The present invention relates generally to bone plates, and more specifically, to bone plates for the fixation of parts of a fractured bone, preferably long bones, including the femur and the tibia.
A bone plate is a plate that is fastenable to the surface of a bone typically at both sides of a fracture to support and/or stabilize the fracture. Bone plates have typically been attached to the bone with bone screws that extend from the plate into the bone. In some examples, the head of the bone screw is locked to the plate (e.g., by threaded engagement between the screw head and the bone plate) and in other plates the head of the screw is free to angulate with respect to the plate, such that the screw may be placed in the bone at a surgeon-selected angle. In yet other examples, the screw head may cooperate with the bone plate to provide compression or distraction of the fracture (i.e., to push the bone fragments towards or away from one another).
When treating certain types of fractures, such as that of the proximal portion of the femur, there may be high stresses at the bone-screw and/or screw-plate interfaces. Several different types of bone plates have been developed to accommodate these high stresses. In one example known as a “blade plate,” the bone plate may have a blade-shaped portion that extends approximately perpendicularly to the plate, and extends into a channel formed in the bone through the fracture site. In another example, a lag screw may extend from a barrel portion of the plate and through the fracture site. With both of these systems, however, a large amount of bone must be removed to accommodate the blade or barrel. In addition, the surgical procedures are technically difficult, as the bone must be removed with precision in order to allow proper positioning of the bone plate on the bone.
The present invention in one embodiment is directed to a bone plate having a longitudinal axis and comprising an upper surface, a lower surface, a first hole for engaging an end portion of a first bone anchor, the first hole being configured and adapted to fix a shaft of the first bone anchor along a first axis, and a second hole spaced apart from the first hole along the longitudinal axis, the second hole for engaging an end portion of a second bone anchor and configured and adapted to fix a shaft of the second bone anchor along a second axis. The first hole and the second hole may be configured such that the first axis and the second axis define a single plane and intersect at a point below the lower surface of the bone plate. The bone plate may further include a third hole for engaging an end portion of a third bone anchor such that a shaft of the third bone anchor is fixed along a third axis, wherein the third hole preferably is located between the first and second holes and the third axis lies at an angle relative to the plane defined by the first and second axes. The first, second, and third holes may be positioned along the longitudinal axis of the bone plate. A shaft of the first bone anchor may contact or nearly contact a shaft of a second bone anchor. The first, second and third bone anchors may be bone screws, blades, or other anchors known to one of ordinary skill in the art for engaging bone.
According to one illustrative embodiment, the plane defined by the first and second axes may lay at an angle relative to a plane bisecting the bone plate along the longitudinal axis and or the central axis. Additionally or alternatively, the first and second holes may be configured such that the first and second axes define an acute angle at the point of intersection.
Preferably, at least one of the first and second holes may be threaded to engage threads on the end portion of a bone screw, or alternatively, at least one of the first and second holes may be dimensioned and configured for an end of a bone screw to be press fit therein. Preferably, at least one of the first and second holes are configured so that the bone anchor will be fixed to the bone plate when engaged therewith at a predetermined angle with respect to the plane formed by the lower surface of the bone plate at the location of the respective hole. The angle formed between the lower surface of the bone plate and the axis of one of the bone anchors may be approximately perpendicular, and optionally the angle between the axis of the second bone anchor and the lower surface forms an acute angle. More preferably, the angles of the axes of the bone anchors which are predetermined by the nature of the bone anchors engagement with the respective hole, are such that the bone anchors will form a truss formation. More preferably, at least one or more holes in the bone plate are oriented such that bone anchors engaged in the bone plate are fixed, and at least a first bone anchor, preferably its tip, contacts at least a second bone anchor along the length of the second bone anchor.
The bone plate may also include at least one combination hole for receiving a bone screw, the combination hole having a first portion and a second portion, wherein the first portion defines a substantially circular outer periphery defining a first center point, and the second portion defines an elongated outer periphery that defines a second center point. The elongated outer periphery may be elongated in a direction substantially parallel to the longitudinal axis of the plate, and the second portion may overlap the first portion. A plurality of threads may be disposed on the first portion of the combination hole for threadably engaging the head of a bone screw. The second portion of the combination hole may be configured and dimensioned to engage a substantially spherical head of a bone screw.
The present invention in another embodiment is also directed to bone plating systems including a bone plate and various combinations of bone anchors (e.g., bone screws, blades, etc.). The bone plate may also include a first end and a second end, in which the first end is configured for following the contour of the bone. The first end may include a hook configured to engage bone tissue. The hook may include an edge located below the lower surface of the bone plate for penetrating into bone tissue. The edge of the hook may be formed by two spaced apart talons.
The bone plate may also comprise a first section having a first longitudinal axis, a second section defining a second longitudinal axis, and a transition section connecting the first section to the second section such that an included angle is defined between the first longitudinal axis and the second longitudinal axis. The included angle between the first and second longitudinal axes may be obtuse, acute or approximately right angled. The first section, the second section and the transition sections may be integral with one another made from a single piece of material, or alternatively joined together by techniques known to one of ordinary skill in the art. Additionally, the first section may be longer than the second section, and the transition section may connect the first section to the second section such that the bone plate is substantially L-shaped or T-shaped. The transition section may also be bent or twisted to connect the first section to the second section which may locate the second section in a plane different from that of the first section. The upper surface of the transition section may be substantially S-shaped. The lower surface of the first, second and transition sections may also define radius of curvature along their longitudinal axes.
The present invention is also generally directed to a method of using a bone plate according to the present invention for reducing bone fractures. The method comprises the steps of affixing an embodiment of a bone plate according to the present invention across the gap of a fracture zone and engaging the threaded head of a bone screw in a threaded hole of the bone plate so as form a threaded locked engagement. The threaded hole is configured for threaded locked engagement with the threaded head of the bone screw. The threaded hole may fix the bone screw along an axis at such an angle relative to the lower surface of the bone plate such that upon the threaded locked engagement of the bone screw with the bone plate, the gap of the bone fracture is reduced.
To facilitate an understanding of the characteristics, structure and operation of the invention, preferred exemplary features of the invention are described in the accompanying discussion, it being understood that the invention in its various embodiments is not limited to the preferred examples illustrated and, wherein similar reference characters denote similar elements throughout the several views or embodiments, and wherein:
For convenience, the same or equivalent elements in various embodiments of the bone plate illustrated in the drawings have been identified with the same reference numerals. Further, in the description that follows, any reference to either orientation or direction is intended primarily for the convenience of description and is not intended in any way to limit the scope of the present invention thereto.
A first illustrative embodiment of a bone plate 10 is shown in
As shown in
Now referring to
First and second holes 24, 28 may each be configured for engaging the head of a bone anchor. More preferably, first and second holes 24, 28 may be configured for fixing and locking with the bone anchor and more preferably for fixing the bone anchor in a fixed, predetermined orientation with respect to the lower surface 22 of the bone plate 10 or the exterior surface of the bone in to which it is inserted, for example, by threaded engagement, interference or press fitting, or any other form of joining the plate 10 with the screw heads known to one of ordinary skill in the art. The bone anchor is fixed to the plate such that its shaft or shank would extend along the central axes 26, 30 of the holes 24, 28 in the bone plate 10. In the illustrative embodiment shown in
An example of such a bone anchor is shown in
Another bone anchor that may be in a fixed and locked engagement with first and second holes 24, 28 is the spiral blade 310 shown in
Referring back to
Referring again to
As is shown in
As shown in
The central axis 36 of the third hole 34 may be configured to intersect the axis 26 of the first hole 24, and in addition or alternatively the central axis 36 may be configured to intersect the central axis 30 of the second bore hole 28. The third bone anchor 120 may contact the first bone screw 110 at the tip 105 of the bone screw 110 or at another location along the shaft 104 of the first bone screw 110. Alternatively, or in addition there to, the third screw 120 may contact the second bone screw 115 at its tip 105, or at some other location along the shank 104 of the second bone screw 115. In one embodiment, the third bone screw may contact both the first and second bone screw 110, 115, along their respective lengths, and all three bone screws may contact each other at their respective tips 105.
Reference is now made to
As shown in 28, the hole 90 may have three regions: an upper region 92, a middle region 94, and a lower region 96. The upper region 92 of the hole 90 may have an unthreaded inner surface 93 which, is preferably smooth, although texturing may be provided. In a preferred embodiment, the upper region 92 may have a curved inward taper, preferably concave, more preferably spherical, from the top surface of the plate 10 to where the upper region 92 of the hole 90 meets the middle region 94. The upper region 92 of the hole 90 is preferably narrowest where it meets the middle region 94. In a preferred embodiment, the upper region may comprise about 25% to about 35% of the thickness of the plate 10. In a preferred embodiment, the diameter of the upper region 92, at the region's broadest point, may be about 6 mm and, at the region's narrowest point, may be about 4 mm.
The middle region 94 of the hole 90 may have a threaded inner surface 95. The threaded inner surface 95 may, in a direction from the upper surface to the lower surface of the plate 10, have a conical inward taper. In a preferred embodiment, the threaded inner surface 95 may taper at an angle α of approximately 5° to 15°, and preferably approximately 10°. The middle region 94 may be the narrowest region (i.e., smallest-diameter region) of the hole 90. In a preferred embodiment, the middle region 94 may comprise about 40% to 50% of the thickness of the plate 10. In a preferred embodiment, the diameter of the middle region 94 may vary only slightly (due to the relatively shallow conical taper) and may be about 4 mm. The diameter or taper of the middle region 94 may of course vary depending upon the size and/or taper of the screw.
The lower region 96 of the hole 90 may have an unthreaded inner surface 97 which is preferably smooth, although texturing may be provided. In a preferred embodiment, the lower region 96 may, from where it meets the middle region 94 to the lower surface of the plate, have a conical outward taper. In a preferred embodiment, the lower region 96 may taper outwardly at an angle β of approximately 35° to 55°, and preferably approximately 45°. In a preferred embodiment, the lower region 96 may comprise about 20% to 35% of the thickness of the plate. In a preferred embodiment, the diameter of the lower region 96, at the region's narrowest point, may be about 4 mm and, at the region's broadest point, may be about 6 mm.
Different types of screws may be used with the hole 90. One type of screw is a screw that has a conically-tapered threaded head. The external threads of the screw's head may mate with the internal threads 95 of the middle region 94 of the hole 90. This threaded-head screw may be inserted at only one angle (with respect to the plate), which may be fixed by the threads 95 in the plate 10.
A second type of screw that may be used with the hole 90 is a screw with a threaded shaft, but with an unthreaded head. An unthreaded-head screw may be inserted into hole 90 at any one of a number of angles. The conical outward taper (shown at surface 97) of the lower region 96 of the hole 90 provides room for the screw shaft to be inserted at an angle with respect to the center of the hole 90. Likewise, the curved inward taper of the upper region 92 of the hole 90 provides a seat (at surface 93) for the screw head to rest in when an unthreaded-head screw is inserted at an angle. A threaded-head screw may be used with a coaxial combination hole 90 in the same manner as the aforementioned unthreaded-head screw.
Although virtually any type of bone plate may benefit from coaxial combination holes 90, coaxial combination holes are particularly useful for pubic symphysis plates and other relatively small bone plates.
Referring again to
Bone plate 10 may be provided with any number of holes as may be suitable for a specific surgical application. For example, as shown in
Elongated portion 46 may be configured and dimensioned to engage a substantially spherical screw-head of a bone screw (not shown). Additionally or alternatively, a conically shaped screw head, with or without threads, may engage the elongated portion 46. As shown in
Still referring to
Reference is now made to
An internal thread 87 may be provided on circular portion 83. An internal thread 88 may be provided on circular portion 84. Threads 87 and 88 may extend substantially over the entire thickness of the bone plate from the upper surface 20 to the lower surface 22.
Shown in
Shown in
Shown in
Referring to
The first and second holes 424, 428 may be located in the same section of the bone plate 410, or alternatively the first hole 424 may be located in a section different from that of the second hole 428. Where the first and second hole 424, 428 are in the same section of the bone plate 410, the plane defined by the intersection of 426, 430 may be coplanar with a plane that bisects that same section of the bone plate 410 where the first and second holes 424, 428 are located. Alternatively, the plane defined by the intersection of central axes 426, 430 may be at an angle with respect to the plane that bisects bone plate 410 (not shown). The angle formed by the bisecting plane and the plane defined by intersecting central axes 426, 430 may range from about 0° to about 60°, or range to about 15°, or range from about 3° to about 6°.
A further embodiment, bone plate 610 shown in
As shown in
Referring now to
The bone plates 410, 610, 810 may also be provided with at least a third hole defining a third central axis, in which the third hole may be variably configurable as the first and second holes 424, 428 previously described. The third hole may be engageable with the head or end portion of a bone anchor, for example bone screw 100 having a shaft 104 and tip 105. Specifically referring to
Shown in the
As shown in
Referring now to
First, second and third truss structures may be formed by any number of combinations of bone anchors in any number of configurations. Additionally, bone plate 610 may be provided with additional holes as is necessary to form the desired number of truss structures. Moreover, the first, second, third and any additional truss structures may or may not contact or nearly contact one or more of the other truss structures. Preferably, the second, third and additional truss structures may be angled so as to intersect a plane defined by the first truss structure.
Another example is shown in the embodiment of bone plate 410. In
Bone plates 410, 610, 810 may yet further include additional holes, threaded or unthreaded, for receiving additional bone anchors for anchoring the bone plates 410, 610, 810 to bone. For example, bone plates 410, 610, 810 may include a plurality of combination holes 438, 638, 838, which are similar to the combination holes 38 described above in reference to
The bone plates 10, 910, 410, 610, and 810 may vary in both length and width, but generally the length exceeds the width so as to define a generally longitudinal member. The length of the bone plates may range from about 50 mm. to about 500 mm. Bone plate 10 may preferably range in length from about 135 mm. to about 435 mm. Bone plate 910 may preferably range in length from about 145 mm. to about 480 mm. Bone plate 410 may preferably range in length from about 75 mm. to about 235 mm. Bone plate 610 may preferably range in length from about 81 mm. to about 240 mm. Bone plate 810 may preferably range in length from about 105 mm to about 350 mm. Any section of bone plates 10, 910, 410, 610 and 810 may also vary in width from about 5 mm. to about 10 mm. to about 18 mm. Where one section of the bone plate is perpendicular to the other, the widest part of the bone plate may be as much as 35 mm. The thickness of the plates may vary as well from approximately 3 mm to about 5 mm. In addition the bone plates may vary in thickness in along its length. For example, shown in
While preferred embodiments and features of the present invention have been disclosed herein, it will be appreciated that numerous modifications and embodiments may be devised by those skilled in the art. It is intended that the appended claims cover all such modifications and embodiments as fall within the true spirit and scope of such claims and that the claims not be limited to or by such preferred embodiments or features.
This is a continuation application of U.S. patent application Ser. No. 13/092,625, filed on Apr. 22, 2011, which is a continuation of U.S. patent application Ser. No. 10/843,113, filed on May 11, 2004, now U.S. Pat. No. 7,951,176, which in turn claims priority to U.S. Provisional Patent Application Ser. No. 60/474,279, filed on May 30, 2003.
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Number | Date | Country |
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611147 | May 1979 | CH |
670755 | Jul 1989 | CH |
3722852 | Jan 1989 | DE |
3743638 | Jul 1989 | DE |
4004941 | Aug 1990 | DE |
4201531 | Jul 1993 | DE |
4341980 | Jun 1995 | DE |
4343117 | Jun 1995 | DE |
4438264 | Mar 1996 | DE |
19636733 | Apr 1997 | DE |
9321544 | Sep 1999 | DE |
19858889 | Jun 2000 | DE |
10015734 | Sep 2001 | DE |
10125092 | Dec 2001 | DE |
0180532 | May 1986 | EP |
0207884 | Jan 1987 | EP |
0251583 | Jan 1988 | EP |
0274713 | Jul 1988 | EP |
0290138 | Nov 1988 | EP |
0291632 | Nov 1988 | EP |
0299160 | Jan 1989 | EP |
0337288 | Oct 1989 | EP |
0381462 | Aug 1990 | EP |
0382256 | Aug 1990 | EP |
0471418 | Feb 1992 | EP |
0532421 | Mar 1993 | EP |
0546460 | Jun 1993 | EP |
0649635 | Apr 1995 | EP |
0668059 | Aug 1995 | EP |
0760231 | Mar 1997 | EP |
1132052 | Mar 2000 | EP |
1468655 | Oct 2004 | EP |
742618 | Mar 1933 | FR |
2233973 | Jan 1975 | FR |
2405062 | May 1979 | FR |
2405705 | May 1979 | FR |
2405706 | May 1979 | FR |
2496429 | Jun 1982 | FR |
2606268 | May 1988 | FR |
2622431 | May 1989 | FR |
2650500 | Feb 1991 | FR |
2671966 | Jul 1992 | FR |
2677876 | Dec 1992 | FR |
2706763 | Dec 1994 | FR |
2757370 | Jun 1998 | FR |
2802082 | Jun 2001 | FR |
2017502 | Oct 1979 | GB |
2090745 | Jul 1982 | GB |
2245498 | Jan 1992 | GB |
2257913 | Jan 1993 | GB |
2121652 | May 1990 | JP |
3158150 | Jul 1991 | JP |
4138152 | May 1992 | JP |
6125918 | May 1994 | JP |
6245941 | Sep 1994 | JP |
898846 | Apr 1996 | JP |
8126650 | May 1996 | JP |
8257034 | Oct 1996 | JP |
8266562 | Oct 1996 | JP |
9108237 | Apr 1997 | JP |
1176259 | Mar 1999 | JP |
11276501 | Oct 1999 | JP |
11299804 | Nov 1999 | JP |
11318930 | Nov 1999 | JP |
2000000247 | Jan 2000 | JP |
2000-152944 | Jun 2000 | JP |
2001149379 | Jun 2001 | JP |
2001161704 | Jun 2001 | JP |
2001-514039 | Sep 2001 | JP |
2002095673 | Apr 2002 | JP |
2002345836 | Dec 2002 | JP |
2003024344 | Jan 2003 | JP |
2003038508 | Feb 2003 | JP |
2003038509 | Feb 2003 | JP |
2003-509107 | Mar 2003 | JP |
1279626 | Dec 1986 | SU |
WO 9211819 | Jul 1992 | WO |
WO 9311714 | Jun 1993 | WO |
WO 9315678 | Aug 1993 | WO |
WO 9322982 | Nov 1993 | WO |
WO 9402073 | Feb 1994 | WO |
WO 9532674 | Dec 1995 | WO |
WO 9617556 | Jun 1996 | WO |
WO 9708999 | Mar 1997 | WO |
WO 9709000 | Mar 1997 | WO |
WO 9802105 | Jan 1998 | WO |
WO 9805263 | Feb 1998 | WO |
WO 0053110 | Sep 2000 | WO |
WO 0053111 | Sep 2000 | WO |
WO 0119267 | Mar 2001 | WO |
WO 0119268 | Mar 2001 | WO |
WO 0189400 | Nov 2001 | WO |
WO 02071963 | Sep 2002 | WO |
WO 03022166 | Mar 2003 | WO |
WO 03028567 | Apr 2003 | WO |
WO 2004043277 | May 2004 | WO |
WO 2004107957 | Dec 2004 | WO |
WO 2005044121 | May 2005 | WO |
WO 0189400 | Nov 2011 | WO |
Entry |
---|
ACE Symmetry™, “Curves in All the Right Places”, Titanium Upper Extremity Plates, Ace Medical Company, 1996, 3 pages. |
Number | Date | Country | |
---|---|---|---|
20130296943 A1 | Nov 2013 | US |
Number | Date | Country | |
---|---|---|---|
60474279 | May 2003 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 13092625 | Apr 2011 | US |
Child | 13930411 | US | |
Parent | 10843113 | May 2004 | US |
Child | 13092625 | US |