U.S. patent number RE43,008 [Application Number 10/620,154] was granted by the patent office on 2011-12-06 for orthopedic implant assembly.
This patent grant is currently assigned to Acantha, Inc.. Invention is credited to James R. Lloyd, David J. Talaber.
United States Patent |
RE43,008 |
Talaber , et al. |
December 6, 2011 |
**Please see images for:
( Certificate of Correction ) ** |
Orthopedic implant assembly
Abstract
An orthopedic implant assembly comprising a stabilizing element,
a securing element which attaches the stabilizing element to the
bone, and a stopping member in the stabilizing element which
inhibits the securing element from loosening or backing out of the
bone. The stabilizing element has at least one bore with the
stopping member therein. In one embodiment, the stopping member has
a reversibly expandable inner and outer diameter to allow the
securing element to pass posteriorly through the stopping member,
but thereafter prevent or inhibit the securing element from
anteriorly backing out of the posterior section of the transverse
passageway. In another embodiment, the stopping member is secured
to an anterior section of the transverse passageway, and the head
of the securing element generally has a compressed configuration
with a diameter less than the diameter of the stopping member, in
which configuration the head can pass through the stopping member,
and an uncompressed configuration with a diameter larger than the
diameter of the stopping member.
Inventors: |
Talaber; David J. (Livermore,
CA), Lloyd; James R. (Elm Grove, WI) |
Assignee: |
Acantha, Inc. (N/A)
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Family
ID: |
23372742 |
Appl.
No.: |
10/620,154 |
Filed: |
July 15, 2003 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
Issue Date |
|
Reissue of: |
09349519 |
Jul 8, 1999 |
6261291 |
Jul 17, 2001 |
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Current U.S.
Class: |
606/71;
606/289 |
Current CPC
Class: |
A61B
17/8042 (20130101); A61B 17/80 (20130101); A61B
17/7059 (20130101); A61B 17/8605 (20130101); A61F
2002/30495 (20130101); A61F 2220/0025 (20130101); A61B
17/8052 (20130101) |
Current International
Class: |
A61B
17/80 (20060101) |
Field of
Search: |
;606/69-73,60,66,68 |
References Cited
[Referenced By]
U.S. Patent Documents
Foreign Patent Documents
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4409833 |
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Oct 1995 |
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DE |
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19545612 |
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Jun 1997 |
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DE |
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WO 98/17188 |
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Apr 1998 |
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WO |
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WO 98/48739 |
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Nov 1998 |
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WO |
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WO 98/487739 |
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Nov 1998 |
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WO |
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WO 99/00904 |
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Mar 1999 |
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WO |
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WO 99/09904 |
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Mar 1999 |
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WO |
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WO 00/78238 |
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Dec 2000 |
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WO |
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WO 2006/055156 |
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May 2006 |
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WO |
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Primary Examiner: Ramana; Anu
Attorney, Agent or Firm: Lynch; Edward J.
Claims
What is claimed is:
1. An orthopedic implant assembly, comprising a) a stabilizing
element having an anterior surface, a posterior surface, and at
least one bore, the bore having a first opening in the anterior
surface, a second opening in the posterior surface smaller than the
first opening, and a transverse passageway extending from the first
opening to the second opening; b) a biased stopping member defining
at least in part a reversibly expandable passageway having a
smaller diameter configuration and a larger diameter configuration;
and c) a securing element having an elongated body, and a head at
one end of the body and integral therewith, the head having a
maximum diameter greater than the smaller diameter configuration of
the passageway defined by the biased stopping member and greater
than the second opening in the stabilizing element, so that the
head is retained within the transverse passageway between the
biased stopping member and the second opening in the stabilizing
element.
2. The assembly of claim 1 wherein the biased stopping member
comprises a collar defining a passageway, enlargeable from an
unexpanded inner diameter to an expanded inner diameter, wherein
the head of the securing element has a maximum diameter greater
than the unexpanded inner diameter of the collar and less than the
expanded inner diameter of the collar.
3. The assembly of claim 2 wherein the head of the securing element
has a curved posterior surface which has a minimum outer diameter
smaller than the unexpanded inner diameter of the collar,
configured to be displaceable posteriorly of the collar through the
passageway of the collar from an anterior to a posterior surface
thereof.
4. The assembly of claim 2 wherein the bore has a groove in an
anterior portion of the transverse passageway having a diameter and
a height, and wherein the collar is a reversibly expandable annular
collar seated in the groove, the collar having an expanded outer
diameter, and an unexpanded outer diameter which is less than the
diameter of the groove and greater than a diameter of the
transverse passageway.
5. The assembly of claim 4 wherein the head of the securing element
has a curved posterior surface which has a minimum outer diameter
smaller than the unexpanded inner diameter of the collar, and which
is configured to contact the collar anterior surface and expand the
collar as the head is displaced posteriorly through the collar
passageway.
6. The assembly of claim 2 wherein the collar is secured to an
anterior section of the transverse passageway, and has a plurality
of slots and circumferentially spaced members, the
circumferentially spaced members having a deflected configuration
defining the expanded inner diameter of the collar.
7. The assembly of claim 6 wherein the head of the securing element
has a curved posterior surface which has a minimum outer diameter
smaller than the unexpanded inner diameter of the collar, and which
is configured to contact the collar anterior surface and deflect
the circumferentially spaced members away from a longitudinal axis
of the transverse passageway as the head is displaced posteriorly
through the collar passageway.
8. The assembly of claim 6 wherein the collar has an anterior
surface which tapers toward a center of the transverse
passageway.
9. The assembly of claim 3 wherein a posterior portion of the
transverse passageway is curved to conform to the curved posterior
surface of the head.
10. The assembly of claim 1 wherein the head of the securing
element is longitudinally displaceable within the transverse
passageway between a posterior surface of the biased stopping
member and the second opening in the posterior surface of the
stabilizing element.
11. The assembly of claim 10 wherein the body of the securing
element has a diameter smaller than the second opening in the
stabilizing element, and the securing element may be angularly
displaced within the transverse passageway and the second opening
in the stabilizing element.
12. The assembly of claim 1 wherein the stabilizing element
includes at least two bores.
13. The assembly of claim 1 wherein the stabilizing element is
configured to conform to and extend between at least two bone
segments.
14. The assembly of claim 13 wherein the stabilizing element has a
curved surface.
15. The assembly of claim 1 wherein the stabilizing element is
selected from the group consisting of rods and plates.
16. The assembly of claim 1 wherein the securing element is
selected from the group consisting of screws and nails.
17. The assembly of claim 2 wherein the collar is formed of an
elastically deformable material.
18. The assembly of claim 2 wherein the collar is formed of a
material selected from the group consisting of titanium and
superelastic material.
19. The assembly of claim 2 wherein the collar has a posterior
surface perpendicular to a longitudinal axis of the transverse
passageway.
20. The assembly of claim 4 wherein the collar has a height less
than the height of the groove.
21. A method of attaching an orthopedic implant assembly to a bone
of a patient, comprising a) positioning a stabilizing element
against a surface of the patient's bone, the stabilizing element
having an anterior surface, a posterior surface, and at least one
bore, the bore having a first opening in the anterior surface, a
second opening in the posterior surface smaller than the first
opening, and a transverse passageway extending from the first
opening to the second opening, and a biased stopping member within
the bore and defining at least in part a reversibly expandable
passageway having a smaller diameter configuration and a larger
diameter configuration; b) providing a securing element having an
elongated body, and a head at one end of the body and integral
therewith, the head having a maximum diameter greater than the
smaller diameter configuration of the passageway defined by the
biased stopping member and greater than the second opening in the
stabilizing element, so that the head is retained within the
transverse passageway between the biased stopping member and the
second opening in the stabilizing element; c) positioning the body
of the securing element in the transverse passageway and
posteriorly advancing the head of the securing element within the
passageway defined by the biased stopping member and thereby
displacing the biased stopping member to form the larger diameter
configuration passageway defined thereby; and d) attaching the
stabilizing element to the bone by advancing the head of the
securing element posteriorly of the biased stopping member so that
the passageway defined thereby returns to the smaller diameter
configuration, to position the head within a posterior section of
the transverse passageway between the biased stopping member and
the second opening in the stabilizing element, and to position the
body of the securing element within the patient's bone, so that the
securing element is attached to the bone and is retained within the
posterior section of the transverse passageway of the stabilizing
element.
22. The method of claim 21 including, after the head of the
securing element is positioned between the biased stopping member
and the second opening in the stabilizing element, the step of
longitudinally and angularly displacing the head of the securing
element within the transverse passageway, so that the body of the
securing element is positioned at an angle within the patient's
bone relative to the surface of the bone.
23. An orthopedic implant assembly, comprising a) a stabilizing
element having an anterior surface, a posterior surface, and at
least one bore, the bore having a first opening in the anterior
surface, a second opening in the posterior surface smaller than the
first opening, and a transverse passageway extending from the first
opening to the second opening, and a stopping member at an anterior
section of the transverse passageway; and b) a securing element
having an elongated body and a head secured to one end of the body,
the head having a reversibly compressed configuration with a
compressed diameter less than the diameter of the first opening and
an uncompressed configuration with a diameter greater than a
diameter of the stopping member and the second opening, so that the
head of the securing element is retained within the transverse
passageway between the stopping member and the second opening in
the stabilizing element.
24. The assembly of claim 23 wherein the head of the securing
element is configured to be displaceable posteriorly through the
stopping member from an anterior to a posterior surface
thereof.
25. The assembly of claim 23 wherein the head of the securing
element has a plurality of slots and circumferentially disposed
members, the circumferentially disposed members having posterior
ends secured to the body of the securing element, and anterior ends
radially moveable toward a longitudinal axis of the head of the
securing element to form the compressed configuration and away from
the longitudinal axis to form the uncompressed configuration.
26. The assembly of claim 23 wherein the stopping member is at the
anterior end of the transverse passageway and defines the first
opening in the stabilizing element.
27. The assembly of claim 23 wherein the stopping member has a
posterior surface perpendicular to a longitudinal axis of the
transverse passageway.
28. A method of attaching an orthopedic implant assembly to a bone
of a patient, comprising a) positioning a stabilizing element
against a surface of the patient's bone, the stabilizing element
having an anterior surface, a posterior surface, and at least one
bore, the bore having a first opening in the anterior surface, a
second opening in the posterior surface smaller than the first
opening, and a transverse passageway extending from the first
opening to the second opening, and a stopping member at an anterior
section of the transverse passageway; b) providing a securing
element having an elongated body and a head secured to one end of
the body, the head having a reversibly compressed configuration
with a compressed diameter less than a diameter of the first
opening and an uncompressed configuration with a diameter greater
than the diameter of the stopping member and the second opening, so
that the head of the securing element is retained within the
transverse passageway between the stopping member and the second
opening in the stabilizing element; c) positioning the body of the
securing element in the transverse passageway and posteriorly
advancing the head of the securing element within a passageway
defined by the stopping member and thereby compressing the diameter
of the head of the securing element; and d) attaching the
stabilizing element to the bone by advancing the head of the
securing element posteriorly of the stopping member so that the
diameter of the head of the securing element returns to the
uncompressed configuration, to position the head within a posterior
section of the transverse passageway between the stopping member
and the second opening in the stabilizing element and the body of
the securing element within the patient's bone, so that the
securing element is attached to the bone and is retained within the
posterior section of the transverse passageway of the stabilizing
element.
.Iadd.29. The assembly of claim 4 wherein the collar has a height
less than the height of the groove..Iaddend.
.Iadd.30. The assembly of claim 10 wherein the body of the securing
element has a transverse dimension smaller than the second opening
of the stabilizing element, and wherein the securing element may be
angularly displaced within a posterior portion of the bore of the
stabilizing element..Iaddend.
.Iadd.31. The assembly of claim 10 wherein the stabilizing element
is selected from the group consisting of rods and
plates..Iaddend.
.Iadd.32. The assembly of claim 10 wherein the securing element is
selected from the group consisting of screws and
nails..Iaddend.
.Iadd.33. The assembly of claim 13 wherein the stabilizing element
has a concave posterior surface..Iaddend.
.Iadd.34. The assembly of claim 1 wherein the stabilizing element
includes at least two bores..Iaddend.
.Iadd.35. The assembly of claim 1 wherein the stabilizing element
is configured to conform to and extend between at least two bone
segments..Iaddend.
.Iadd.36. A method of attaching an orthopedic implant assembly to a
bone of a patient, comprising a) providing a securing member with
an elongated body and an enlarged integral portion having a maximum
transverse dimension, an attachment member which has an anterior
surface and a posterior surface and which has at least one bore
extending through the attachment member from the anterior surface
to the posterior surface and is configured to receive the securing
member, the bore having an anterior bore portion, and a posterior
bore portion with at least one transverse dimension smaller than a
transverse dimension of the anterior bore portion and smaller than
the maximum transverse dimension of the enlarged integral portion
of the securing member, and a stopping member which has a first
configuration which allows passage of the enlarged integral portion
of the securing member and has a second configuration that reduces
a transverse dimension of the bore that is smaller than the maximum
transverse dimension of the enlarged integral portion of the
securing member in order to retain the enlarged integral portion of
the securing member within the posterior bore portion of the
attachment member wherein the stopping member has an anterior
surface and a posterior surface; b) positioning the attachment
member with at least part of the posterior surface thereof against
a surface of the patient's bone; and c) attaching the securing
member to the patient's bone by advancing the securing member
within the bore of the attachment member until the enlarged
integral portion of the securing member passes the stopping member
thereby displacing the stopping member to the first configuration
and is disposed in the posterior bore portion, the stopping member
then returning to the second configuration to retain the enlarged
integral portion within the posterior bore portion; and wherein the
enlarged integral portion of the securing member is retained within
the posterior bore portion below the posterior surface of the
stopping member..Iaddend.
.Iadd.37. The method of claim 36 wherein the securing member is
angularly displaceable within the posterior bore portion so that
the securing member may be secured within the patient's bone at an
angle relative to a longitudinal axis of the bore..Iaddend.
.Iadd.38. An orthopedic implant assembly, comprising: a) a securing
element with an elongated body and an enlarged head; b) an
attachment member comprising an attachment component which has at
least one bore configured to receive the securing element, the bore
having a first bore portion, and a second bore portion having at
least one smaller transverse dimension than transverse dimensions
of the first bore portion; a stopping surface which reduces a
transverse configuration of the first bore portion to retain the
enlarged head of the securing element within the bore of the
attachment member between the stopping surface and the second bore
portion, and a third bore portion between the stopping surface and
the second bore portion having a surface configured to conform at
least in part to part of the enlarged head of the securing element
received by the bore; and c) the enlarged head of the securing
element having a reversibly compressed configuration with
transverse dimensions less than the reduced transverse
configuration of the first bore portion formed at least in part by
the stopping surface and having an uncompressed configuration with
a transverse dimension greater than the reduced transverse
configuration of the first bore portion and the second bore
portion, so that the head of the securing element is retained
within the bore between the stopping surface and the second bore
portion in the attachment component..Iaddend.
.Iadd.39. The implant assembly of claim 38 wherein the head of the
securing element is configured to be displaceable posteriorly
through the stopping surface from an anterior to a posterior
portion thereof..Iaddend.
.Iadd.40. The implant assembly of claim 38 wherein the head of the
securing element has a plurality of slots and circumferentially
disposed members having posterior ends secured to the body of the
securing element, and anterior ends radially moveable toward a
longitudinal axis of the head of the securing element to form the
compressed configuration and away from the longitudinal axis to
form the uncompressed configuration..Iaddend.
.Iadd.41. The implant assembly of claim 38 wherein the stopping
surface is at the anterior end of the bore and defines a first
opening in the attachment component..Iaddend.
.Iadd.42. The implant assembly of claim 38 wherein the stopping
surface is perpendicular to a longitudinal axis of the
bore..Iaddend.
.Iadd.43. A method of attaching an orthopedic implant assembly to a
bone of a patient, comprising a) providing an attachment member
comprising an attachment component which has at least one bore
configured to receive a securing element with an enlarged head, the
bore having a first bore portion, and a second bore portion having
at least one smaller transverse dimension than transverse
dimensions of the first bore portion, a stopping surface which
reduces a transverse configuration of the first bore portion to
retain the enlarged head of a securing element within the bore of
the attachment member between the stopping surface and the second
bore portion; b) positioning the attachment member against a
surface of the patient's bone; c) providing a securing element
having an elongated body and an enlarged head at one end of the
body which has a reversibly compressed configuration with
transverse dimensions less than the reduced transverse
configuration of the first bore portion formed by the stopping
surface and which has an uncompressed configuration with a
transverse dimension greater than the reduced transverse
configuration of the second bore portion, so that the head of the
securing element is retained within the second bore portion in the
attachment component; and d) attaching the securing element to the
patient's bone by advancing the securing element within the bore of
the attachment component until the enlarged head of the securing
element is in the second bore portion..Iaddend.
.Iadd.44. An orthopedic implant assembly, comprising: a. a
stabilizing element having an anterior surface, a posterior
surface, and at least one bore extending through the stabilizing
element from the anterior surface to the posterior surface and the
bore having an anterior bore portion with a transverse dimension
and a posterior bore portion which has a posterior opening with a
transverse dimension smaller than the transverse dimension of the
anterior bore portion; b. a securing element which is configured to
be slidably disposed within the bore of the stabilizing element and
which has an elongated body and an enlarged integral portion with a
maximum transverse dimension; and c. a stopping member which is at
least partially disposed within the bore of the stabilizing
element, which has a posterior stopping surface, a first
configuration within the bore allowing passage of the securing
element into the posterior bore portion with the enlarged integral
portion of the securing element disposed in the posterior bore
portion posterior to the stopping member and a second configuration
within the bore which has smaller transverse dimensions than the
first configuration and smaller than the maximum transverse
dimension of the enlarged integral portion of the securing element
to facilitate retention of the enlarged integral portion of the
securing element within the posterior bore portion of the
stabilizing element; and wherein the enlarged integral portion of
the securing element is retained below the posterior surface of the
stopping member..Iaddend.
.Iadd.45. The assembly of claim 44 wherein the stopping member is
configured to prevent the back-out of the securing element through
the bore of the stabilizing element..Iaddend.
.Iadd.46. The assembly of claim 44 wherein the stopping member is
biased to the second configuration..Iaddend.
.Iadd.47. The assembly of claim 46 wherein the stopping member
comprises a biased collar having a passageway
therethrough..Iaddend.
.Iadd.48. The assembly of claim 47 wherein the bore has a groove in
an anterior portion thereof configured to receive the biased
collar, and wherein the biased collar is configured to be
reversibly expandable when seated in the groove..Iaddend.
.Iadd.49. The assembly of claim 48 wherein the curved posterior
surface of the enlarged integral portion of the securing element is
configured to expand the collar as the enlarged integral portion of
the securing element is displaced posteriorly through the collar
passageway..Iaddend.
.Iadd.50. The assembly of claim 49 wherein the curved posterior
surface of the enlarged integral portion of the securing element
has a minimum transverse dimension smaller than a transverse
dimension of the passageway of the unexpanded collar, and which is
configured to contact an anterior surface of the collar and deflect
the collar away from a longitudinal axis of the collar passageway
as the enlarged integral portion of the securing element is
displaced posteriorly through the collar passageway..Iaddend.
.Iadd.51. The assembly of claim 50 wherein the collar has an
anterior surface which tapers toward the collar
passageway..Iaddend.
.Iadd.52. The assembly of claim 51 wherein the posterior bore
portion has a curved posterior surface that is configured to
receive at least in part the curved posterior surface of the
enlarged integral portion of the securing element..Iaddend.
.Iadd.53. The assembly of claim 44 wherein the enlarged integral
portion of the securing element has a curved posterior
surface..Iaddend.
.Iadd.54. The assembly of claim 44 wherein the enlarged integral
portion of the securing element is configured to be longitudinally
displaceable within the posterior bore portion of the bore of the
stabilizing element..Iaddend.
.Iadd.55. An orthopedic implant assembly, comprising: a. a
stabilizing element having an anterior surface, a posterior
surface, and at least one bore, the bore having an anterior bore
portion, a posterior bore portion with a transverse dimension
smaller than a transverse dimension of the anterior portion, b. a
stopping member at the anterior portion of the bore; and c. a
securing element having an elongated body and a head secured to the
body which is reversibly compressible with a compressed transverse
dimension less than the transverse dimension of the anterior
portion of the bore and with an uncompressed transverse dimension
greater than an inner transverse dimension of the stopping member
and the posterior portion of the bore, so that the head of the
securing element is retained between the stopping member and the
smaller transverse dimension of the posterior portion of the bore
of the stabilizing element..Iaddend.
.Iadd.56. The implant assembly of claim 55 wherein the head of the
securing element is configured to be displaceable posteriorly
through the stopping member from an anterior to a posterior surface
thereof..Iaddend.
.Iadd.57. The implant assembly of claim 55 wherein the head of the
securing element has a plurality of slots and circumferentially
disposed members, the circumferentially disposed members having
posterior ends secured to the body of the securing element, and
anterior ends radially moveable toward a longitudinal axis of the
head of the securing element to form the compressed configuration
and away from the longitudinal axis to form the uncompressed
configuration..Iaddend.
.Iadd.58. The assembly of claim 55 wherein the stopping member has
a posterior surface perpendicular to a longitudinal axis of the
bore..Iaddend.
.Iadd.59. An orthopedic attachment assembly, comprising: a. an
elongated securing element having an enlarged integral portion with
a length, an anterior surface, a posterior surface and a transverse
dimension; b. an attachment element which has an anterior surface
and a posterior surface and which has at least one bore extending
through the attachment element from the anterior surface to the
posterior surface and is configured to receive the securing
element, the bore having an anterior bore portion, and a posterior
bore portion, the posterior bore portion having at least one
transverse dimension smaller than the transverse dimension of the
enlarged integral portion of the securing element to facilitate
retention of the enlarged integral portion of the securing member
within the posterior bore portion; and c. a biased stopping member
which has a posterior stopping surface, a first configuration which
extends within the bore that is elastically deformed to a second
configuration as the enlarged portion of the securing member passes
into the posterior bore portion, the biased stopping member
returning to the first configuration upon passage of the enlarged
integral portion into the posterior bore portion, the posterior
stopping surface of the biased stopping member configured to engage
with the anterior surface of the enlarged integral portion of the
securing member facilitating retention of the enlarged portion of
the securing member within the posterior bore portion of the
attachment member..Iaddend.
.Iadd.60. The attachment assembly of claim 59 wherein the first
configuration of the stopping member has inner transverse
dimensions that are smaller than transverse dimensions of the
enlarged integral portion of the securing member to facilitate
retention of the enlarged integral portion of the securing member
within the posterior bore portion and the second configuration of
the stopping member has inner transverse dimensions that are
greater than transverse dimensions of the enlarged integral portion
of the securing member to allow passage of the enlarged integral
portion of the securing member into the posterior bore
portion..Iaddend.
.Iadd.61. The attachment assembly of claim 59 wherein the securing
element having an enlarged integral portion is slidably disposed
within the bore..Iaddend.
.Iadd.62. The attachment assembly of claim 61 wherein a portion of
the securing member posterior to the enlarged integral portion has
transverse dimensions sufficiently smaller than the transverse
dimensions of the posterior bore portion so the securing member may
be angularly displaced within the bore..Iaddend.
.Iadd.63. The attachment assembly of claim 62 wherein the posterior
surface of the enlarged integral portion of the securing member is
configured at least in part to conform to the posterior surface of
the posterior bore portion to facilitate angulation of the securing
member within the posterior bore portion..Iaddend.
.Iadd.64. The attachment assembly of claim 63 wherein the posterior
surface of the posterior bore portion has a bowl
shape..Iaddend.
.Iadd.65. The attachment assembly of claim 64 wherein the
bowl-shaped posterior surface of the posterior bore portion at
least in part is a hemispherical zone..Iaddend.
.Iadd.66. The attachment assembly of claim 61 wherein the securing
member is selected from the group consisting of screws and
nails..Iaddend.
.Iadd.67. The attachment assembly of claim 61 wherein a posterior
surface of the posterior bore portion is configured to conform at
least in part to the posterior surface of the enlarged integral
portion of the securing member so as to facilitate angular
displacement within the posterior bore portion..Iaddend.
.Iadd.68. The attachment assembly of claim 71 wherein the collar is
formed of an elastically deformable material..Iaddend.
.Iadd.69. The attachment assembly of claim 71 wherein the collar is
formed of a material selected from the group consisting of titanium
and superelastic material..Iaddend.
.Iadd.70. The attachment assembly of claim 71 wherein the collar
has a posterior surface perpendicular to a longitudinal axis of the
bore extending through the attachment member..Iaddend.
.Iadd.71. The attachment assembly of claim 59 wherein the biased
stopping member is a collar having at least in part a passageway
enlargeable from a first inner dimension to a second inner
dimension by the passage of the enlarged integral portion of the
securing member therethrough..Iaddend.
.Iadd.72. The attachment assembly of claim 71 wherein the bore has
a groove which receives the collar..Iaddend.
.Iadd.73. The attachment assembly of claim 71 wherein the enlarged
integral portion of the securing member has a curved posterior
surface which is configured to contact an anterior surface of the
collar and expand the collar as the enlarged integral portion of
the securing member is displaced posteriorly through the collar
passageway..Iaddend.
.Iadd.74. The attachment assembly of claim 73 wherein the anterior
surface of the collar tapers inwardly toward the collar
passageway..Iaddend.
.Iadd.75. The attachment assembly of claim 59 wherein the
attachment member includes at least two bores..Iaddend.
.Iadd.76. The attachment assembly of claim 59 wherein the
attachment member is configured to conform to and extend between at
least two bone segments..Iaddend.
.Iadd.77. The attachment assembly of claim 59 wherein the posterior
surface of the attachment member is at least in part a concave
surface..Iaddend.
.Iadd.78. The attachment assembly of claim 59 wherein the
attachment member is selected from the group consisting of rods and
plates..Iaddend.
.Iadd.79. The attachment assembly of claim 59, wherein a. the
enlarged integral portion of the elongated securing member has a
curved posterior surface; and b. the posterior bore portion has a
curved posterior surface configured to conform at least in part to
part of the curved posterior surface of the enlarged integral
portion of the securing member received by the bore..Iaddend.
.Iadd.80. The assembly of claim 59 wherein the stopping element
comprises a biased collar..Iaddend.
.Iadd.81. The assembly of claim 80 wherein the biased collar is
elastically deformable to the second configuration..Iaddend.
.Iadd.82. The assembly of claim 81 wherein the biased collar
extends at least partially within the bore of the stabilizing
element..Iaddend.
.Iadd.83. The attachment assembly of claim 59, wherein the stopping
member is a biased stopping member which reduces a transverse
configuration of the anterior bore portion to retain the enlarged
integral portion of the securing member within the posterior bore
portion of the attachment member..Iaddend.
.Iadd.84. The attachment assembly of clam 59 wherein the biased
stopping member resiliently returns to the first configuration
after passage of the enlarged integral portion of the securing
member..Iaddend.
.Iadd.85. The orthopedic attachment assembly of claim 59 wherein
the posterior bore portion has a length sufficiently greater than
the length of the enlarged integral portion of the securing element
so that the enlarged integral portion of the securing element is
longitudinally displaceable within the posterior bore portion when
retained therein..Iaddend.
.Iadd.86. The orthopedic attachment assembly of claim 59 wherein,
a. the elongated securing element has an enlarged integral portion
with a length, a posterior surface and a transverse dimension and a
shaft extending from the enlarged integral portion configured to be
secured within bone; b. the attachment element has an anterior
surface and a posterior surface and has at least one bore extending
through the attachment element from the anterior surface to the
posterior surface and is configured to receive the securing
element, the bore having an anterior bore portion, a posterior bore
portion having at least one transverse dimension smaller than the
transverse dimension of the enlarged integral portion of the
securing element to retain the enlarged integral portion of the
securing element within the posterior bore portion; and c. the
stopping member defines in part a passageway in the posterior bore
portion, said posterior bore portion being longer than the length
of the enlarged integral portion of the securing element to allow
longitudinal displacement of the enlarged integral portion of the
securing element within the posterior bore portion..Iaddend.
.Iadd.87. The orthopedic attachment assembly of claim 86 wherein
the securing element has a portion posterior to the enlarged
integral portion that has a transverse dimension smaller than a
transverse dimension of an opening in the posterior bore portion to
provide angular displacement of the securing element within the
posterior bore portion..Iaddend.
.Iadd.88. The orthopedic attachment assembly of claim 87 wherein
the enlarged integral portion of the securing element has a maximum
transverse dimension which is greater than the second transverse
dimension of the stopping member..Iaddend.
.Iadd.89. The orthopedic attachment assembly of claim 88 wherein
the enlarged integral portion of the securing element has a tapered
posterior surface configured to expand the stopping member upon the
passage therethrough..Iaddend.
.Iadd.90. The orthopedic attachment assembly of claim 86 wherein
the second configuration of the stopping member has a transverse
dimension that is larger than the transverse dimension of the
stopping member in the first configuration..Iaddend.
.Iadd.91. The assembly of claim 59 wherein the posterior stopping
surface of the stopping member is perpendicular to the longitudinal
axis of the bore..Iaddend.
.Iadd.92. An orthopedic attachment assembly, comprising: a. an
elongated securing member having a biased enlarged portion with a
length, an anterior surface, a posterior surface and a transverse
dimension; b. an attachment member which has an anterior surface
and a posterior surface and which has at least one bore extending
through the attachment member from the anterior surface to the
posterior surface and is configured to receive the securing member,
the bore having an anterior bore portion, a posterior bore portion
having at least one transverse dimension smaller than the
transverse dimension of the biased enlarged portion of the securing
member to facilitate retention of the enlarged portion of the
securing member within the posterior bore portion; and c. a
stopping member which has an anterior surface, and a posterior
stopping surface which extends within the bore; d. the biased
enlarged portion of the securing member is elastically deformed
from a first configuration to a second configuration as the biased
enlarged portion passes the stopping member during the passage of
the biased enlarged portion of the securing member into the
posterior bore portion of the attachment member, the biased
enlarged portion of the securing member returning to the first
configuration after passage of the biased enlarged portion into the
posterior bore portion of the attachment member, engagement of the
posterior stopping surface of the stopping member with the anterior
surface of the biased enlarged portion of the securing member
facilitating retention of the biased enlarged integral portion of
the securing member within the posterior bore portion of the
attachment member..Iaddend.
.Iadd.93. The orthopedic implant assembly of claim 92 wherein the
biased enlarged portion of the securing element comprises at least
one resilient member that deflects longitudinally when the securing
element is advanced posteriorly through the bore of the stabilizing
element..Iaddend.
.Iadd.94. The assembly of claim 92 wherein the biased enlarged
portion of the securing element comprises a biased
collar..Iaddend.
.Iadd.95. The assembly of claim 92 wherein the compressible part of
the enlarged portion of the securing element comprises at least one
circumferentially disposed member..Iaddend.
.Iadd.96. The assembly of claim 95 wherein the at least one
circumferentially disposed member has a posterior end secured to
the shaft of the securing element..Iaddend.
.Iadd.97. The assembly of claim 96 wherein the securing element
comprises a plurality of circumferentially disposed members having
posterior ends secured to the shaft of the securing
element..Iaddend.
.Iadd.98. An orthopedic attachment assembly, comprising: a. an
elongated securing element having an enlarged integral portion with
a length, an anterior surface, a posterior surface and a transverse
dimension; b. an attachment member which has an anterior surface
and a posterior surface and which has at least one bore extending
through the attachment member from the anterior surface to the
posterior surface and is configured to receive the securing
element, the bore having an anterior bore portion, a posterior bore
portion having at least one transverse dimension smaller than the
transverse dimension of the enlarged integral portion of the
securing element; and c. a plurality of biased stopping members
that are part of the attachment member, each of said stopping
members having a posterior stopping surface, a first configuration
wherein the stopping members extend within the bore and wherein the
stopping members are elastically deformed by the passage of the
enlarged portion of the securing element to a second configuration
to allow passage of the enlarged portion of the securing element
into the posterior bore portion, the biased stopping members
returning to the first configuration upon passage of the enlarged
portion and the posterior stopping surfaces configured to engage
the anterior surface of the securing element facilitating retention
of the enlarged integral portion of the securing element within the
posterior bore portion of the attachment member..Iaddend.
.Iadd.99. The orthopedic implant assembly of claim 98 wherein the
biased stopping members are contractible fingers..Iaddend.
.Iadd.100. The orthopedic implant assembly of claim 98 wherein the
plurality of biased stopping members comprise resilient
longitudinally deflectable members which have first un-deflected
configurations within the anterior bore portion and deflected
configurations which allow the enlarged integral portion of the
securing element to pass into the posterior bore portion, the one
or more deflectable members having posterior surfaces that are
configured to engage an anterior surface of the enlarged integral
portion of the securing element to prevent the back-out of the
enlarged integral head of the securing element from the posterior
bore of the stabilizing element and facilitate retention of the
enlarged integral head of securing element within the posterior
bore portion..Iaddend.
.Iadd.101. An orthopedic implant assembly, comprising: a. a
stabilizing element having an anterior surface, a posterior
surface, and at least one bore extending through the stabilizing
element from the anterior surface to the posterior surface with an
anterior bore portion which has a transverse dimension, a posterior
bore portion which has a posterior opening with a transverse
dimension smaller than the transverse dimension of the anterior
bore portion; b. a securing element having an elongated body and an
enlarged integral portion having an anterior surface; and c. a
biased stopping member which has a posterior stopping surface,
which has a first configuration within the anterior bore portion
that has a first transverse dimension and is elastically deformable
to a second configuration within the anterior bore portion that has
a second transverse dimension larger than the first transverse
dimension that allows the enlarged integral portion of the securing
element to pass into the posterior bore portion posterior to the
biased stopping member, the biased stopping member returning to the
first configuration so that the posterior surface of the stopping
member is positioned to engage the anterior surface of the securing
element and prevents the securing element from backing out of the
posterior bore portion and to facilitate retention of the enlarged
integral portion of the securing element within the posterior bore
portion..Iaddend.
.Iadd.102. The orthopedic implant assembly of claim 101 wherein the
biased stopping member elastically returns from the first
configuration back to the second configuration..Iaddend.
.Iadd.103. The assembly of claim 101 wherein the biased stopping
member comprises a collar..Iaddend.
.Iadd.104. The assembly of claim 103 wherein the biased collar is
disposed in part within a recess of the stabilizing
element..Iaddend.
.Iadd.105. The assembly of claim 104 wherein the recess is a groove
configured to slidably receive the biased collar..Iaddend.
Description
BACKGROUND OF THE INVENTION
This invention generally relates to the field of medical devices,
and particularly to an orthopedic implant for joining bone segments
and methods of use thereof.
A variety of medical conditions may necessitate the joining of bone
segments together, as for example, in the treatment of broken
bones, spinal disorders, or the fusion of vertebrae following the
removal of a spinal disk. Orthopedic implants used to join bone
segments include rods, plates, and screws. In the case of rods and
plates, the implants have been attached to the bone using a variety
of methods including cementing and screwing the implant to the
bone. The bone is typically drilled out to receive the screw
therein, or to receive an anchor having a hollow shank which
fixedly receives the screw therein. However, one disadvantage has
been the tendency of the implants to loosen or detach from the bone
over time.
It would be a significant advance to provide an orthopedic implant
for joining bone segments together which durably and securely
attaches to the bone.
SUMMARY OF THE INVENTION
This invention is directed to an orthopedic implant assembly
generally comprising a stabilizing element, a securing element
which attaches the stabilizing element to the patient's bone, and a
stopping member in the stabilizing element which defines at least
in part a passageway and which inhibits or prevents the securing
element from loosening or backing out of the bone.
The stabilizing element is generally a plate or rod, which has at
least one bore therein having a first opening in the anterior
surface of the stabilizing element, a second opening in the
posterior surface of the stabilizing element, and a transverse
passageway extending from the first opening to the second opening.
The term posterior should be understood to mean an inner portion of
the assembly closer to the bone to which the assembly is attached,
and the term anterior should be understood to mean an outer portion
of the assembly farther away from the bone.
In one embodiment, the stopping member defines a reversibly
expandable passageway, and is biased to the unexpanded, or smaller
diameter, passageway configuration. In one embodiment, the biased
stopping member comprises an annular collar having a reversibly
expandable inner diameter. The biased stopping member may be
configured to be positioned in a groove in the transverse
passageway after the securing element is in place in the transverse
passageway of the stabilizing element. Alternatively, in a
presently preferred embodiment, the biased stopping member is
configured to allow the securing element to pass posteriorly
through the stopping member passageway from the anterior surface of
the stabilizing element into a posterior section of the transverse
passageway. In another embodiment, the biased stopping member is
secured to the stabilizing element within the transverse
passageway, and is deflectable. The deflectable stopping member
reversibly flexes as the head of the securing element is
posteriorly displaced through the deflectable stopping member to
expand the passageway defined by the stopping member. The
deflectable stopping member is biased to the undeflected or smaller
diameter passageway configuration. The stopping member prevents the
securing element from anteriorly backing out of the posterior
section of the transverse passageway. As a result, the securing
element durably attaches the stabilizing element to the bone.
The securing element is configured to attach to bone, and generally
comprises an elongated body and a head at one end of the body and
integral therewith. The term integral should be understood to mean
the securing element is a one-piece unit, with the head secured to
the body so that there is no relative movement between the head and
the body. In one embodiment, the securing element is selected from
the group consisting of screws, pins, and nails. In a presently
preferred embodiment where the collar is seated within the groove
in the stabilizing element before the securing element is advanced
therein, the head of the securing element has a shaped posterior
surface which contacts the collar and gradually expands the collar
as the head is displaced into the posterior section of the
transverse passageway of the stabilizing element. In a presently
preferred embodiment, the head of the securing element has a curved
posterior surface. However, other suitable shapes may be used
including tapered posterior surfaces.
The invention also includes methods of attaching an orthopedic
implant assembly to a bone of a patient. The bone is typically
prepared for receiving the body of the securing element, as for
example by drilling a cavity into the bone, and/or tapping the
cavity. A method generally comprises positioning the posterior
surface of the stabilizing element against the surface of the bone,
with the stopping member within the groove of the stabilizing
element in the unexpanded configuration, introducing the body of
the securing element into the transverse passageway, posteriorly
displacing the head of the securing element through the stopping
member and thereby expanding the stopping member, and attaching the
stabilizing element to the bone by advancing the head of the
securing element posteriorly of the stopping member so that the
stopping member contracts and returns to a smaller transverse,
i.e., unexpanded diameter, configuration. The head of the securing
element is positioned within a posterior section of the transverse
passageway between the stopping member and the second opening in
the stabilizing element, and the body of the securing element is
positioned within the patient's bone. In an alternative embodiment,
the stopping member may be placed within the groove after the head
of the securing element is positioned within the posterior section
of the transverse passageway. The stabilizing element is attached
to the bone by the securing element, which is attached to the bone
and retained within the transverse passageway.
In another embodiment of the invention, the head of the securing
element can be reversibly compressed, and the stopping member is
secured to an anterior section of the transverse passageway. The
stopping member defines a passageway with a fixed diameter, but the
compressed configuration of the head of the securing element has a
diameter less than the diameter of the stopping member so that the
head can pass through the stopping member passageway. In the
uncompressed configuration, the head of the securing element has a
diameter larger than the diameter of the stopping member and the
diameter of the second opening in the stabilizing element, so that
the head can be advanced posteriorly of the stopping member and
retained within the transverse passageway between the stopping
member and the second opening.
To facilitate the correct placement of the orthopedic implant
assembly on the bone, the transverse passageway between the collar
and the second opening in the stabilizing element may be configured
so that the securing element may be angularly displaceable therein
and the body of the securing element may be positioned at an angle
within the patient's bone.
In the assembly of the invention, the securing element is prevented
from backing out of the bone by the interaction of the securing
element head and the stopping member. As a result, a separate
anchor means implanted in the bone to receive the screw is not
required, and the resulting loss of bone and intraoperative time
required to implant the anchor is avoided. Moreover, in a preferred
embodiment, the stopping member is within the transverse passageway
at the beginning of the procedure, so that the surgeon can attach
the implant assembly to the bone with the single motion of
advancing the securing element through the stopping member
passageway and into the bone. The implant assembly of the invention
thus reduces the time required to attach the assembly to the bone
and provides improved implant performance.
The orthopedic implant assembly of the invention can be durably
attached to bone, and the securing element prevented from
significantly backing out of the bone due to the head of the
securing element being retained within the stabilizing element.
These and other advantages of the invention will become more
apparent from the following detailed description of the invention
and the accompanying exemplary drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is an elevational view of an orthopedic implant assembly
which embodies features of the invention.
FIG. 2 is an exploded view, partially in section, of the orthopedic
implant assembly shown in FIG. 1.
FIG. 3 is a cross section of the orthopedic implant assembly shown
in FIG. 1 taken along lines 3-3.
FIG. 3A is a transverse cross section of the orthopedic implant
assembly shown in FIG. 3 taken along lines 3A-3A.
FIG. 4 illustrates the orthopedic implant assembly shown in FIG. 3,
as the securing element is being advanced into the patient's
bone.
FIG. 4A is a transverse cross section of the assembly shown in FIG.
4, taken along lines 4A-4A.
FIG. 5 illustrates the orthopedic implant assembly shown in FIG. 3,
with the securing element advanced into the posterior section of
the transverse passageway of the stabilizing element.
FIG. 6 illustrates the orthopedic implant assembly shown in FIG. 3,
with the securing element angularly disposed within the patient's
bone.
FIG. 7 is an exploded view, partially in section, of an orthopedic
implant assembly having a securing element with a compressible
head, which embodies features of the invention.
FIG. 8 illustrates the orthopedic implant assembly shown in FIG. 7
as the securing element is being advanced into the patient's
bone.
FIGS. 9 is a transverse cross section of the assembly shown in FIG.
8, taken along lines 9-9.
FIG. 10 illustrates the orthopedic implant assembly shown in FIG. 7
with the securing element advanced into the posterior section of
the transverse passageway of the stabilizing element.
FIG. 11 is a transverse cross section of the assembly shown in FIG.
10, taken along lines 11-11.
FIG. 12 illustrates the orthopedic implant assembly shown in FIG.
7, with the securing element angularly disposed within the
patient's bone.
FIG. 13 is an exploded view, partially in section, of an orthopedic
implant assembly having a deflectable stopping member, which
embodies features of the invention.
FIG. 14 illustrates the orthopedic implant assembly shown in FIG.
13 with the securing element advanced into the posterior section of
the transverse passageway of the stabilizing element.
FIGS. 15 is a plan view of the assembly shown in FIG. 14, taken
along lines 15-15.
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 illustrates one embodiment of the orthopedic implant
assembly 10 of the invention, generally including a stabilizing
element 11, with a biased stopping member 12 in a bore 13 therein,
and a securing element 14, configured for securing to a patient's
bone 15. In the embodiment illustrated in FIG. 1, the biased
stopping member comprises an annular collar, although a variety of
suitable members may be used, as for example, one or more
contractible fingers biased to extend into the transverse
passageway (not shown).
As best illustrated in FIG. 2 showing an exploded, partially in
section, view of the assembly shown in FIG. 1, the bore 13 of the
stabilizing element has a first opening 16 in an anterior surface
of the stabilizing element, a second opening 17 in a posterior
surface of the stabilizing element, a transverse passageway 18
extending therein, and a groove 21 in an anterior portion of the
transverse passageway. Annular collar 12 defines a passageway 22,
and is configured to be seated within the groove 21, and has a
reversibly expandable inner and outer diameter. As illustrated in
FIG. 3, illustrating the assembly shown in FIG. 1 partially in
section taken along lines 3-3, and FIG. 3A illustrating a
transverse cross sectional view of the assembly shown in FIG. 3
taken along lines 3A-3A, the annular collar 12 is biased to an
unexpanded outer diameter which is less than the diameter of the
groove and greater than the diameter of the transverse passageway,
so that the collar seats within the groove. The expanded outer
diameter of the collar is less than the diameter of the groove, and
the height of the collar is less than the height of the groove, so
that the collar can be expanded therein.
The securing element 14 has an elongated body 23 and an integral
head 24 secured to one end of the body 23. In a presently preferred
embodiment of the invention illustrated in FIG. 1, the securing
element comprises a screw. The head of the securing element is
configured to be posteriorly displaceable through the passageway 22
of the collar seated within the groove, from an anterior to a
posterior surface of the collar, and retained within a posterior
section 25 of the transverse passageway 18 between the posterior
surface of the collar 12 and the second, i.e., posterior, opening
17 in the stabilizing element. In the embodiment illustrated in
FIG. 1, the head of the securing element has a curved posterior
surface 26 with a convex shape and with a smaller diameter than an
anterior surface of the head. The curved posterior surface 26 has a
minimum outer diameter which is smaller than the unexpanded inner
diameter of the collar, and which is positionable within the
passageway of the collar, to contact and expand the collar as the
head is displaced posteriorly therein.
FIGS. 3-5 illustrate the attachment of the assembly to the
patient's bone. As illustrated in FIG. 3, the stabilizing element
is positioned against a surface of a bone 15, and the posterior end
of the body of the securing element 14 is placed within the
stabilizing element transverse passageway. The head 24 of the
securing element is posteriorly advanced within the passageway 22
of the collar 12, thereby applying a radially expanding force
against an inner surface of the collar to expand the inner diameter
of the collar, as illustrated in FIG. 4 showing the expanded collar
and the head of the securing element partially displaced through
the collar passageway. Arrows in FIG. 4 illustrate the expansion of
the collar as the head of the securing element is passed
therethrough. FIG. 4A illustrates a transverse cross section of the
assembly shown in FIG. 4, taken along lines 4A-4A. The expanded
inner diameter of the collar is therefore larger than the maximum
diameter of the head of the securing element, to allow the head of
the securing element to pass posteriorly through the collar. The
head of the securing element is advanced posteriorly of the collar
and into the posterior section 25 of the transverse passageway, so
that the collar returns to the unexpanded configuration having an
unexpanded inner diameter smaller than the maximum diameter of the
head of the securing element, as illustrated in FIG. 5. In the
embodiment illustrated in FIG. 5, the flat anterior surface of the
head of the securing element has a diameter which is larger than
the unexpanded inner diameter of the collar, and the posterior
surface of the collar is perpendicular to the longitudinal axis of
the transverse passageway. Thus, the anterior surface of the head
will butt up against the posterior surface of the collar without
expanding the collar, to prevent the securing element from being
anteriorly displaced out of the posterior section of the transverse
passageway. In the embodiment illustrated in the FIG. 5, a
posterior portion of the transverse passageway is curved to conform
to the curved posterior surface of the head, providing maximum
contact between the securing element and the stabilizing element.
The curved surfaces of the posterior portion of the transverse
passageway and the posterior surface of the head have the same
radius of curvature, and the diameter of the curved surface of the
head is large enough so that the wall defining the transverse
passageway contacts the head around the circumference of the curved
posterior surface of the head, but is small enough so that the head
can be displaced within the transverse passageway. With the head of
the securing element positioned within the posterior section 25 of
the transverse passageway, the body of the securing element is
embedded in, and secured to, the bone of the patient.
In the embodiment illustrated in FIG. 5, the posterior section 25
of the transverse passageway is sufficiently longer than the head
24 of the securing element so that the head can be displaced
anteriorly and posteriorly, and is thus longitudinally displaceable
within the posterior section of the transverse passageway.
Additionally, the body of the securing element 23 has a smaller
diameter than the diameter of the second opening 17 in the
stabilizing element, and can be displaced from side to side, i.e.,
medial-lateral displacement, within the second opening 17. As a
result, the securing element is angularly displaceable within the
transverse passageway posterior section 25 between the collar 12
and the second opening 17 in the stabilizing element, as
illustrated in FIG. 6. The securing element can thus be tilted
within the transverse passageway at an angle relative to the
transverse passageway longitudinal axis, to facilitate positioning
the securing element at a desired location in the bone by advancing
the body of the securing element within the bone at an angle
relative to the surface of the bone. The securing element can be
angularly displaced up to an angle of about 45.degree., preferably
up to about 20.degree. relative the longitudinal axis of the
transverse passageway.
The stopping member 12 is preferably elastically deformable, and
formed of titanium, and superelastic or pseudoelastic materials
such as NiTi alloys. The unexpanded inner diameter of the stopping
member is about 0.1 to about 40 mm, preferably about 0.5 to about
20 mm, and is about 0.05 to about 20 mm, preferably about 0.1 to
about 15 mm less than the maximum transverse dimension of the head
of the securing element. The unexpanded outer diameter of the
stopping member is about 0.2 to about 50 mm, preferably about 1.0
to about 30 mm. The expanded inner diameter of the stopping member
is about 0.15 to about 50 mm, preferably about 0.75 to about 30 mm,
and the expanded outer diameter of the stopping member is about 0.5
to about 60 mm, preferably about 1.5 to about 40 mm. The height of
the stopping member is about 0.01 to about 5 mm, preferably about
0.05 to about 3 mm.
FIGS. 7-12 illustrate another embodiment of the invention,
generally comprising a securing element 30, and a stabilizing
element 31 similar to the stabilizing element in the embodiment
illustrated in FIG. 1, except the stopping member is not seated
within a groove in the transverse passageway 18. Instead, a
stopping member 32 is provided at an anterior section of the
transverse passageway, which may be formed integrally with the
stabilizing element or as a separate member secured thereto. In the
embodiment illustrated in FIG. 7, the stopping member is a collar
at the anterior end of the transverse passageway and defining the
first opening 16 in the stabilizing element 31. The securing
element 30 has an elongated body 33, and head 34 secured to one end
of the body having a compressed configuration and an uncompressed
configuration. In the embodiment illustrated in FIG. 7, the head
has a plurality of slots 35 defining circumferentially spaced
members 36 having posterior ends secured to the body of the
securing element. The circumferentially spaced members 36 have
anterior ends radially moveable toward a longitudinal axis of the
head to form the compressed configuration, having a diameter less
than the inner diameter of the collar. FIG. 8 illustrates the head
of the securing element in the compressed configuration within the
passageway defined by the collar. FIG. 9 illustrates a transverse
cross sectional view of the assembly shown in FIG. 8, taken along
lines 9-9. FIG. 10 illustrates the head of the securing element
advanced posteriorly of the collar and into the posterior section
of the transverse passageway, thereby returning the
circumferentially spaced members 36 to the uncompressed
configuration by release of the radially compressive force of the
collar. FIG. 11 illustrates a transverse cross section of the
assembly shown in FIG. 10, taken along lines 11-11, with the first
opening 16 shown in phantom. The securing element is angularly and
longitudinally displaceable within the transverse passageway
posterior section 25, as discussed above with regard to the
embodiment illustrated in FIG. 1, and as illustrated in FIG.
12.
FIGS. 13-15 illustrate another embodiment of the invention,
generally comprising a stabilizing element 41 similar to the
stabilizing element in the embodiment illustrated in FIG. 1, except
with a deflectable stopping member 42 provided in an anterior
section of the transverse passageway, which may be formed
integrally with the stabilizing element or as a separate member
secured thereto. In the embodiment illustrated in FIG. 13, the
stopping member comprises a collar 42 having a plurality of slots
43 defining circumferentially spaced members 44 and a tapered or
sloping anterior surface providing axial flexibility in a posterior
direction, so that the collar deflects posteriorly when the head of
the securing element is posteriorly displaced through the collar.
As a result, the circumferentially spaced members 44 have a wedge
shape and a height which tapers towards the central passageway 45
defined by the collar, which facilitates displacing the head of the
securing element therethrough and reversibly enlarging the
passageway 45. In the embodiment illustrated in FIG. 13, the collar
is integrally formed with the stabilizing element 41 at the
anterior end of the transverse passageway, and defines the first
opening 16 in the stabilizing element 41. The securing element may
be the same as, or similar to, the securing element 14 discussed
above in connection with the embodiment illustrated in FIG. 1, and
as illustrated in FIG. 13. However, securing element 30 having head
34 with a compressed configuration and an uncompressed
configuration, as discussed above in connection with the embodiment
illustrated in FIG. 7, may also be used. FIG. 15 illustrates a plan
view of the assembly shown in FIG. 14, taken along lines 15-15,
with the head of the securing element 14 partially in phantom. The
angular and longitudinal displacement of the securing member in the
posterior section 25 of the transverse passageway is as discussed
above.
The stabilizing element is preferably formed of a metal such as
titanium or stainless steel. The length of the stabilizing element
is typically about 7 to about 300 mm, preferably about 13 to about
200 mm, and the width of the stabilizing element is typically about
5 to about 50 mm, preferably about 10 to about 30 mm. The height of
the stabilizing element is typically about 0.5 to about 10 mm,
preferably about 1.0 to about 6.0 mm although the dimensions of the
stabilizing element will vary depending on the application for
which the assembly is to be used.
The securing element is preferably formed of a metal, such as
titanium or stainless steel. The head of the securing element is
configured, as for example with a hexagonal opening, for releasable
connection to a tool for advancing the securing element into the
bone. The body of the securing element has a length of about 2 to
about 50 mm, preferably about 5 to about 20 mm, and the head of the
securing element has a length of about 0.05 to about 1.5 mm,
preferably about 0.5 to about 1.0 mm. One skilled in the art will
recognize that a variety of suitable securing elements may be used,
which may be optimized for use in a particular orthopedic
environment, as is well known in the art. For example, a high
thread pitch may be used to limit screw back out from bone.
The assembly of the invention is suitable for use in a variety of
medical procedures, including securing fractured bone segments or
vertebrae following disk removal. In the illustrated embodiments,
the stabilizing element comprises a plate, although other suitable
elements such as rods may be used. Additionally, the stabilizing
element may be shaped to conform to the surface of the bone or
bones to which it will be attached. For example, a presently
preferred embodiment of the stabilizing element comprises a plate
with a concave posterior surface, and is configured for attaching
to vertebrae.
While the present invention has been described herein in terms of
certain preferred embodiments, those skilled in the art will
recognize that modifications and improvements may be made without
departing from the scope of the invention. For example, while the
stopping member is discussed primarily in terms of a collar, other
configurations may also be used. Additionally, while a particular
feature may be discussed in connection with one embodiment, it
should be understood that features of one embodiment may be used
with the other embodiments herein.
* * * * *