between the proximal and distal ends of the shaft;
The helical thread is
a concave undercut surface angled toward one of the proximal and distal ends of the shaft;
a major axis;
When the intervertebral implant is implanted into the intervertebral space between the upper and lower vertebral bodies,
The ratio of the major axis to the minor axis is less than 1.50;
The concave undercut surface engages the superior and inferior vertebral bodies;
An intervertebral implant, wherein the concave undercut surface is shaped to resist at least one force transmitted between the superior and inferior vertebral bodies, thereby stabilizing the intervertebral space. The intervertebral implant of claim 21, wherein at least one of the minor and major diameters is constant along at least a portion of the shaft. The intervertebral implant of claim 21, wherein the shaft comprises a cylindrical shape. The intervertebral implant of claim 21, wherein the ratio of the major axis to the minor axis is less than 1.25. The intervertebral implant of claim 21, wherein the ratio of the major axis to the minor axis is less than 1.10. The intervertebral implant of claim 21, wherein the ratio of the major axis to the minor axis is less than 1.05. The intervertebral implant of claim 21, wherein the shaft comprises one or more passages opening on opposite sides of the shaft adjacent the upper and lower vertebral bodies and configured to receive bone reinforcing material therein. 1. An intervertebral implant comprising:
A tapered shaft,
a proximal end;
a distal end; and
a longitudinal axis;
a tapered shaft having a minor diameter;
a tapered helical thread disposed about the tapered shaft along a longitudinal axis between the proximal and distal ends of the tapered shaft;
The tapered helical thread is
a concave undercut surface angled toward one of the proximal and distal ends of the tapered shaft;
a major axis;
When the intervertebral implant is implanted into the intervertebral space between the upper and lower vertebral bodies,
The concave undercut surface engages the superior and inferior vertebral bodies;
An intervertebral implant, wherein the concave undercut surface is shaped to resist at least one force transmitted between the superior and inferior vertebral bodies, thereby stabilizing the intervertebral space. The intervertebral implant of claim 28, wherein at least one of the minor diameter and the major diameter varies along at least a portion of the tapered shaft. The intervertebral implant of claim 28, wherein the tapered shaft comprises at least a partial conical shape. The intervertebral implant of claim 28, wherein at least a portion of the minor diameter decreases from the proximal end of the tapered shaft toward the distal end of the tapered shaft. The intervertebral implant of claim 28, wherein at least a portion of the major axis decreases from the proximal end of the tapered shaft toward the distal end of the tapered shaft. 29. The intervertebral implant of claim 28, wherein the tapered shaft comprises one or more passages opening on opposite sides of the tapered shaft adjacent the superior and inferior vertebral bodies and configured to receive bone reinforcing material therein. The intervertebral implant of claim 28, wherein the intervertebral implant comprises one or more self-tapping features. 1. A method of implanting an intervertebral implant into an intervertebral space between superior and inferior vertebral bodies, comprising:
positioning a distal end of a shaft of an intervertebral implant adjacent to the intervertebral space;
engaging concave undercut surfaces of a helical thread disposed about the shaft with the superior and inferior vertebral bodies;
and rotating the intervertebral implant in a first rotational direction to insert the intervertebral implant into the intervertebral space;
The method, wherein when the intervertebral implant is implanted within the intervertebral space, the concave undercut surface is shaped to resist at least one force transmitted between the superior and inferior vertebral bodies, stabilizing the intervertebral space. preparing the intervertebral space for receiving the intervertebral implant;
The step of preparing the disc space includes:
removing at least a portion of the disc between the superior and inferior vertebral bodies;
moving the superior and inferior vertebral bodies away from each other;
compressing the superior and inferior vertebral bodies toward each other;
36. The method of claim 35, further comprising: an upper vertebral endplate of the superior vertebral body;
the inferior vertebral endplate of the inferior vertebral body;
36. The method of claim 35, further comprising forming at least one tapped bone screw in at least one of the bones. The intervertebral implant comprises a first intervertebral implant;
36. The method of claim 35, further comprising implanting a second intervertebral implant in the intervertebral space adjacent to the first intervertebral implant. 36. The method of claim 35, wherein at least one of a minor diameter of the shaft and a major diameter of the helical thread is constant along at least a portion of the shaft. 36. The method of claim 35, wherein at least one of a minor diameter of the shaft and a major diameter of the helical thread varies along at least a portion of the shaft. 1. A bone separation instrument system comprising:
A first bone pin,
a first proximal end;
a first bone pin having a first distal end configured to be secured to a first bone portion;
a second bone pin,
a second proximal end; and
a second distal end configured to be secured to a second bone portion;
a second bone pin, the second bone portion being positioned adjacent to the first bone portion, forming a bone separation between the first bone portion and the second bone portion;
A guide block,
a first bone pin hole configured to receive a first bone pin;
a second bone pin hole configured to receive a second bone pin;
a window formed through the guide block intermediate the first bone pin hole and the second bone pin hole;
When a first bone pin is secured to a first bone portion and inserted through a first bone pin hole, and a second bone pin is secured to a second bone portion and inserted through a second bone pin hole,
the first bone pin hole applies a first force to the first bone pin along a first direction to compress or distract the first bone portion relative to the second bone portion;
the second bone pin hole applies a second force to the second bone pin along a second direction to compress or distract the second bone portion relative to the first bone portion;
a bone separation instrument system, wherein the window is configured to provide access for an implant positioned through the window to couple to at least one of the first bone portion and the second bone portion while the bone separation is compressed or distracted to stabilize the bone separation. The guide block is
a first lower lead-in feature formed around the first bone pin hole on the lower surface of the guide block;
a second lower lead-in feature formed around the second bone pin hole on the lower surface of the guide block;
a first upper lead-in feature formed around the first bone pin hole on the upper surface of the guide block;
a second upper lead-in feature formed around the second bone pin hole on the upper surface of the guide block;
42. The bone separation instrument system of claim 41, comprising at least one of: The bone separation instrument system of claim 42, wherein a first longitudinal axis of the first bone pin hole is parallel to a second longitudinal axis of the second bone pin hole. When a first bone pin is secured to a first bone portion and inserted into a first bone pin hole, and a second bone pin is secured to a second bone portion and inserted into a second bone pin hole,
44. The bone separation instrument system of claim 43, wherein the first and second bone pin holes are separated from one another by a first distance to compress the first and second bone portions toward one another. When a first bone pin is secured to a first bone portion and inserted through a first bone pin hole, and a second bone pin is secured to a second bone portion and inserted through a second bone pin hole,
44. The bone separation instrument system of claim 43, wherein the first and second bone pin holes are separated from one another by a second distance to space the first and second bone portions apart. When a first bone pin is secured to a first bone portion and inserted through a first bone pin hole, and a second bone pin is secured to a second bone portion and inserted through a second bone pin hole,
44. The bone separation instrument system of claim 43, wherein the first and second bone pin holes are separated from one another by a third distance to hold the first and second bone portions in a neutral position relative to one another. an insertion guide configured to be at least partially received within the window and including a guide hole formed therethrough;
A spade guide,
The spade part at the tip of the spade guide,
a spade guide including a pin portion at a base end of the spade guide;
When the insertion guide is at least partially received within the window, the spade portion is inserted into the bone separation between the first bone portion and the second bone portion, and the pin portion is inserted through the guide hole;
the first bone pin hole is configured to guide the first bone pin into the first bone portion along a first trajectory defined by an orientation of the pin portion relative to the guide hole;
44. The bone separation instrument system of claim 43, wherein the second bone pin hole is configured to guide the second bone pin into the second bone portion along a second trajectory defined by an orientation of the pin portion relative to the guide hole. 1. A bone separation instrument system comprising:
A first bone pin,
a first proximal end;
a first bone pin having a first distal end configured to be secured to a first bone portion;
a second bone pin,
a second proximal end; and
a second bone pin including a second distal end configured to be secured to a second bone portion, the second bone portion being positioned adjacent to the first bone portion, such that a bone separation is formed between the first and second bone portions;
A spade guide,
The spade part at the tip of the spade guide,
a spade guide comprising: a pin portion at a proximal end of the spade guide;
A placement block,
the first bone pin hole is configured to receive a first bone pin;
the second bone pin hole is configured to receive a second bone pin;
an alignment block hole between the first bone pin hole and the second bone pin hole;
When the spade portion of the spade guide is inserted into the bone separation between the first bone portion and the second bone portion and the pin portion of the spade guide is inserted through the alignment block hole,
the first bone pin hole is configured to guide the first bone pin into the first bone portion along a first trajectory defined by an orientation of the pin portion relative to the alignment block hole;
an alignment block, the second bone pin hole configured to guide the second bone pin into the second bone portion along a second trajectory defined by an orientation of the pin portion relative to the alignment block hole;
1. An implant insert block comprising:
a third bone pin hole;
a fourth bone pin hole;
a window formed through the implant insertion block intermediate the third and fourth bone pin holes;
when a first bone pin is secured to the first bone portion and inserted through the third bone pin hole, and a second bone pin is secured to the second bone portion and inserted through the fourth bone pin hole;
an implant insertion block, the window configured to couple with at least one of the first bone portion and the second bone portion and provide access for an implant placed therethrough to stabilize the bone separation;
A bone separation instrument system comprising: The placement block is
a first lower lead-in feature formed around the first bone pin hole on the lower surface of the alignment block;
a second lower lead-in feature formed around the second bone pin hole on the lower surface of the alignment block;
a first upper guide feature formed around the first bone pin hole on the upper surface of the alignment block;
a second upper lead-in feature formed around the second bone pin hole on the upper surface of the alignment block;
49. The bone separation instrument system of claim 48, comprising at least one of: The bone separation instrument system of claim 49, wherein a first longitudinal axis of the first bone pin hole is parallel to a second longitudinal axis of the second bone pin hole. The spade portion is
a first substantially flat surface; and
a second substantially planar surface opposite the first substantially planar surface;
the first substantially flat surface is configured to engage a first surface of a first bone portion within the bone separation portion;
51. The bone separation instrument system of claim 50, wherein the second substantially flat surface is configured to engage a second surface of a second bone portion within the bone separation to indicate a direction of the bone separation with the pin portion of the spade guide. the implant insertion block
a first lower lead-in feature formed around the third bone pin hole on the lower surface of the implant insertion block;
a second lower lead-in feature formed around the fourth bone pin hole on the lower surface of the implant insertion block;
a first upper lead-in feature formed around the third bone pin hole on the upper surface of the implant insertion block;
a second upper lead-in feature formed around the fourth bone pin hole on the upper surface of the implant insertion block;
49. The bone separation instrument system of claim 48, comprising at least one of: The bone separation instrument system of claim 52, wherein the third bone pin hole is parallel to the fourth bone pin hole. When a first bone pin is secured to a first bone portion and inserted through a first bone pin hole, and a second bone pin is secured to a second bone portion and inserted through a second bone pin hole,
54. The bone separation instrument system of claim 53, wherein the first and second bone pin holes are spaced apart a first distance to compress the first and second bone portions toward one another. 1. A method of stabilizing a bone separation between a first bone portion and a second bone portion, comprising:
inserting a proximal end of a first bone pin into a first bone pin hole of the guide block and applying a first force to the first bone pin along a first direction to compress or distract the first bone portion relative to the second bone portion;
inserting a proximal end of a second bone pin into a second bone pin hole of the guide block and applying a second force to the second bone pin along a second direction to compress or distract the second bone portion relative to the first bone portion;
compressing or distracting the bone separation by
inserting an implant through a window formed in the guide block during compression or distraction of the bone separation;
and coupling an implant to at least one of the first bone portion and the second bone portion while the bone separation is undergoing compression or distraction to stabilize the bone separation with the implant. inserting a spade portion of the spade guide into the bone separation portion;
engaging a first surface of a first bone portion with a first substantially flat surface of a spade portion;
engaging a second surface of the second bone portion with a second substantially flat surface of the spade portion;
56. The method of claim 55, wherein the pin portion of the spade guide extends away from the bone separation to indicate the orientation of the bone separation relative to the first and second bone portions. inserting a distal end of a first bone pin into a first bone pin hole of a guide block;
securing a distal end of a first bone pin to a first bone portion while a pin portion of the spade guide extends through a window formed in the guide block;
positioning the first bone pin relative to the direction of bone separation by
inserting a distal end of a second bone pin into a second bone pin hole in the guide block;
securing a distal end of a second bone pin to a second bone portion while the pin portion of the spade guide extends through a window formed in the guide block;
positioning the second bone pin relative to the direction of bone separation by
57. The method of claim 56, further comprising: The guide block comprises a first guide block;
Compression of the bone separation area
inserting a proximal end of a first bone pin into a first bone pin hole of a first guide block and applying a first force to the first bone pin along a first direction to compress the first bone portion relative to the second bone portion;
56. The method of claim 55, further comprising inserting a proximal end of a second bone pin into a second bone pin hole in the first guide block and applying a second force to the second bone pin along a second direction to compress the second bone portion relative to the first bone portion. The guide block comprises a second guide block;
The extension of the bone separation part is
inserting a proximal end of a first bone pin into a first bone pin hole of a second guide block and applying a first force to the first bone pin along a first direction to distract the first bone portion relative to the second bone portion;
56. The method of claim 55, further comprising inserting a proximal end of a second bone pin into a second bone pin hole in the second guide block and applying a second force to the second bone pin along a second direction to compress the second bone portion relative to the first bone portion. Compression of the bone separation area
rotating the guide block to a first position;
and inserting a proximal end of the second bone pin into the convergent pin hole of the guide block to apply a compressive force to the bone separation portion;
The extension of the bone separation part is
rotating the guide block to a second position;
and inserting the proximal end of the second bone pin into the flared bone pin hole of the guide block to apply a distraction force to the bone separation portion.
56. The method of claim 55.