JP2021087505A - Bone fixation plate - Google Patents

Abstract

To provide a bone fixation plate which allows dynamization in a fracture part of a bone and supply of the blood from a muscle to the fracture part even when thicknesses of the muscles of a patient are different.SOLUTION: A bone fixation plate 1 comprises: a first plate 10 which has a first fixation part 10F, a first opposite part 13 and a first coupling part 14; and a second plate 20 which has a second fixation part 20F, a second opposite part 23 and a second coupling part 24. The first opposite part 13 and the second opposite part 23 are configured to able to get close/separate to/from each other, and the relative displacement and relative rotation in another direction are regulated. Since the first coupling part 14 is configured to extend and contract, the interval between the first fixation part 10F and the first opposite part 13 can be changed. Since the second coupling part 24 is configured to extend and contract, the interval between the second fixation part 20F and the second opposite part 23 can be changed.SELECTED DRAWING: Figure 3

Description

The present invention relates to a bone fixation plate used to fix a bone at the time of fracture.

Conventionally, a bone fixing plate for fixing a relatively large bone such as a femur in a state where the divided bones are joined is known (for example, Patent Document 1 and Patent Document 2). See).

Japanese Patent Application Laid-Open No. 2015-571349 Japanese Unexamined Patent Publication No. 2011-139856

It is known that when the fractured part is completely fixed by the bone fixing plate, the healing (union) of the fractured part is delayed. On the other hand, it is known that when a large movement occurs in the fractured portion, minute capillaries are ruptured, thereby inhibiting bone union. Therefore, in order to heal a fracture with good quality, a method of fixing the fracture portion using "dynamization", which allows a certain degree of fine movement, may be used.

When dynamization is used, it recognizes the fact that the living body is fractured by repeating minute movements due to intermittent axial pressure in the fractured part. Then, the living body grasps the fractured part and sends cells and cytokines (proteins produced by the cells) to repair the fracture to the fractured part to try to heal it. Patent Document 1 describes a fixture that enables such dynamization in a fractured portion of a bone.

On the other hand, when trying to attach the bone fixation plate along the bone at the fractured part, it is necessary to detach the muscle from the bone. For this reason, the microvessels from the muscle to the periosteum and osteoblasts on the bone surface are cut, blood is not supplied to the periosteum and osteoblasts, and the osteoblasts die and the healing of the fracture is hindered. There is. In order to solve this problem, Patent Document 2 states that by separating the connecting portion of the two fixing plates from the bone, the muscle is not separated from the periosteum and the blood supply from the muscle is not obstructed at the fractured portion. Bone fixation plates are described.

By applying the technique described in Patent Document 2 to the bone fixation plate described in Patent Document 1, a bone fixation plate that does not obstruct the blood supply from the muscle while enabling dynamization at the fractured portion of the bone is formed. Can be done.

However, according to the bone fixing plate configured as described above, since the distance from the fractured portion to the connecting portion of the fixing plate is constant, it is necessary to prepare a bone fixing plate for each muscle thickness in the fractured portion. .. That is, it was difficult to apply the bone fixation plate for each case where the muscle thickness of the patient was different. In addition, since the shape of the bone differs depending on the fracture site, it is difficult to deform the plate accordingly.

The present invention has been made in view of the above circumstances, and the problem to be solved by the present invention is that even if the muscle thickness of the patient is different, dynamization is possible at the fractured portion of the bone, and the problem is solved. It is to provide a bone fixation plate that allows the supply of blood from the muscle to the fractured part.

Hereinafter, means for solving the above problems will be described.

The present invention is a bone fixing plate for fixing a first bone and a second bone divided by a fracture in a joined state, the first fixing portion fixed to the first bone, and the above. A first plate including a first facing portion fixed at a position separated from the first bone, and a first connecting portion connecting the first fixing portion and the first facing portion. A second fixing portion fixed to the second bone, a second facing portion fixed at a position away from the second bone, and the second fixing portion and the second facing portion. A second connecting portion and a second plate including the first facing portion and the second facing portion are configured so as to be close to each other and relative displacement in other directions. And relative rotation is restricted, and the circumferential width of the first bone in the first connecting portion and the second connecting portion is the circumferential width in the first fixing portion and the second fixing portion. By forming the first connecting portion to be expandable and contractible so as to be smaller than the width of the above, the distance between the first fixing portion and the first facing portion can be changed. Since the second connecting portion is configured to be expandable and contractible, the distance between the second fixing portion and the second facing portion can be changed.

With this configuration, even if the muscle thickness of the patient is different, it is possible to perform dynamization at the fractured portion of the bone and to supply blood from the muscle to the fractured portion.

Further, in the bone fixing plate, the first connecting portion includes a first fixing side base extending from the first fixing portion and a first facing base extending from the first facing portion. The second connecting portion includes, a second fixed side base extending from the second fixing portion, and a second facing base extending from the second facing portion. The first fixed-side base and the first opposed-side base are connected so as to be able to advance and retreat while one is inserted into the other, so that the first connecting portion can be expanded and contracted. It is preferable that the second fixed side base portion and the second opposite side base portion are connected so as to be able to advance and retreat while one of them is inserted into the other so that the second connecting portion can be expanded and contracted.

With this configuration, the first and second connecting portions can be expanded and contracted, and can be applied when the muscle thickness is different.

Further, in the bone fixing plate, the first connecting portion includes a first fixing side base extending from the first fixing portion and a first facing base extending from the first facing portion. The second connecting portion includes, a second fixed-side base extending from the second fixing portion, and a second opposing base extending from the second opposing portion. The first fixed-side base and the first opposed-side base are connected to each other by a first adjusting member so as to be close to each other, so that the first connecting portion can be expanded and contracted, and the second It is preferable that the fixed side base portion and the second facing side base portion are connected to each other by a second adjusting member so as to be close to each other so that the second connecting portion can be expanded and contracted.

With this configuration, the first and second connecting portions can be expanded and contracted, and can be applied when the muscle thickness is different.

Further, in the bone fixing plate, the first facing portion and the second facing portion are fixed in a fixed state in which the relative positions in the proximity and separation directions are fixed, and the relative positions in the proximity and separation directions are variable. It is preferable to be in either a movable state or a movable state.

With this configuration, the first and second facing portions can be used in two states, a fixed state and a movable state.

Further, in the bone fixing plate, it is preferable that the length of the first fixing portion and the second fixing portion is variable in the axial direction of the first bone and the second bone.

With this configuration, the length of the fixing portion can be adjusted and fixed according to the length of the bone.

Further, in the bone fixing plate, the connecting portion between the first connecting portion and the first fixing portion, the connecting portion between the first connecting portion and the first facing portion, and the second connecting portion. At least one of the connecting portion with the second fixing portion and the connecting portion between the second connecting portion and the second facing portion has an angle adjusting mechanism that changes the relative angle between the two. It is preferable to be provided.

With this configuration, even if there is an angle between the part where the first fixing part is fixed and the part where the second fixing part is fixed in the fractured part of the bone, the bone fixing plate is fixed according to the bone shape. be able to.

According to the bone fixation plate according to the present invention, even if the muscle thickness of the patient is different, it is possible to perform dynamization at the fractured portion of the bone and to supply blood from the muscle to the fractured portion. It works.

The plan view which shows the use state of the bone fixation plate which concerns on 1st Embodiment. The perspective view which shows the use state of the bone fixation plate which concerns on 1st Embodiment. The perspective view which shows the bone fixation plate which concerns on 1st Embodiment. The cross-sectional view which shows the 1st use state of the bone fixation plate which concerns on 1st Embodiment. The cross-sectional view which shows the 2nd use state of the bone fixation plate which concerns on 1st Embodiment. The cross-sectional view which shows the 3rd use state of the bone fixation plate which concerns on 1st Embodiment. The perspective view which shows a part of the bone fixation plate which concerns on the modification of 1st Embodiment. The side view which shows the use state of the bone fixation plate which concerns on the modification of 1st Embodiment. The cross-sectional view which shows the 1st use state of the bone fixation plate which concerns on 2nd Embodiment. The cross-sectional view which shows the 2nd use state of the bone fixation plate which concerns on 2nd Embodiment.

Hereinafter, the bone fixation plate 1 according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 4. The bone fixation plate 1 is a member used when a human or an animal fractures a bone B, and is fixed along the longitudinal direction of the bone B. Specifically, as shown in FIG. 1, the bone fixation plate 1 is fixed in a state where the first bone B1 and the second bone B2 divided by the fracture portion F are joined. For convenience of explanation, tissues other than bone B, such as muscles and blood vessels, are not shown in FIGS. 1 and 2.

The bone fixation plate 1 includes a first plate 10 fixed to the first bone B1 and a second plate 20 fixed to the second bone B2. The first plate 10 and the second plate 20 are configured to have the same configuration except for the first facing portion 13 and the second facing portion 23, which are portions connecting each other. Therefore, in the following, the first plate 10 will be mainly described, and detailed description of the configuration common to the first plate 10 in the second plate 20 will be omitted.

As shown in FIGS. 1 to 3, the first plate 10 has a curved plate-shaped first fixing portion 10F fixed to the first bone B1 and a thickness of the first bone B1 to the first fixing portion 10F. A first facing portion 13 fixed at a position separated in the longitudinal direction and a first connecting portion 14 for connecting the first fixing portion 10F and the first facing portion 13 are provided. Similarly, the second plate 20 is located at a position where the curved plate-shaped second fixing portion 20F fixed to the second bone B2 and the second fixing portion 20F are separated from the second bone B2 in the thickness direction. A second facing portion 23 fixed to the above, and a second connecting portion 24 connecting the second fixing portion 20F and the second facing portion 23 are provided.

The first fixing portion 10F is composed of a first supporting portion 11 and a first adjusting portion 12 which are configured so as to be close to each other. The first support portion 11 is a member that supports the first connecting portion 14. A first fixing hole 11a is formed through the first support portion 11. Further, a recess is formed in the first support portion 11, and an adjustment groove-shaped portion 11b is formed on the inner peripheral surface of the recess. A plurality of fixed-side adjusting holes 11c are opened in the first support portion 11 so as to penetrate the portion where the recess is formed.

The first adjusting portion 12 is configured so as to be close to and separated from the first supporting portion 11. An adjusting portion fixing hole 12a is formed through the first adjusting portion 12. Further, the first adjusting portion 12 is formed with a convex portion that can be inserted into the concave portion of the first support portion 11, and the adjusting protruding portion 12b is formed on the outer peripheral surface of the convex portion. The first adjusting portion 12 is opened with a movable side adjusting hole 12c that penetrates the convex portion.

As shown in FIGS. 2 and 3, the convex portion of the first adjusting portion 12 is inserted into the concave portion of the first supporting portion 11, and the adjusting protruding portion 12b can slide inside the adjusting groove-shaped portion 11b. To. As a result, the first adjusting portion 12 can be brought close to and separated from the first supporting portion 11 along the longitudinal direction of the bone B.

Both the fixed side adjusting hole 11c and the movable side adjusting hole 12c are in a state where the first adjusting portion 12 is displaced with respect to the first supporting portion 11 and the first fixed portion 10F has an appropriate length. The first adjusting portion 12 is fixed to the first supporting portion 11 by inserting a fixing tool such as a fixing pin (not shown). In addition to the fixing pin, other members such as screws can be used as the fixing tool. Further, a fixing tool such as a screw is screwed into each of the fixing side adjusting holes 11c from both sides of the first supporting portion 11, and the first adjusting portion 12 is made stronger with respect to the first supporting portion 11. It is also possible to have a configuration that is fixed to.

Then, as shown in FIG. 1, the fixing screw S, which is a fixture, is inserted into the first fixing hole 11a of the first support portion 11 and the adjusting portion fixing hole 12a of the first adjusting portion 12, and the fixing screw S is inserted. Is screwed into the first bone B1, so that the first fixing portion 10F is fixed to the first bone B1.

As shown in FIG. 2, the first fixing portion 10F is formed in a curved shape in a direction orthogonal to the longitudinal direction of the bone B, whereby the bone fixing plate 1 is fixed along the surface of the bone B. Can be done. The second fixing portion 20F is composed of a second supporting portion 21 and a second adjusting portion 22 which are configured so as to be close to each other. Since the configuration of the second fixing portion 20F is substantially the same as that of the first fixing portion 10F, detailed description thereof will be omitted. In addition, in FIGS. 1 to 3, the first fixed portion 10F shows the extended state, and the second fixed portion 20F shows the shortened state.

The first facing portion 13 and the second facing portion 23 are configured so as to be close to each other. As shown in FIGS. 2 and 3, a recess is formed in the second facing portion 23, and a facing groove-shaped portion 23a is formed on the inner peripheral surface of the recess. A plurality of fixed-side facing adjustment holes 23b are opened in the second facing portion 23 so as to penetrate the portion where the recess is formed.

The first facing portion 13 is formed with a convex portion that can be inserted into the concave portion of the second facing portion 23, and the facing protruding portion 13a is formed on the outer peripheral surface of the convex portion. A movable side facing adjustment hole 13b that penetrates the convex portion is opened in the first facing portion 13.

As shown in FIGS. 2 and 3, the convex portion of the first facing portion 13 is inserted into the concave portion of the second facing portion 23, and the facing protruding portion 13a is slidable inside the facing groove-shaped portion 23a. To. As a result, the first facing portion 13 can be brought close to and separated from the second facing portion 23 along the longitudinal direction of the bone B. At this time, the first facing portion 13 and the second facing portion 23 have a relative displacement other than the axial direction and a relative rotation due to the sliding of the facing protruding portion 13a inside the facing groove-shaped portion 23a. It is regulated.

The first facing portion 13 and the second facing portion 23 are first obtained by inserting a fixing tool such as a fixing pin (not shown) into both the fixed side facing adjusting hole 23b and the movable side facing adjusting hole 13b. The facing portion 13 can be fixed to the second facing portion 23. In this way, the first facing portion 13 and the second facing portion 23 are in a fixed state in which the relative positions in the proximity and separation directions are fixed, and a movable state in which the relative positions in the proximity and separation directions are variable. , Is set to any of the states.

The first connecting portion 14 is composed of an upper connecting portion 14U and a lower connecting portion 14D which are configured so as to be close to each other. The lower connecting portion 14D is configured as a first fixed side base extending from the first supporting portion 11 in the first fixing portion 10F. The upper connecting portion 14U is configured as a first facing base portion extending from the first facing portion 13.

A recess is formed in the upper connecting portion 14U, and a height adjusting groove-shaped portion 14b is formed on the inner peripheral surface of the recess. A plurality of upper height adjusting holes 14c are opened in the upper connecting portion 14U so as to penetrate the portion where the recess is formed.

The lower connecting portion 14D is formed with a convex portion that can be inserted into the concave portion of the upper connecting portion 14U, and the height adjusting protruding portion 14a is formed on the outer peripheral surface of the convex portion. The lower connecting portion 14D is opened with a lower height adjusting hole 14d penetrating the convex portion.

As shown in FIGS. 2 and 3, the convex portion of the lower connecting portion 14D is inserted into the concave portion of the upper connecting portion 14U, and the height adjusting protruding portion 14a can slide inside the height adjusting groove-shaped portion 14b. Will be done. As a result, the upper connecting portion 14U can be brought close to and separated from the lower connecting portion 14D along the direction orthogonal to the bone B. As described above, in the bone fixing plate 1, the first connecting portion 14 is configured to be expandable and contractible, so that the distance between the first fixing portion 10F and the first facing portion 13 can be changed. ..

In a state where the upper connecting portion 14U is displaced with respect to the lower connecting portion 14D to reach an appropriate height, a fixing pin or the like (not shown) is provided in both the upper height adjusting hole 14c and the lower height adjusting hole 14d. By inserting the fixture, the upper connecting portion 14U is fixed to the lower connecting portion 14D. In addition to the fixing pin, other members such as screws can be used as the fixing tool.

The second connecting portion 24 is composed of an upper connecting portion 24U and a lower connecting portion 24D which are configured so as to be close to each other. In this way, the second connecting portion 24 is configured to be expandable and contractible like the first connecting portion 14, so that the distance between the second fixing portion 20F and the second facing portion 23 can be changed. Has been done. Since the configuration of the second connecting portion 24 is substantially the same as that of the first connecting portion 14, detailed description thereof will be omitted.

As described above, in the bone fixing plate 1 according to the present embodiment, the first plate 10 and the second plate 10 and the second plate 10 and the second plate 1 are made movable by making the relative positions of the first facing portion 13 and the second facing portion 23 variable. The plate 20 and the plate 20 are configured so as to be close to each other, and relative displacement and relative rotation in other directions are regulated. By allowing the axial displacement in the fractured portion F in this way, dynamization can be generated in the fractured portion F.

That is, when the living body exercises or the like, the fractured portion F is repeatedly subjected to minute movements due to intermittent pressure in the axial direction, so that cells and cytokines (proteins produced by the cells) that repair the fracture are released from the fractured portion. It can be sent to and healed. At this time, by restricting the displacement other than the axial displacement of the bone fixing plate 1, it is possible to prevent the fractured portion F from being subjected to a rotational force other than the axial direction, and the capillaries may be torn, which may adversely affect healing. The sex can be reduced. That is, it is possible to promote the fusion of bones in the fractured portion F, and it is possible to maintain a good fixed state.

In the bone fixing plate 1, when the relative positions of the first facing portion 13 and the second facing portion 23 are fixed and fixed, the fracture portion F is configured so as not to generate dynamization as described above. be able to. That is, the bone fixing plate 1 can adjust the presence or absence of dynamization by switching the relative positions of the first facing portion 13 and the second facing portion 23 between the movable state and the fixed state.

Further, in the bone fixing plate 1 according to the present embodiment, the first facing portion 13 and the second facing portion 23 are formed at positions separated from the bone B. This allows the periosteum and muscle to remain in contact at the outer peripheral portion of the fractured portion. For this reason, it becomes easier to deliver nutrients to the fractured portion via the capillaries passing through the muscles, so that bone fusion can be further promoted.

Further, as shown in FIG. 3, in the bone fixing plate 1 according to the present embodiment, the width of the bone B in the first connecting portion 14 and the second connecting portion 24 in the circumferential direction is the first fixing portion 10F and the first connecting portion 24. It is formed so as to be smaller than the width in the circumferential direction of the second fixed portion 20F. As a result, the first connecting portion 14 and the second connecting portion 24 can be formed along the muscle direction. Therefore, the invasion to the muscle can be reduced.

Further, as shown in FIG. 3, in the bone fixing plate 1 according to the present embodiment, the first connecting portion 14 is configured to be expandable and contractable, so that the first fixing portion 10F and the first facing portion 13 are connected to each other. The interval can be changed. Further, since the second connecting portion 24 is configured to be expandable and contractible, the distance between the second fixing portion 20F and the second facing portion 23 can be changed.

Specifically, in the bone fixing plate 1 according to the present embodiment, the first connecting portion 14 is a lower connecting portion 14D which is a first fixing side base portion and an upper connecting portion which is a first facing side base portion. It is equipped with 14U. Further, the second connecting portion 24 includes a lower connecting portion 24D which is a second fixed side base portion and an upper connecting portion 24U which is a second facing side base portion.

Then, as shown in FIG. 3, the lower connecting portion 14D is inserted into the upper connecting portion 14U and is connected so as to be able to advance and retreat, so that the first connecting portion 14 can be expanded and contracted, and the lower connecting portion 24D can be expanded and contracted. The second connecting portion 24 can be expanded and contracted by being connected so as to be able to advance and retreat while being inserted into the upper connecting portion 24U.

As described above, in the bone fixing plate 1 according to the present embodiment, the distance between the first fixing portion 10F and the first facing portion 13 and the distance between the second fixing portion 20F and the second facing portion 23 can be changed. There is. As a result, as shown in FIGS. 4A to 4C, even if the thickness of the muscle M is different, the bone fixation plate 1 can be formed by adjusting the lengths of the first connecting portion 14 and the second connecting portion 24. It can be used for fractured parts.

Specifically, when the patient's muscle M is thick, as shown in FIG. 4A, a bone fixing plate 1H having an elongated length of the first connecting portion 14 and the second connecting portion 24 is formed on the bone B. Fix it. On the other hand, when the muscle M of the patient is thin, as shown in FIG. 4C, a bone fixing plate 1L having a shortened length of the first connecting portion 14 and the second connecting portion 24 is formed and fixed to the bone B. When the patient's muscle M is medium, as shown in FIG. 4B, a bone fixing plate 1M having a medium length of the first connecting portion 14 and the second connecting portion 24 is formed and fixed to the bone B. To do.

As described above, according to the bone fixation plate 1, even if the muscle thickness of the patient is different, dynamization is possible at the fractured portion of the bone, and blood can be supplied from the muscle to the fractured portion.

Further, in the bone fixing plate 1 according to the present embodiment, the lengths of the first fixing portion 10F and the second fixing portion 20F are variable in the axial direction of the first bone B1 and the second bone B2. To. As a result, the first fixing portion 10F and the second fixing portion 20F can be adjusted to an appropriate length according to the length of the bone B, so that the bone fixing plate 1 is stably fixed to the bone B. can do.

In the bone fixing plate 1 according to the present embodiment, the first facing portion 13 and the second facing portion 23 can be slidable by inserting the facing protruding portion 13a inside the facing groove-shaped portion 23a. However, it is also possible to have another configuration in the shape of the first facing portion 13 and the second facing portion 23. For example, a ridge portion having a rectangular cross section is formed on the outer peripheral surface of the convex portion of the first facing portion 13, and a groove portion having the same shape as the ridge portion is formed on the inner peripheral surface of the concave portion of the second facing portion 23. To form. Then, by inserting the ridge portion into the inside of the groove portion, the ridge portion and the groove portion are engaged with each other. With such a configuration, the relative displacement and the relative rotation of the bone B in the directions other than the longitudinal direction may be restricted between the first facing portion 13 and the second facing portion 23.

Further, a cylindrical convex portion is formed in the first facing portion 13, and a cylindrical concave portion is formed in the second facing portion 23. Then, by inserting the convex portion into the concave portion, the concave portion and the convex portion are engaged with each other. With such a configuration, the relative displacement and the relative rotation of the bone B in the directions other than the longitudinal direction may be restricted between the first facing portion 13 and the second facing portion 23.

The bone fixation plate 1 according to the present embodiment can be configured as a bone fixation plate 1t provided with an angle adjusting mechanism T as a modification shown in FIGS. 5 and 6. In this modification, in the first plate 10t constituting the bone fixing plate 1t, an angle adjusting mechanism T is provided at the connecting portion between the first connecting portion 14 and the first facing portion 13. Since the second plate 20t is provided with the same angle adjusting mechanism T as the first plate 10t, detailed description thereof will be omitted (see FIG. 6).

As shown in FIG. 5, the angle adjusting mechanism T is opened to a rotating shaft 13c that rotatably supports the first facing portion 13 and the first connecting portion 14 and the first facing portion 13. It is composed of an angle fixing hole 13d and a plurality of (seven in this modified example) angle adjusting holes 14e opened in the first connecting portion 14.

The bone fixing plate 1t can adjust the angle between the first connecting portion 14 and the first facing portion 13 by adjusting the position of the angle fixing hole 13d to an arbitrary angle adjusting hole 14e. In that state, by inserting a fixing tool such as a fixing pin into the angle fixing hole 13d and the angle adjusting hole 14e, the relative angle between the first connecting portion 14 and the first facing portion 13 is fixed to an arbitrary angle. can do.

According to the configuration of this modified example, even if there is an angle between the portion where the first fixing portion 10F is fixed and the portion where the second fixing portion 20F is fixed in the fractured portion of the bone, it depends on the bone shape. The bone fixation plate 1t can be fixed. Specifically, as shown in FIG. 6, in the first bone B1 and the second bone B2 divided by the fracture portion F, the portion where the first fixing portion 10F is fixed and the second fixing portion 20F are fixed. Even if there is an angle between the parts to be fixed, the angle adjustment mechanism T adjusts the angle between the first and second facing portions 13 and 23 and the first and second connecting portions 14 and 24 to fix the bone. The plate 1t can be fixed.

The angle adjusting mechanism T includes a connecting portion between the first connecting portion 14 and the first fixing portion 10F, a connecting portion between the first connecting portion 14 and the first facing portion 13, and a second connecting portion 24. It suffices if it is provided at least one of the connecting portion between the second connecting portion 20F and the second fixing portion 20F and the connecting portion between the second connecting portion 24 and the second facing portion 23, and the installation location and installation thereof. The number is not limited to this modification. Further, it is also possible to make either the angle fixing hole or the angle adjusting hole in the angle adjusting mechanism T a long hole to adjust the angle steplessly.

Regarding the bone fixing plate according to the present invention, the first and second connecting portions 14 and 24 and the connecting portion in the bone fixing plate 1 according to the first embodiment may have different configurations. Specifically, as shown in the bone fixing plate according to the second embodiment shown in FIG. 7, the first connecting portion 114 is a first fixing side extending from the first supporting portion 11 in the first fixing portion. A columnar lower connecting portion 114D is provided as a base portion. Further, the first connecting portion 114 includes a columnar upper connecting portion 114U as a first facing side base portion extending from the first facing portion 13. Similarly, the second connecting portion 124 includes a columnar lower connecting portion 124D as a second fixing side base extending from the second support portion 21 in the second fixing portion. Further, the second connecting portion 124 includes a columnar upper connecting portion 124U as a second facing base portion extending from the second facing portion 23.

Then, the lower connecting portion 114D and the upper connecting portion 114U are connected to each other by a cylindrical first adjusting member 115 so as to be close to and separated from each other. Specifically, as shown in FIGS. 7A and 7B, a male screw portion is formed in the opposite direction on the outer peripheral surface of the lower connecting portion 114D and the upper connecting portion 114U, and the inner peripheral surface of the first adjusting member 115 is formed. , The female threaded portion is formed in the opposite direction so as to be screwed with the male threaded portion. Then, the female threaded portion of the first adjusting member 115 and the male threaded portion of the lower connecting portion 114D and the upper connecting portion 114U are screwed together, and the first adjusting member 115 is rotated to rotate the lower connecting portion 114D. And the upper connecting portion 114U can be separated from each other. As a result, the first connecting portion 114 in the present embodiment can be expanded and contracted. In this way, the first connecting portion 114 is adjusted to an appropriate height by rotating the first adjusting member 115 and displacing the upper connecting portion 114U with respect to the lower connecting portion 114D.

On the other hand, the lower connecting portion 124D and the upper connecting portion 124U are similarly connected by the second adjusting member 125 having a cylindrical shape so as to be close to each other and separated from each other. Specifically, as shown in FIGS. 7A and 7B, the female threaded portion of the second adjusting member 125 and the male threaded portion of the lower connecting portion 124D and the upper connecting portion 124U are screwed together to form the second adjusting member 125. By rotating the lower connecting portion 124D and the upper connecting portion 124U, the lower connecting portion 124D and the upper connecting portion 124U can be separated from each other. As a result, the second connecting portion 124 in the present embodiment can be expanded and contracted. In this way, the second connecting member 124 is adjusted to an appropriate height by rotating the second adjusting member 125 and displacing the upper connecting portion 124U with respect to the lower connecting portion 124D.

As described above, also in the bone fixing plate according to the present embodiment, the first supporting portion 11 and the first opposing portion 13 in the first fixing portion, and the second supporting portion 21 in the second fixing portion. The distance between the second facing portions 23 can be changed steplessly. This makes it possible to use the bone fixation plate for the fractured part by adjusting the first connecting part 114 and the second connecting part 124 to appropriate lengths even if the thickness of the muscle M is different. Become.

1 Bone fixation plate (first embodiment)
1t bone fixation plate (deformation example)
10 First plate 10t First plate (deformation example)
10F 1st fixing part 11 1st support part
11a First fixing hole 11b Adjusting groove
11c Fixed side adjustment hole 12 First adjustment part
12a Adjusting part fixing hole 12b Adjusting protruding part
12c Movable side adjustment hole 13 First facing part
13a Opposing protrusion 13b Movable side facing adjustment hole
13c Rotating shaft 13d Angle fixing hole
14 First connecting part 14U Upper connecting part
14D Lower connecting part 14a Height adjustment ridge part
14b Height adjustment groove 14c Upper height adjustment hole
14d Lower height adjustment hole 14e Angle adjustment hole
20 Second plate 20t Second plate (Modification example)
20F Second fixing part 21 Second support part
22 Second adjustment part 23 Second facing part
23a Facing groove-shaped portion 23b Fixed side facing adjustment hole
24 Second connecting part 24U Upper connecting part
24D Lower connecting part 114 First connecting part
114U Upper connecting part 114D Lower connecting part
115 First adjusting member 124 Second connecting part
124U Upper connection part 124D Lower connection part
125 Second adjuster B bone
B1 first bone B2 second bone
F Fracture part S Fixing screw
T angle adjustment mechanism

Claims (6)

It is a bone fixation plate that fixes the first bone and the second bone that were divided by the fracture in a joined state.
The first fixing portion fixed to the first bone, the first facing portion fixed at a position away from the first bone, and the first fixing portion and the first facing portion. A first plate comprising a first connecting portion for connecting the bones,
A second fixing portion fixed to the second bone, a second facing portion fixed at a position away from the second bone, and the second fixing portion and the second facing portion. A second connecting portion, and a second plate comprising
The first facing portion and the second facing portion are configured so as to be close to each other, and relative displacement and relative rotation in other directions are regulated.
The circumferential width of the first bone in the first connecting portion and the second connecting portion is smaller than the circumferential width of the first fixing portion and the second fixing portion. Formed in
Since the first connecting portion is configured to be expandable and contractible, the distance between the first fixing portion and the first facing portion can be changed.
A bone fixation plate in which the distance between the second fixing portion and the second facing portion can be changed by making the second connecting portion expandable and contractible. The first connecting portion includes a first fixed side base extending from the first fixing portion and a first facing base extending from the first facing portion.
The second connecting portion includes a second fixed side base extending from the second fixing portion and a second facing base extending from the second facing portion.
The first fixed-side base and the first opposite-side base are connected so as to be able to advance and retreat while one is inserted into the other, so that the first connecting portion can be expanded and contracted.
The second fixed side base and the second opposite side base are connected so as to be able to advance and retreat while one of them is inserted into the other, so that the second connecting part can be expanded and contracted. The bone fixation plate according to 1. The first connecting portion includes a first fixed side base extending from the first fixing portion and a first facing base extending from the first facing portion.
The second connecting portion includes a second fixed side base extending from the second fixing portion and a second facing base extending from the second facing portion.
The first fixed side base portion and the first facing side base portion are connected to each other by a first adjusting member so as to be close to each other, so that the first connecting portion can be expanded and contracted.
1. The second fixed side base portion and the second opposed side base portion are connected to each other by a second adjusting member so as to be close to each other so that the second connecting portion can be expanded and contracted. Bone fixation plate described in. The first facing portion and the second facing portion are either in a fixed state in which the relative positions in the proximity and separation directions are fixed, and in a movable state in which the relative positions in the proximity and separation directions are variable. The bone fixation plate according to any one of claims 1 to 3, which is in the state of. Any one of claims 1 to 4, wherein the first fixing portion and the second fixing portion have variable lengths in the axial direction of the first bone and the second bone. Bone fixation plate as described in the section. The connecting portion between the first connecting portion and the first fixing portion, the connecting portion between the first connecting portion and the first facing portion, the second connecting portion and the second fixing portion. 1. From claim 1, at least one of the connecting portion of the above and the connecting portion between the second connecting portion and the second facing portion is provided with an angle adjusting mechanism for varying the relative angle between the two. The bone fixation plate according to any one of claims 5.

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