RU2575838C2 - Method for making surgical implant template - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medical equipment and is applicable for making dental implant templates. A method for making a surgical dental implant template involves recording a three-dimensional digital image of the oral cavity, recording a three-dimensional digital image of a prototype template and X-ray contrast marker topologically related to the prototype template, recording a digital computer X-ray tomogram of the oral cavity with the inserted prototype template, identifying the marker images of the computer X-ray tomogram, as well as georeferencing the topology of oral bone tissues to that of the prototype template by spatial adjustment of the marker images on the prototype template and digital computer X-ray tomogram of the oral cavity. Virtual markers based on a virtual model of the prototype template comprising virtual markers are integrated into the virtual model of the prototype template; a physical model of the prototype template including the markers is made by rapid prototyping with using the materials with different X-ray contrast ratios for making the prototype template and markers; the physical model of the prototype template is used to record the digital computer X-ray tomogram of the oral cavity.

EFFECT: invention enables providing more accurate mutual referencing of the topologies of the bone tissue, oral cavity and prototype template.

2 cl, 4 dwg

Description

The present invention relates to the field of devices attached to the jaw, dental implants and instruments for implantation and can be used in the manufacture of surgical templates for the installation of dental implants.

State of the art

A known method of manufacturing a template for implant installation, described in RF patent No. 2369354 dated 03/27/2008 (Method for creating a medical template based on information about a digital image of a body part). Its essence lies in the fact that using an X-ray contrast impression mass, an impression is taken from the patient's oral cavity, which serves as the prototype of the template, and due to this, the topology of the oral cavity is recorded. After that, the patient’s oral cavity together with the X-ray contrast impression mass is scanned using a computer x-ray tomograph (CT) and an x-ray image is obtained, and the optimal spatial position of the implant in the bone tissue of the jaws of the patient is simulated using digital images. Then, using software tools, the impression mass is recognized on a three-dimensional image, and a surgical template is created based on the image of the impression mass in contact with the patient’s oral cavity.

The disadvantage of the analogue is the low accuracy of binding the topology of the prototype template to the topology of bone tissue.

Closest to the claimed method according to the technical essence is a method of manufacturing a surgical template for the installation of a dental implant (US patent US 2011008751 "Method and system for dental planning and production"), which consists in using an impression mass placed in a special spoon, which includes several X-ray contrast markers in the form of balls of X-ray contrast material, register the topology of the patient's oral cavity by taking an impression from the oral cavity. After that, the impression along with the spoon is scanned on a three-dimensional scanner and a three-dimensional digital image is obtained. Markers are recognized on the resulting image and their centers are determined. Next, the impression in the spoon is re-placed in the patient’s oral cavity, scanned with CT, and the markers are also recognized on the obtained digital x-ray three-dimensional image of the bone tissue of the oral cavity and their centers are determined. Then, by software, by combining the centers of the markers on the three-dimensional digital image of the impression in the spoon with the centers of the markers on the CT image, a topological combination of the three-dimensional image of the impression mass, which functions as the prototype of the template and the three-dimensional image of the bone tissue of the patient’s oral cavity, is performed. In conclusion, using a digital three-dimensional image, including an image of the impression mass and a topologically combined image of bone tissue, they realize a surgical template.

The disadvantage of the prototype is the low accuracy of binding the topology of the prototype template to the topology of bone tissue.

The disadvantages are due to errors in re-installing the impression in the patient’s oral cavity, the shape and location of the markers are not optimal, as well as deformations of the impression during repeated use.

The purpose of the invention

The aim of the invention is to increase the accuracy of the mutual reference topology of bone tissue, the topology of the oral cavity and the topology of the prototype template.

This goal is achieved by the fact that in the method of manufacturing a surgical template for the installation of dental implants, including the registration of a digital three-dimensional image of the oral cavity, the registration of a digital three-dimensional image of the prototype of the template and topologically connected with the prototype of the template x-ray contrast markers, registration of digital computer x-ray tomograms of the oral cavity with the installed in it a prototype of a pattern, recognition of marker images on a computer x-ray tomogram, and t Also, spatial reference of the bone tissue topology of the oral cavity to the topology of the prototype template by spatial alignment of marker images on the prototype template and digital computer x-ray tomogram of the oral cavity, X-ray contrast markers are placed inside the prototype template made by rapid prototyping of at least two materials with different x-ray contrast

The novelty of the proposed method consists in the placement of x-ray contrast markers inside the material of the prototype template and the manufacture of the prototype of the template and markers by rapid prototyping of at least two materials with different x-ray contrast.

A positive effect is achieved due to the fact that in the proposed method, the prototype of the template is implemented in the form of a spatial object with a topology that ensures the maximum accuracy of fixing the prototype of the template on the tissues of the oral cavity, and the number, shape, size and spatial position of the markers on the prototype of the template are implemented based on individual characteristics topology of the patient’s oral cavity, according to the criterion of minimizing errors in the mutual reference of bone tissue topology, oral cavity topology and prototype template topology.

The invention is illustrated by drawings.

Figure 1 presents the implementation diagram of the proposed method.

Figure 2 presents a three-dimensional image of a virtual prototype template.

Figure 3 shows an example of modeling the three-dimensional topology of X-ray contrast markers in a prototype of a template virtually worn on the jaw.

Figure 4 presents an example of a three-dimensional physical model of a prototype template implemented by rapid prototyping.

Information confirming the possibility of carrying out the invention

An example of the implementation of the proposed method is presented in Fig. 1, where: 1 - a tremer scanner, 2 - a computer program for creating a virtual prototype of a template with markers, 3 - a rapid prototyping apparatus, on which a physical model of a prototype of a template is made, 4 - an X-ray computer tomograph (CT) where a patient is examined with a physical model of the prototype template installed on his jaw. The purpose of the study was to obtain a three-dimensional model of the intraoral cavity, 5 - a computer program with which the spatial combination of the virtual prototype of the template and the intraoral cavity model obtained on CT is performed, 6 - a rapid prototyping apparatus, on which the model of the surgical template is made.

The patient’s oral cavity is scanned with a three-dimensional scanner and a digital three-dimensional image of the oral cavity is obtained. Based on this image, using a specialized computer program, a three-dimensional image of a virtual prototype of a template is modeled (Fig. 2 (7)). in the form of a spatial object with a topology that provides the possibility of its most accurate and multiple fixation on the jaw of the patient (Fig. 3 (8)). After that, in the body of the virtual prototype of the template, taking into account the individual characteristics of the topology of the oral cavity of the patient and the virtual prototype of the template, markers are modeled with software (Fig. 3 (9)), the number, shape, size and spatial position of which allows the most accurate subsequent topological binding prototype template to the topology of the oral cavity. Further, using rapid prototyping technology, for example, on a 3D printer with the possibility of using two different materials, a virtual prototype of a template with markers implements a prototype of a template (Figure 4), in which markers (Figure 4 (9)) are made from a physical model material with greater x-ray contrast. In the case when all the markers are topologically located on the surface of the prototype of the template, they (markers) can be implemented on a 3D printer in the form of empty cavities in the material of the physical model of the prototype of the template, and then manually filled with x-ray contrast material.

As you know, the technology of rapid prototyping should be understood as all the technologies by which the object is built in layers or dotted with the help of filler or hardening material. This technology is also called free-form construction.

The most famous technologies of this type are:

- stereolithography and related technologies, in which, for example, liquid synthetic material in a tank is selectively treated layer by layer using a computer-controlled electromagnetic beam;

- selective laser sintering, in which powder particles are sintered by an electromagnetic beam or connected according to a specific sample;

- layer-by-layer casting by extruded melt, in which the synthetic material melts and combines in accordance with the marking.

A physical model of the prototype template is put on the jaw of the patient and using CT to obtain a three-dimensional x-ray (CT) image, including the image of the bone tissue of the patient's mouth and markers. This image is loaded into a computer program and with its help markers are recognized and the exact spatial position of their centers is determined. After that, the image of the virtual prototype of the template is loaded into the computer program, on which the spatial position of the centers of the markers is known exactly, and the procedure of combining the markers of the virtual prototype of the template and the markers on a three-dimensional CT image of the bone tissue of the oral cavity is implemented. This achieves the exact binding of the spatial position of the bone tissue of the oral cavity to the spatial coordinates of the markers on the prototype template. In conclusion, using a digital three-dimensional image, including the image of the prototype of the template and the topologically accurately combined image of the bone tissue, realize the surgical template.

Claims (2)

1. A method of manufacturing a surgical template for the installation of dental implants, including registration of a digital three-dimensional image of the oral cavity, registration of a digital three-dimensional image of the prototype of the template and topologically connected with the prototype of the template of the x-ray contrast markers, registration of a digital computer x-ray tomogram of the oral cavity with the prototype of the template installed therein, recognition of marker images on a computer x-ray tomogram, as well as spatial reference topologies and bone tissue of the oral cavity to the topology of the prototype template by spatial alignment of marker images on the prototype template and digital computer x-ray tomogram of the oral cavity, characterized in that virtual markers are placed inside the virtual model of the prototype template, based on the virtual model of the prototype template, including virtual markers, are made physical model of the prototype template, including markers, by the method of rapid prototyping, using a template for the manufacture of the prototype on and markers materials with different x-ray contrast, the physical model of the prototype template is used when registering a digital computer x-ray tomogram of the oral cavity, 2. The method according to p. 1, characterized in that on the virtual model of the prototype template create virtual markers in the form of empty cavities, on the basis of the virtual model of the prototype template including virtual markers, make a physical model of the prototype template that includes markers in the form of empty cavities, by rapid prototyping, fill the cavity with x-ray contrast material and use the physical model of the prototype template when registering a digital computer x-ray tomogram of the oral cavity.

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