JP2008289628A - Bone anaplerosis block and osteosynthesis kit including bone anaplerosis block - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a bone anaplerosis block and an osteosynthesis kit capable of being adapted to various bone defects of different positions and shapes and making it possible to easily and quickly perform osteosynthesis. <P>SOLUTION: The bone anaplerosis block 3 is provided with a connection part 6 to be slidably connected to an osteosynthesis plate 2, the kind of the bone anaplerosis block 3 and the position on the belt-like part 5 of the osteosynthesis plate 2 can be freely selected, and anaplerosis is performed matched with the position and shape of a defective bone part x. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

The present invention relates to a medical device for filling a bone defect in a treatment for joining bones.

In the treatment of fractures and the like, osteosynthesis plates made of metal such as titanium or stainless steel are used to join bones. This is a belt-like plate having a large number of bolt holes, and connects a plurality of fractured bone fragments.

Further, Patent Document 1 describes a joint tool for a ceramic bone prosthetic material or the like that compensates for a bone defect of a craniofacial bone.
Japanese Patent Application Laid-Open No. 09-327469

The part of the bone fragment that cannot be joined by the osteosynthesis plate becomes a defect. If this missing part is not compensated, strong bonding cannot be performed. Therefore, a filling material is created and attached to the defect portion. However, it takes time and labor to individually create a filling material according to the shape of the defect. However, it is not always possible to provide a type of filling material that can cope with any missing part.

The ceramic bone prosthetic material for filling the bone defect portion of the craniofacial bone described in Patent Document 1 can adjust the interval of the prosthetic material by making the insertion hole a long hole. However, it has a structure in which both sides of the bone are sandwiched between two substrates, and can be applied only to a limited case such as a craniofacial bone. Moreover, there exists a possibility of inhibiting the formation of the callus after a surgery.

It is an object of the present invention to provide a bone grafting block and a bone grafting kit that can be applied to various bone defects having different positions and shapes and that can perform a bone grafting operation simply and quickly.

In order to solve the above-described problems, the bone prosthesis block of the present invention has a connecting portion for slidably connecting to the osteosynthesis plate. The connecting portion may have a hole through which the osteosynthesis plate passes, and may further include a fixing means for fixing to the osteosynthesis plate. It is made of a shape memory alloy and is slidable with respect to the osteosynthesis plate at the first temperature lower than the body temperature, and fixed to the osteosynthesis plate at the second temperature which is substantially the body temperature. You may make it deform | transform into the shape made.

Furthermore, the osteosynthesis kit of the present invention comprises an osteosynthesis plate having a band-like portion having a constant cross-sectional shape along the length direction, and a bone replacement block having a hole through which the osteosynthesis plate passes. .

Since the bone replacement block of this invention of this invention is slidably connected to the osteosynthesis plate, the type of the bone replacement block can be freely selected according to the position and shape of the bone defect, It has the effect that it is possible to perform osteosynthesis surgery simply and quickly.

The best mode for carrying out the present invention will be described with reference to the drawings. FIG. 1 is a plan view showing an osteosynthesis kit, and FIG. 2 is a sectional view of the same.

The osteosynthesis kit 1 has an osteosynthesis plate 2 and an osteosynthesis block 3. As the osteosynthesis plate 2, a plate already sold as a medical product can be used. It has a shape substantially along the outer surface of the bone part to be joined. A number of holes 4 are provided for joining to the bone by bolts. The osteosynthesis plate 2 has a belt-like portion 5 having a substantially constant cross-sectional shape along the length direction.

The bone replacement block 3 has a shape suitable for filling a bone defect portion. And it has the connection part 6 for connecting with respect to the osteosynthesis plate 2 so that a slide is possible. In this example, a hole that is slightly larger than the cross section of the belt-like portion 5 of the osteosynthesis plate 2 is formed as the connecting portion 6. By passing the osteosynthesis plate 2 through the hole of the coupling portion 6, the osteosynthesis block 3 can be slidably coupled to the belt-like portion 5 of the osteosynthesis plate 2.

The bone replacement block 3 is provided with a fixing means for fixing to the osteosynthesis plate 2. In this example, a bolt hole 7 is formed as a fixing means. By attaching the bolt 8 to the bolt hole 7 and tightening the bolt hole 7, the sliding motion of the bone filling block 3 is regulated.

The osteosynthesis plate 2 and the osteosynthesis block 3 are preferably made of the same type of metal. Stainless steel, titanium, and the like can be used, and titanium that is particularly suitable for a living body is preferable. Moreover, you may use the titanium-type shape memory alloy which is easy to adapt to a biological body as mentioned later.

Alternatively, a plurality of bone replacement blocks 3 having different sizes and shapes may be prepared and combined with the osteosynthesis plate 2 to form an osteosynthesis kit with a wide application range.

Next, a method for using the osteosynthesis kit will be described. FIG. 3 is a cross-sectional view showing a use state of the osteosynthesis kit.

A bone replacement block 3 matching the shape of the bone defect portion x is selected, and connected to the hole of the bone replacement block 3 through the osteosynthesis plate 2. After adjusting the position of the osteosynthesis block 3 with respect to the osteosynthesis plate 2 according to the position of the bone defect portion x and determining the position, the osteosynthesis plate 2 and the osteosynthesis block 3 are fixed by the bolts 8.

Further, by fixing the osteosynthesis plate 2 to the bone y with the bolt 9, the bone is connected and the bone defect portion x is compensated. Note that after the bone is joined by the osteosynthesis plate 2, the osteosynthesis plate 2 and the osteosynthesis block 3 may be fixed.

In this way, the osteosynthesis can be performed easily and quickly while filling in accordance with the position and shape of the bone defect x.

Next, another embodiment of the present invention will be described. FIG. 4 is a cross-sectional view showing another example of the bone filling block 3.

Here, the bone filling block 3 is made of a shape memory alloy. The transition temperature is set to a temperature lower than the body temperature. At a first temperature lower than the transition temperature, the bone replacement block 3 has a shape as shown in FIG. At this time, the bone replacement block 3 can be slidably connected to the osteosynthesis plate.

On the other hand, at a second temperature (about body temperature) higher than the transition temperature, a shape is stored so that the cross section of the connecting portion 7 of the bone prosthesis block 3 prevents sliding with respect to the osteosynthesis plate.

Prior to attachment to the affected area, the bone replacement block 3 is kept at a first temperature lower than the transition temperature. At this time, the bone replacement block 3 can slide with respect to the osteosynthesis plate 2, and the bone replacement block 3 can be freely adjusted. While adjusting the bone replacement block 3 according to the position and shape of the bone defect part x, the osteosynthesis plate 2 is attached to the bone to perform osteosynthesis.

When the bone grafting block 3 is attached to the human body together with the osteosynthesis plate 2, the temperature of the bone grafting block 3 rises to almost the body temperature beyond the transition temperature. At this time, the bone replacement block 3 is deformed into a memorized shape and is fixed to the osteosynthesis plate 2. That is, in this example, the deformation of the shape memory alloy acts as a fixing means for fixing to the osteosynthesis plate.

It is a top view which shows the kit for osteosynthesis. FIG. It is sectional drawing which shows the use condition of the osteosynthesis kit. It is sectional drawing which shows another example of a bone replacement block.

Explanation of symbols

1. 1. Osteosynthesis kit 2. osteosynthesis plate 4. Bone filling block Band-shaped part 6. 6. Connection part Fixing means (bolt hole)
8). Bolt x. Bone defect y. Bone

Claims (4)

A bone replacement block having a connecting portion for slidably connecting to an osteosynthesis plate. The osteosynthesis block according to claim 1, further comprising a fixing means for fixing the osteosynthesis plate to the inside of the osteosynthesis plate as a connecting portion and further fixing the osteosynthesis plate to the osteosynthesis plate. It is made of a shape memory alloy and is slidable with respect to the osteosynthesis plate at the first temperature lower than the body temperature, and is fixed to the osteosynthesis plate at the second temperature which is substantially the body temperature. The bone prosthetic block according to claim 2 which is deformed into a shape. An osteosynthesis kit comprising an osteosynthesis plate having a band-like portion having a constant cross-sectional shape along the length direction, and an osteosynthesis block having a hole through which the osteosynthesis plate passes.

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