KR20130073363A - Jig of fixing bilateral bone of mandibula and menufacturing method thereof - Google Patents

Abstract

PURPOSE: A jig for fixing lower bilateral mandibular and a manufacturing method thereof are provided to manufacture a jig based on the preoperative jawbone structure of a patient to be operated, thereby enabling condyles of jawbone to be arranged in predetermined initial positions. CONSTITUTION: A jig is provided to fix lower bilateral mandibular having condyles at the skull so that the condyles of the lower bilateral mandibular is fixed in fossae of temporal bones of the skull. The jig comprises a jig body (100) to support lower bilateral mandibular; a first fixing unit (120) provided in a side of the jig body for being fixed at a side of the skull; and a second fixing unit (130) provided in the other side for being fixed at the lower bilateral mandibular.

Description

Jig of Fixing Bilateral Bone of Mandibula And Menufacturing Method Thereof}

A bone fragment fixing device in which a mandibular condyle aligns with a fossa of a temporal bone after a bone cutting is performed in a jaw surgery. It relates to one side, in particular to the lower jaw fixing jig for fixing the position of the mandibular bone connected to the bone.

In general, jaw surgery is divided into upper and lower jaw surgery. The jaw surgery has been in the spotlight as a surgical technique for improving abnormalities (facing occlusal) of the upper and lower teeth, or improving facial skeletal structure, and correcting abnormalities of the facial skeleton itself with surgery to provide functional and aesthetic facial lines. It is also in the spotlight as a molding method for making.

The jaw surgery, also called orthognathic surgery or maxillofacial surgery, refers to an operation for correcting a variation in shape and size when the maxillary or mandible has an excessive, lacking, or asymmetrical growth state.

Specific examples of the need for jaw surgery, if it is difficult to chew or bite or swallow food, if there is an abnormality in pronunciation, if there is a chronic pain around the jaw bone, if the teeth are abnormally worn out a lot, do not touch the front teeth If you can't eat food with your incisors, touch only the incisors and don't touch the molars, have asymmetry on your face (when your face is crooked), or damage to your face by accident, etc. If you have trouble keeping your lips closed.

The jaw surgery generally results in a change in the position of the jaw bone through the cutting, movement and recombination of the jaw bone, thereby forming a more beautiful facial line and improving malocclusion. The jaw surgery is divided into maxillary surgery for surgery of the upper jaw and mandibular surgery for surgery of the lower jaw.

Examples of the jaw surgery, particularly mandibular surgery, include SSRO (Sagittal Split Ramus Osteotomy) or mandibular ascending sagittal amputation or sagittal dissection (IVRO) or IVRO (Intraloral Split Vertical Ramus Osteotomy). The bilateral sagittal split ramus osteotomy (BSSRO) is applied to both limbs.

Here, the IVRO is a mandibular surgical method for vertically cutting the upper jaw (Ramus), and is mainly used for improving the jaw. On the other hand, SSRO, such as the BSSRO may be used for the improvement of the jaw as well as the jaw as a surgical method for cutting the bilateral mandibular ascending paper into the sagittal as shown in FIG.

1 and 2, the lower jaw, that is, the lower jaw 10 is a bone located on the lower side of the skull 20, and the lower jaw is implanted in the mandible body (Mandible Body, 11) and the rear of both sides of the mandibular body The mandible uphill 12 is divided, the mandible uphill 12 has a joint head (Condyle, 12a) forming the jaw joint with the joint of the temporal bone (Fossa).

And, referring to Figure 2, the mandibular segmentation is performed by the fracture in the mandibular surgery, for example, (B) the mandibular bone (Condyle) is provided with a condyle by the bone fracture in SSRO (10a, Proximal Segment or Condyle Bearing Part, referred to in the present invention as the mandible side bone) and the mandrel is provided with a bone fragment, that is, the anterior bone (10b, Distal Segment or Tooth Bearing Part).

When the movement and positioning of the bone piece 10b having the mandible is completed after the fracture is completed, the anterior bone, especially the mandible, is fixed in a manner such as binding to the upper jaw, for example, the occlusal reference device of the upper and lower teeth It is fixed to the maxilla using a wafer (not shown).

In addition, the bone fragment fixation between the bone fragment (10b, anterior bone) and the mandibular lateral bone (10a) provided with the mandibular body is performed in a state in which the arthroscopy (Condyle) 12a is repositioned in a proper relationship with respect to the joint (Fossa). At this time, the operator performs fixation between the two bone fragments (mandibular lateral bone and anterior bone) based on his or her own experience and judgment. According to the conventional method, the two bone fragments are in a state where the position of the lower lateral bone 10a is fluid and unstable. Since the fixation between (10a, 10b) is performed, the jaw joint may be out of the normal position in the bone fixation process, and since the success rate depends largely on the experience and skill of the operator, there is a problem that the operation result varies depending on the operator. . In particular, in the case of (B) SSRO, the jaw joint alignment is out of the normal state due to the improper fixation between the two bone fragments, and a problem arises that the jaw is applied to the jaw joint.

On the other hand, a mechanism for forming the occlusal reference device of the upper teeth and lower teeth during orthodontic surgery, that is, a method of manufacturing a wafer is disclosed in Korean Patent Laid-Open Publication No. 10-2010-0092753.

Republic of Korea Patent Publication No. 10-2010-0092753, published 23 August 2010 Korea Utility Model Registration No. 20-0275292, registered April 30, 2002

The present invention was devised to solve the above-described problems, and after fixing the bone in the mandibular surgery to fix the bone fragments (mandibular lateral bone) is provided with the joint head of the joint of the temporal bone (Fossa) and the mandibular joint (Fossa) The purpose is to provide a bone fixation mechanism for aligning the condyle, that is, a jig for mandibular lateral bone fixation.

A more specific object of the present invention is to fix the mandibular lateral bone, which allows the mandibular head to be fixed between the mandibular and the mandibular body in a state where it is fixed and repositioned at a predetermined position, for example, an initial position before surgery. It is to provide a jig.

The present invention for solving the above object: by fixing the mandibular lateral bone is provided in the mandibular condyle (condyle) after the bone cutting in the jaw surgery, the joint head and the joint of the temporal bone ( Jig for fixing the mandibular lateral bone to align with the Fossa). Wherein the lower jaw fixing jig: jig body for supporting the lower jaw; A first fixing part provided at one side of the jig body to be fixed to one side of the skull; And it is configured to include a second fixing part provided on the other side of the jig body to be fixed to the mandible side bone.

The first fixing part is characterized in that it is provided on the upper side of the jig body to be fixed to the bone (Zygomatic bone) of the skull. The first fixing part has a concave shape to be coupled to the lower edge of the tibia.

And, the second fixing part is characterized in that it has a concave shape to be coupled to the edge of the mandible side bone. The first fixing part and the second fixing part are integrally formed with the jig body.

The jig body is; It comprises a support for connecting the first fixing portion and the second fixing portion and a handle for handling the support.

In another aspect, the present invention is to fix the mandibular temporal bone, which is provided with the condyle of the mandible after the bone cutting in the jaw surgery, to fix the head to the joint of the temporal bone (Fossa) It provides a method of manufacturing a jig for mandibular lateral bone fixing to align. The jig manufacturing method includes: an image output step of outputting a three-dimensional skull image and a basic three-dimensional jig image of an operator on a display screen; And determining a shape of the jig according to the position of the jig image selected on the skull image.

And the design step; Outputting the position of the jig base image by superimposing the jig base image on the skull image for positioning of the jig base image, and overlapping portions of the skull image and the jig base image in the jig base image It may comprise the step of removing.

The mandible jaw fixing jig according to the present invention and its manufacturing method has the following effects.

First, according to the present invention, since the mandibular fixation between the mandible side bone and the anterior bone (mandibular body) is performed in the state where the mandible side bone is fixed by the mandible jaw fixing jig, the bone fragment fixation between the mandible side bone and the anterior bone (mandibular body) is performed. During the progression, the mandibular lateral bone does not go out of alignment, and after fixation of the bone, the jaw joint can be prevented or minimized from being exerted on the jaw joint.

Second, according to the mandibular lateral bone fixing jig according to the present invention and the manufacturing method thereof, the mandibular lateral bone fixing jig to fix the mandibular side bone to the skull, in particular to the tibia so that the mandibular head is aligned in a predetermined position, Reliance on the operator's experience in alignment and bone fixation can be reduced, thereby greatly improving the ease and stability of the procedure, shortening the operation time and eliminating the risk of reoperation due to jaw misalignment.

Third, according to the present invention, since the mandibular lateral fixation jig is manufactured based on the jaw structure of the pre-operator, the mandibular head can be accurately aligned at the initial position before surgery.

Fourthly, according to the present invention, since the fixation between the two bone fragments can be stably performed while the two bone fragments are properly aligned with respect to the jaw joint, the relative position between the mandible and the jaw joint after the surgery is reached to an abnormal state. It can prevent.

1 is a skull diagram schematically showing the direction of fracture of the right side of the mandible in BSSRD.
2 is a view schematically showing a state in which the right side of the mandible is fractured in the BSSRD.
Figure 3 is a perspective view showing an embodiment of the lower jaw fixing jig according to the invention.
4A and 4B are photographs showing an application example in which the jig shown in FIG. 3 is applied to an operator after bone fracture and before fracture.
FIG. 5 is a perspective view illustrating a first fixing part of the jig illustrated in FIG. 3.
FIG. 6 is a perspective view illustrating a second fixing part of the jig illustrated in FIG. 3.
7 is a flowchart schematically illustrating a manufacturing process of the jig.
(A) and (b) of FIG. 8 are photographs capturing a state in which the front and right sides of the three-dimensional skull image generated based on CT data on the skull are output on the screen.
9 is a photograph of a three-dimensional jig basic image generated based on the basic shape data of the jig.
FIG. 10 is a picture capturing a screen on which a three-dimensional skull image and a basic three-dimensional jig image are output for positioning of the three-dimensional jig image.
(A) and (b) of FIG. 11 are photographs capturing screens on which the front and right sides of the superimposed image where the positioning of the jig base image is completed are output.
12 is a photograph showing a three-dimensional jig image of a state in which a design is completed.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, preferred embodiments of the present invention in which the object of the present invention can be specifically realized will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and additional description thereof will be omitted in the following.

First, with reference to Figures 3 to 6 will be described an embodiment of the lower jaw fixing jig (100, hereinafter 'jig' weakened) according to the present invention, the jig 100 is a bone cutting for jaw surgery It is a bone fragment fixing mechanism for maintaining the alignment of the head with respect to the joint of the temporal bone (Fossa) by fixing the bone fragment, that is, the mandibular side bone to the skull after being performed.

Of the accompanying drawings, Figure 3 is a perspective view showing an embodiment of the jaw fixing jig according to the present invention, Figures 4a and 4b is a jig shown in Figure 3 after the bone shear and before the bone cutting respectively 5 is a perspective view illustrating a first fixing part of the jig illustrated in FIG. 3, and FIG. 6 is a perspective view illustrating a second fixing part of the jig illustrated in FIG. 3.

3 to 6, the jig 100 includes a jig body 110, a first fixing part 120, and a second fixing part 130.

The jig body 110 supports the lower jaw 10a so that the position of the lower jaw 10a is kept constant. And the first fixing part 120 is provided on one side of the jig body 110 is fixed to one side of the skull 20, the second fixing part 130 is on the other side of the jig body 110 It is provided is fixed to the mandible side bone (10a). Accordingly, the jig 100 fixes the lower mandible 10a to the skull 20, and the head 12a is aligned with the joint of the temporal bone by the jig 100. do.

In the present embodiment, the first fixing part 120 is provided on the upper side of the jig body 110 to be fixed to one side of the skull, in particular, the coronal bone 21 (Zygomatic Bone), the second fixing part 130 is It is provided on the lower side of the jig body 110 to be fixed to the lower jaw (10a).

In addition, the jig body 110 is a bar-shaped support 111 connecting the first fixing part 120 and the second fixing part 130 and handling of the support part 111. It is configured to include a handle 112, but the shape of the support 111 is not limited thereto.

In this embodiment, the support 111 is a curved bar shape, the handle 112 is one end is connected to the upper portion of the support 111 and the other end is connected to the lower portion of the support 111, the first One end of the support 111 may be connected to the fixing part 120, or the other end of the support 111 may be connected to the second fixing part 130.

The handle 112 is an added configuration for handling the jig 100, for example, carrying or installing, positioning and maintaining, or removing the jig 100. In the present embodiment, the handle 112 is curved to have an arch shape. The shape is not limited thereto, and when the lower jaw 10a is fixed to the tibia 21 using the jig 100, an operator directly holds the support 111 and loading of the jig 100. ) And can be fixed.

Referring to FIG. 4A, the first fixing part 120 is fixed to the zygomatic buttress. More specifically, the first fixing part 120 is coupled to the lower edge of the tibial brace (above the Le Fort I Osteotomy Line). A recessed groove 121 is formed in the first fixing part 120, and the groove 121 of the first fixing part 120 has a shape in which a portion to which the first fixing part 120 is coupled is popular.

In addition, the second fixing part 130 is fixed to the mandibular side bone fragment 10b and the bone fragment, that is, the mandibular side bone 10a, the proximal segment or the condyle bearing part by fracture. More specifically, (B) the rear of the vertical bone cutting line (Vertical Bone Cutting Line, 1) for dividing the mandible 10 into the mandible bone 10a and the anterior bone 10b (bone fragment provided with the mandible body) in SSRO The second fixing part 130 is located at.

In addition, a concave groove 131 is formed in the second fixing part 130, and the groove 131 of the second fixing part 130 has a shape in which a portion where the second fixing part 130 is coupled is popular. The second fixing part 130 is fixed to the edge of the mandible side bone, in particular the upper edge.

The first fixing part 120 and the second fixing part 130 are integrally formed with the jig body 110. In this embodiment, the jig 100 is made of a resin, in particular an epoxy resin, for example, is made of Accura SI 40 resin manufactured by 3D SYSTEMS Inc (USA), but the material thereof is limited thereto. It is not possible to manufacture, but it can also be manufactured from other plastic or metal materials. However, the material of the jig 100 is preferably low to harm or harm to the human body.

According to the present invention, after the mandibular fracture, the mandibular bone 10b provided with the mandible is fixed to the maxilla and its position is stably maintained, and the bone piece 10a provided with the head 12a is also jig ( 100) can be fixed between the two bone pieces (10a, 10b) in a state where the position is stably maintained, so that the positional relationship between the head and the joint is in the state as intended by the operator, for example, as described above. Likewise, the original positional relationship recorded on the CT can be reproduced.

Referring to FIG. 4B, the jig 100 is mounted inside the oral cavity of the subject prior to performing the fracture, thereby fixing the position of the mandible 10. In this case, the jaw and the joint maintain the proper positional relationship with the mandible. 10 is coupled to the bone 21.

More specifically, the CT is photographed in the positional relationship between the joint and the joint during CT imaging, for example, the upper and lower teeth of the subject (the upper and lower teeth touch the mouth), and the same structure The jig 100 fixes the position of the mandible 10 while the positional relationship with the joint is aligned.

That is, the jig 100 is aligned inside the mouth of the operator, and the first fixing part 120 and the second fixing part 130 are connected to the tibia 21 and the lower jaw by pins 140 such as screws. 10), the position of the mandible is fixed.

To this end, in a state in which the first fixing part 120 and the second fixing part 130 are disposed on the support wall and the lower jaw 10 of the tibia 21, respectively, the operator uses a drill to drill the first fixing part. Holes are drilled in the fixing part 120 and the second fixing part 130, respectively. When the pin 140 is placed through the hole, the first fixing part 120 and the second fixing part 130 are fixed to the coronal bone 21 and the lower jaw 10.

The first fixing part 120 is coupled to a portion corresponding to the shape of the groove 121 of the first fixing part among the lower edges of the tibia, and the second fixing part 130 is formed from the upper edge of the mandible. A portion corresponding to the shape of the groove 121 of the second fixing part, in particular, is coupled to the rear of the bone cutting plan line 1a to be performed.

When it is confirmed that the installation of the jig 100 is completed, the operator removes the pin 140 to remove the jig 100 from the mouth of the subject. When the mandible 10 is divided into a mandible side bone 10a and a mandible body 10b after the bone cutting for the mandible 10 is performed, the jig 100 for fixing between the two bone fragments is performed. Is reattached to its initial position (the position where the jig is engaged prior to fracture). Therefore, the jig 100 fixes the mandible side bone 10a to one side of the skull 20, in particular, the coronal bone 21, thereby fixing the position of the mandible side bone 10a in the same manner as the position on the CT. The articular head 12a of the mandible upper limb Ramus may be rearranged at the position recorded on the CT.

In conclusion, the jig 100 according to the present embodiment may be mounted at a predetermined position after the bone cutting is performed to fix the position of the mandible side bone 10a. For example, the positional relationship between the joint and the joint on the CT (Computed Tomography) photographed in a state where the joint and the joint 12a and the joint maintain a proper position, more specifically, the mouth closed, can be reproduced. The jig 100 fixes the position of the mandible side bone 10a.

Then, the position of the mandibular body 10b is moved to a position after orthodontic fixation so that the upper and lower teeth are occluded, and the position of the mandible side bone 10a is fixed by the jig 100 at a predetermined position. In, the screw (plate) and the plate (Plate) by the bone fragment (10b, Distal Segment) and the mandibular fixation of the mandibular bone (10a, Proximal Segment) is performed, after the bone piece fixing is completed jig (100) Separated from the oral cavity.

Hereinafter, an embodiment of the manufacturing method of the lower jaw fixing jig 100 is described.

CAD / CAM may be used to manufacture the jig 100 according to the present invention, and a skull model of a patient (patient) may be used, but manufacturing by CAD / CAM is considered in consideration of the time and cost required to manufacture the model. More preferred.

First, referring to Figure 7, if the manufacturing method of the jig for mandibular bone fixation using CAD / CAM as follows. In order to manufacture the jig by the CAD / CAM to obtain a three-dimensional skull image of the subject (S10). The three-dimensional skull image may be generated based on CT data obtained by CT imaging the skull of the subject, which is omitted in the description because it is known in the art.

A three-dimensional skull image (see FIG. 8) obtained based on the CT data and a three-dimensional jig basic image (see FIG. 9) having a basic skeleton shape of the jig are output on a computer screen as shown in FIG. 10 ( S20), the jig position selection (S30) for the jig design is performed.

More specifically, the position of the jig base image is selected by moving the jig base image on a screen on which the 3D skull image is output, that is, in a virtual 3D space. At this time, the coordinates of the jig base image are calculated according to the position and posture of the jig base image, and the skull image and the jig base image can be moved in a three-dimensional virtual space by the user's operation. The image can be viewed in three dimensions at a desired angle, and the position of the jig base image can be identified.

When the jig base image is positioned as shown in FIG. 11 and the positioning of the jig base image is completed as shown in FIG. 11, the overlapped portion of the skull image and the jig base image is removed from the jig base image. Boolean of the CAD program is performed as a result, and as a result, as shown in FIG. 12, the shape acquisition of the three-dimensional jig complete image (the three-dimensional jig image of which design is completed) having the marks of the bone fragments (bone and mandibular) (S40) )do.

The shape defined based on the three-dimensional jig completed image is transmitted to the jig shape data that can be read by the jig manufacturing equipment by the CAM (S50), and the jig 100 is manufactured based on the jig shape data (S60). Can be.

An example of the jig manufacturing equipment may be a three-dimensional molding machine such as a 3D printer, and more specifically, a VIPER molding machine, which is a product of 3D SYSTEMS Inc. (USA), may be used.

The above-described jig manufacturing process can be implemented by CAD / CAM technology, it is also possible to design the jig using the skull actual model of the subject instead of the jig design using the CAM / CAM. However, the difference between the jig manufacturing process using CAD / CAM and the jig manufacturing process using the model is that in the jig manufacturing process using the model, the skull real model is used instead of the 3D skull image, and the same jig basic shape is used instead of the 3D jig basic image. The model is used.

That is, by placing a jig base model (model of the same shape as the above-described jig base image) on the skull model manufactured based on CT data of the skull of the subject, the position of the jig 100 is selected, and the jig When the bone fragment is formed in the jig basic model to the degree that the basic model and the skull model overlap, the grooves 121 corresponding to the bone fragments in the first fixing part 120 and the second fixing part 130, respectively. , 131 is formed.

As described above, according to the present invention, the present invention can be embodied in other specific forms without departing from the spirit and scope of the present invention. It is obvious to them.

Therefore, the above-described embodiments should be regarded as illustrative rather than restrictive, and thus, the present invention is not limited to the above description and may be modified within the scope of the appended claims and their equivalents.

10: mandible 11: mandible
12: upper jaw 12a: articular head
20: skull 21: bone
100: jig 110: jig body
111: support 112: handle
120: First Government 121: Home of the First Government
130: Second Government 131: Home of the Second Government
140: pin

Claims (8)

As a mandibular fixation jig for aligning the articular head with the joint of the temporal bone (Fossa) by fixing the mandibular temporal bone provided with the mandibular condyle after the bone cutting in the jaw surgery. ;
Jig body for supporting the mandible side bone; And
A first fixing part provided at one side of the jig body to be fixed to one side of the skull; And
The lower jaw fixing jig is configured to include a second fixing part provided on the other side of the jig body, to be fixed to the lower jaw bone. The method of claim 1,
The first fixing part, the lower jaw fixing jig, characterized in that provided on the upper side of the jig body to be fixed to the bone (Zygomatic bone) of the skull. The method of claim 2,
The first fixing part is a mandible side bone fixing jig, characterized in that it has a concave shape to be coupled to the lower edge of the coronal bone. The method of claim 1,
The second fixing part is a mandible side bone fixing jig, characterized in that it has a concave shape to be coupled to the edge of the mandible side bone. The method of claim 1,
The first fixing part and the second fixing part is a mandible side bone fixing jig, characterized in that integrally molded with the jig body. The method according to any one of claims 1 to 5,
The jig body is;
Jig for mandibular bone fixation comprising a handle for connecting the first and second fixing parts and the handle for handling the support. After jaw cutting is performed, the mandibular condyle with mandibular condyle is fixed to the skull, and the mandibular condyle fixing jig for aligning the head with the joint of the temporal bone and Fossa. As a manufacturing method;
An image output step of outputting a three-dimensional skull image and a basic three-dimensional jig image of the subject on a display screen; And
And a design step of determining a shape of the jig according to a position of the jig image selected on the skull image. The method of claim 7, wherein
The design phase;
Outputting the position of the jig base image by superimposing the jig base image on the skull image to select the location of the jig base image; and
And removing the overlapping portion of the skull image and the jig base image from the jig base image.

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