JPH09215699A - Bone stretcher - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable stretching of bone at a curved part. SOLUTION: This bone stretcher 1 is provided with a rail 5, tables 2a, 2b, 2c and 2d which pierce the rail 5 while being movable in the axial direction thereof, fixing pins releasably secured on the tables and table movement regulating members 6a and 6b positioned near both sides of the tables. Furthermore, the rail 5 is also made of a hard material deformable in a polygonal prism or in an arbitrary curved form and a thread groove 51a is formed at an angular part 51 of an external surface thereof. The tables are movable in the longitudinal direction the rail while being unrotatable in substance with respect to the axis thereof. The table movement regulating member has a thread to be screwed down in the groove 51a of the rail 5 and is turned to be moved by turning in the longitudinal direction.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bone stretching instrument used in oral surgery, orthopedic surgery, etc., and more particularly to a bone stretching instrument suitable for use in a bone stretch compression connection method.

[0002]

2. Description of the Related Art The mandible is partially excised for the treatment of malignant tumors of the mandible. Then, in the mandibular bone defect portion produced by this partial resection, a substitute made of metal or plastic is embedded, or autologous bone collected from other parts of the body is transplanted. However, implantation as an alternative does not have sufficient compatibility with the living body, and autologous bone graft requires surgical invasion of normal sites. So recently,
In the field of orthopedics and oral surgery, bone extension treatment using a bone extension treatment method has been proposed. Examples of such a device used in the bone extension treatment method include, for example, Table 3
Publication No. 501092 (International publication WO89 / 11254)
There are those shown in.

[0003]

Problems to be Solved by the Invention [Patent Document 1] 3-501
The device disclosed in Japanese Patent No. 092 is effective as a compression and stretching device for bone. However, the device of this publication is considered on the premise that the support unit is linearly moved on the screw rod, and is not intended for use in a curved portion. For this reason, if the screw rod is forcibly curved, it becomes difficult to move the support unit, and further, the nut for fixing the support unit to the screw rod cannot be rotated.
Therefore, the present invention provides a bone stretching instrument capable of stretching a bone at a curved portion.

[0004]

To achieve the above object, a rail having a predetermined length, at least two tables movable in the axial direction of the rail, and detachably fixed to the table are provided. A bone stretching device that includes a bone fixing pin and a table movement restricting member that is located near both side surfaces of the table and that restricts the position of the table with respect to the rail, wherein the rail has an arbitrary curved shape in a polygonal column shape. Is formed into a polygonal column by a hard material that can be deformed into, and further provided with a thread groove at the corner of the outer surface, the table is movable in the axial direction of the rail,
In addition, the table movement restricting member is not rotatable with respect to the rail axis, and further, the table movement restricting member has a twist that is screwed into the thread groove of the rail, and can be moved in the axial direction of the rail by rotating. It is a bone stretching instrument characterized by the fact that it is present.

The table is provided with insertion holes for the rails formed on both side surfaces, a rail passage communicating with both the insertion openings, and a bearing mechanism provided in the rail passage for contacting an outer surface of the rail. Preferably.
Further, it is preferable to have a portion having no thread groove extending in the axial direction at the center of the side surface of the rail. And
It is preferable that three or more tables are provided.

The bearing mechanism is preferably a bearing mechanism using a needle roller.
The bearing mechanism is provided substantially parallel to the first set of needle rollers composed of two needle rollers provided at a predetermined distance apart from each other and substantially parallel to the first set of needle rollers. Between the second set of needle rollers consisting of two needle rollers provided so as to intersect the needle roller at a predetermined angle, and between the first set of needle rollers and the second set of needle rollers. The rail passage is preferably formed so as to penetrate therethrough.

The bearing mechanism is provided in parallel with a first set of needle rollers composed of two needle rollers spaced apart by a predetermined distance and substantially parallel to each other. A second set of needle rollers consisting of two needle rollers provided so as to intersect the set of needle rollers at a predetermined angle,
From the second set of needle rollers, a third set of needle rollers is provided that is separated from the first set of needle rollers by a predetermined distance and is provided substantially parallel to the first set of needle rollers. A fourth set of needle rollers composed of two needle rollers provided at a predetermined distance and substantially parallel to the second set of needle rollers, and between the first set of needle rollers and the second set of needle rollers. It is preferable that the rail passages are formed so as to penetrate through the space between the needle rollers of the third set and between the needle rollers of the fourth set.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION The bone stretching device of the present invention can be said to be, in other words, a stretching device for bone compression connection. The bone stretching instrument of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view of the bone stretching device of the present invention. FIG. 2 is an enlarged exploded perspective view of a table used in the bone stretching instrument of the present invention. Figure 3
[Fig. 3] is a partially enlarged view of a rail used in the bone stretching device of the present invention. FIG. 4 is a sectional view taken along the line AA of FIG. Figure 5
[Fig. 3] is an enlarged side view of a table used in the bone orienting instrument of the present invention. FIG. 6 is an exploded enlarged perspective view for explaining the internal structure of the table used in the bone stretching device of the present invention. FIG. 7: is explanatory drawing for demonstrating the effect | action of the bone extending | stretching instrument of this invention.

The bone stretching device 1 of the present invention has a rail 5 having a predetermined length, at least two tables 2a, 2b, 2c and 2d which can move the rail 5 in the axial direction, and each table 2a, 2b ,. Bone fixing pins 22 and 23 detachably fixed to 2c and 2d, and tables 2a, 2b and 2c,
Located near both sides of 2d, the tables 2a, 2b, 2
Table movement restricting members 6 provided on both side surfaces of each table in order to restrict the positions of c and 2d with respect to the rail 5.
a and 6b.

Further, the rail 5 is formed in a polygonal column shape from a hard material which can be deformed into an arbitrary curved shape, and has a thread groove 51a at a corner portion 51 on the outer surface. Each table 2a, 2
b, 2c, 2d are movable in the longitudinal direction of the rail 5 and substantially non-rotatable with respect to the axis,
Further, the table movement restricting members 6a and 6b are provided on the rail 5
The rail 5 has a screw thread that is screwed into the thread groove 51a, and can be moved in the longitudinal direction of the rail 5 by rotating. As shown in FIG. 1, the rail 5 is made of a material that can be curved and deformed. As a forming material, stainless steel (specifically, JISG4304 SUS304, SUS3
16), pure titanium (specifically, JISH467)
0), titanium alloy (specifically, T of JIS H4657)
i-6Al-4V) or the like is used. It is desirable that the rail material has a wire diameter of 8 mm or less because of the possibility of deformation.

As shown in FIGS. 2, 3, and 4, the rail 5 is a rod-shaped body having a substantially square cross section, and is provided with a thread groove 51a at least at a corner portion 51 of its outer surface. In the embodiment shown in the drawings, the side surface 52 of the rail 5 is not threaded. Therefore, a portion having no thread groove extending in the axial direction is formed at the center of the side surface of the rail 5. Further, the thread groove may be shallow and exist in the central portion of the side surface of the rail 5. In addition, the cross-sectional shape of the rail is not limited to such a square shape, and may be a rectangular shape or a polygonal shape such as a triangle, a pentagon, or a hexagon.
Preferably, it is a trigonal hexagon (trigonal hexagonal prism). More preferably, it is a regular polygon (particularly, a regular triangle to a regular hexagon). Particularly, a square is preferable. The rail may have a polygonal columnar outer surface, and may be solid or hollow.

In this way, only at the corner portion 51 of the rail 5,
A screw groove 51a is formed which is effectively screwed into the screw threads of table movement restricting members (nuts) 6a and 6b described later.
On the contrary, the table movement restricting member (nut) 6 is provided on the portion other than the corner portion 51, in other words, on the side surface portion 52 of the rail 5.
No thread groove is formed so as to be screwed with a certain amount of screwing force with the threads of a and 6b. Therefore, the amount of deformation of the screw groove generated when the side surface portion 52 of the rail 5 is deformed to be the outer surface and the inner surface of the portion which is curved and deformed into a desired shape is such that the rail 5 is formed of a cylindrical material. The number is smaller than that in the case where a thread groove is formed all around the side surface. As a result, even if the rail 5 is curved and deformed into a desired shape, the rail 5 is sufficiently screwed with the threads of the table movement restricting members (nuts) 6a and 6b. On the contrary, since the screwing force between the table movement restricting members (nuts) 6a and 6b and the rail 5 does not become so low, the maximum depth of the thread groove of the rail 5 is 0.1 mm or more. preferable.

As shown in FIGS. 1 and 2, the rail 5 is provided with tables 2a, 2b, 2c and 2d which are movable in the longitudinal direction of the rail 5 (in other words, the axial direction). The same tables 2a, 2b, 2c, 2d are used. As shown in FIGS. 2 and 5, the table 2a includes a table body 21 having a side opening 86 for inserting a rail, bone fixing pins 22 and 23 fixed to an upper surface portion of the table body 21, and Fixing members 25 and 26 for fixing the bone fixing pins 22 and 23 to the table body 21 are provided.

Inside the side opening of the table body 21, as shown in FIGS. 5 and 6, the table 2 is easily moved in the longitudinal direction of the rail 5, and the table 2 is mounted with respect to the axis of the rail 5. A mechanism is provided to render it substantially non-rotatable. In this example, Table 2
Is internally provided with an insertion opening for the rail 5 formed on both side surfaces thereof, and a bearing mechanism for contacting the inside of the rail passage formed therein and the outer surface (side surface) of the rail 5. Specifically, the table 2 has a needle roller bearing mechanism 8. The needle roller bearing mechanism 8 includes a bearing housing 81, eight needle rollers (cylindrical bodies) rotatably provided in the housing, and fixing screws 87 for fixing the housing to the table body 21.
Consists of.

The bearing housing 81 has a total of 16 facing openings formed on the side surfaces near both ends, and needle rollers are inserted into these openings. The first pair of needle rollers 82a and 82b are separated by a predetermined distance and are substantially parallel to each other. Second set of needle rollers 83
The a and 83b are separated by a predetermined distance and are substantially parallel to each other, and are provided so as to be orthogonal to the first set of needle rollers 82a and 82b and near the first set of needle rollers. Similarly, a third set of needle rollers 82c, 82
d is substantially parallel at a predetermined distance, parallel to the first set of needle rollers 82a and 82b, orthogonal to the second set of needle rollers 83a and 83b, and separated from them by a desired distance. It is provided in the position. The fourth set of needle rollers 83c, 83d are separated by a predetermined distance and are substantially parallel to each other.
It is parallel to 3b, is orthogonal to the first and third sets of needle rollers 82a, 82b, 82c, 82d, and is provided near the third set of needle rollers 82c, 82d. As shown in FIG. 5, a pair of needle rollers that intersect each other forms a double girder, and a substantially square rail passage 86 is formed therein. The width of the rail passage 86 is slightly larger than the width of the rail 5. Has become.

The needle rollers are composed of two intersecting sets (a total of four sets).
It is sufficient to provide two sets, but in order to suppress rattling on the longitudinal side of the rail 5 of the table 2, two sets (four sets in total) intersecting each other (eight sets in total) as described above. ) Is preferably provided. When the table 2 is to be rotated with respect to the axis of the rail 5, the side surface of the rail 5 comes into contact with the needle roller assembled in a cross beam shape, and the rotation of the table is restricted. Further, when the table 2 is moved in the longitudinal direction of the rail 5, the needle roller that is in strong contact with the side surface of the rail 5 rotates, so the movement resistance of the table 2 is small,
Easy to move.

The bearing housing 81 is inserted into the table body 21 in a state where the eight needle rollers described above are arranged as described above, and is screwed into the screw hole formed on the bottom surface of the table body 21. Fixing screw 87
Fixed by. The form of the bearing mechanism is
It is changed depending on the cross-sectional shape of the rail, and when the rail is rectangular or square as described above,
It is preferable that the needle rollers intersect as described above so as to intersect at right angles, but in the case of a shape such as a triangle or a pentagon, the other side of one pair of needle rollers should be touched so as to contact their side surfaces. The sets of needle rollers are provided so as to intersect with each other. Further, the bearing mechanism is not limited to the one using the needle roller as described above, but may use a ball. Also in this case, it is preferable to use two sets (four in total) and two sets (eight in total) of balls facing each other.

The upper surface of the table body 21 is provided with fixing pin mounting recesses 21a and 21b formed substantially in parallel for mounting the bone fixing pins 22 and 23, and a screw hole 27. As shown in FIG. 2, the fixing pins 22 and 23 have sharp tips 22a and 23a and threaded portions 22b and 23b following them.
And jig mounting portions 22c and 23c. The bone fixing pin is made of metal or hard resin. Preferably, it is formed of titanium or a titanium alloy having high biosafety. In terms of strength,
Ti-6Al-4V titanium alloy is particularly preferred. The bone fixing pins 22 and 23 are detachably fixed to the table body 21 by a fixing member (the fixing plate 25 having a curved side surface and the fixing screw 26) while being placed in the recess of the table body 21. .

As the table movement restricting members 6a and 6b, so-called nuts having internal threads are used. As described above, the table movement restricting members 6a, 6
The screw thread of b is screwed into the screw groove of the rail 5. The thickness of the table movement restricting members 6a and 6b is preferably 3 mm or less. If it is too thick, the internal thread forming part will become long,
There is a possibility that the rotation resistance when screwing with the thread of the curved rail becomes high. A washer 7a is preferably provided between the table movement restricting members 6a and 6b and the table 2.

It is necessary to provide at least two tables 2, preferably three or more, and more preferably four as shown in FIG. Note that it is not necessary to use exactly the same table. At least tables other than the tables that require position adjustment may not be movable with respect to the rails 5, but for ease of the procedure, use tables that are movable with respect to the rails 5 as described above. Is preferred.

Next, the operation of the osteosynthesis stretching instrument 1 of the present invention will be described with reference to FIGS. 1 and 7. In the mandible of the patient, a defect portion 31 is formed by partial resection performed for treatment of a malignant tumor. First, the shape of the patient's mandible before partial resection is recorded in advance by a method such as X-ray imaging, and the rail 5 is curved according to the shape of the mandible. Four tables are arranged on this rail 5. And 4 of the mandible where the table is initially placed
Two sets of bone fixing pins are screwed in parallel to each other at a predetermined distance to the site, and eight (4 sets) fixing pins are attached to the mandible.

Each table 2a, 2b, 2c, 2d together with the rail 5 is fixed to each fixing pin by the fixing plate 2.
5 and the fixing screw 26. This state is shown in Figure 1.
It is the state shown in. Then, at the site 32, cortical bone is cut, and after 5 to 10 days (for example, 1 week) have passed, the bone using the bone stretching device of the present invention from the time when a thin periosteum is formed at the cortical bone cut portion. Stretching is performed. Bone extension is performed by gradually expanding the cortical bone cutting portion 32. Specifically, with the thin periosteum formed on the cortical bone cut portion, the first table 2a is moved on the rail 5 by the moving amount of about 0.5 to 1.5 mm / day to the second table 2b. Move to the side. The movement is performed by dividing the movement amount into about 2 to 4 times / day. If the movement restricting member (nut) 6b of the first table 2a is moved to the side of the second table 2b, for example, when the nut 6b makes one rotation, the nut 6b moves on the rail by 0.7 mm, for example. 6b to 1
/ 2 rotation, the 0.35mm nut 6b moves,
Similarly, the other table movement restricting member (nut) 6
By rotating a a 1/2 turn, the nut 6a and the table 2
a also moves to the side of the second table 2b of 0.35 mm, and by performing this 3 times / day every 8 hours, the first table 2a is moved about 1 mm to the second table 2b.
Can be moved to the side.

By the movement of the table 2a, the cortical bone cutting portion 32 is expanded and the callus formed on the cortical bone cutting portion 32 is extended. Such an operation is performed on the end face 31a of the bone defect portion.
By contacting the end surface 31b of the defect portion until the defect portion is restored by the grown autologous bone, as shown in FIG. Therefore, it is not necessary to embed a substitute made of metal or plastic or transplant autologous bone collected from other parts of the body.

[0024]

The bone stretching device of the present invention has a rail having a predetermined length, at least two tables which are inserted through the rail and movable in the axial direction of the rail, and which are detachably fixed to the table. A bone fixing pin, which is provided near both side surfaces of the table, and a table movement restricting member for restricting the position of the table with respect to the rail, wherein the rail has an arbitrary curved shape. It is formed of a deformable hard material into a polygonal column shape, and further has screw grooves at the corners of the outer surface, and the table is movable in the axial direction of the rail and rotatable with respect to the rail axis. Further, the table movement restricting member has a screw thread that is screwed into the screw groove of the rail, and can be moved in the axial direction of the rail by rotating. In particular, since the rail can be curved in any shape and has a polygonal prism and a screw groove at the corner of the outer surface, even if the rail is curved, the rail can be satisfactorily engaged with the thread of the table movement restricting member. Since they are screwed together, the table can be fixed at an arbitrary position on the rail, and the bone can be favorably stretched at the curved portion.

[Brief description of the drawings]

FIG. 1 is a perspective view of a bone stretching device of the present invention.

FIG. 2 is an enlarged exploded perspective view of a table used in the bone stretching device of the present invention.

FIG. 3 is a partially enlarged view of a rail used in the bone stretching device of the present invention.

4 is a cross-sectional view taken along the line AA of FIG.

FIG. 5 is an enlarged side view of a table used in the bone stretching device of the present invention.

FIG. 6 is an exploded enlarged perspective view for explaining the internal structure of the table used in the bone stretching instrument of the present invention.

FIG. 7 is an explanatory view for explaining the action of the bone stretching instrument of the present invention.

[Explanation of symbols]

 1 Bone Stretching Device 5 Rails 2a, 2b, 2c, 2d Table 22, 23 Bone Fixing Pins 6a, 6b Table Movement Restricting Member 51 Rail Corner 51a Screw Groove 8 Bearing Mechanism 81 Bearing Housing 82a, 82b First Set Needle Roller 83a, 83b Second set needle roller 82c, 82d Third set needle roller 83c, 83d Fourth set needle roller 86 Rail passage

Claims (7)

[Claims] 1. A rail having a predetermined length, at least two tables movable in the axial direction of the rail, bone fixing pins detachably fixed to the table, and positioned near both side surfaces of the table. And a rail movement restricting member for restricting a position of the table with respect to the rail, wherein the rail is formed in a polygonal column shape by a hard material that can be deformed into an arbitrary curved shape, and further has an outer surface. Is provided with a thread groove at the corner, and the table is movable in the axial direction of the rail,
In addition, the table movement restricting member is not rotatable with respect to the rail axis, and further, the table movement restricting member has a twist that is screwed into the thread groove of the rail, and can be moved in the axial direction of the rail by rotating. A bone stretching instrument characterized by being present. 2. The table is provided with insertion openings for the rails formed on both side surfaces, a rail passage communicating with both insertion openings, and a bearing mechanism for contacting an outer surface of the rail provided in the rail passages. The bone stretching instrument according to claim 1. 3. The bone stretching device according to claim 1, wherein a portion having no thread groove extending in the axial direction is provided in the center of the side surface of the rail. 4. The bone stretching device according to claim 1, wherein three or more tables are provided. 5. The bone stretching instrument according to claim 1, wherein the bearing mechanism is a bearing mechanism using a needle roller. 6. The bearing mechanism is provided substantially parallel to a first set of needle rollers composed of two needle rollers provided at a predetermined distance and substantially parallel to each other, and at a predetermined distance from each other. A second set of needle rollers consisting of two needle rollers provided so as to intersect the first set of needle rollers at a predetermined angle, and between the first set of needle rollers and the second set of needle rollers. The bone stretching instrument according to claim 1, further comprising a rail passage formed so as to penetrate between the rollers. 7. The bearing mechanism is provided substantially parallel to a first set of needle rollers composed of two needle rollers spaced apart by a predetermined distance and substantially parallel to each other. A second set of needle rollers composed of two needle rollers provided so as to intersect the first set of needle rollers at a predetermined angle, and a second set of rollers separated from the first set of needle rollers by a predetermined distance. A third set of needle rollers made up of two needle rollers provided substantially parallel to the second set of needle rollers, and a substantially predetermined distance from the second set of needle rollers and substantially parallel to the second set of needle rollers Between the fourth pair of needle rollers and the first pair of needle rollers, between the second pair of needle rollers, and the third pair of needle rollers. 6. The bone stretching instrument according to claim 1, further comprising a rail passage formed so as to penetrate between the rollers and between the fourth set of needle rollers.