RU2494698C1 - Method of dental prosthetics - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention relates to field of medicine, namely to orthopedic dentistry, and is intended for optimal positioning of implants in jaw bones with complete or partial absence of teeth. Prosthesis is manufactured from polymer material and adapted for patient. Prosthesis is enveloped with radiopaque agent -layer, on the basis of wax, mixed with radiopaque substance and rolled flat to thickness d=0.3-1.0 mm. Computed tomography of jaw together with installed on oral cavity mucosa prosthesis is carried out. Operation of dental implantation is planned by means of virtual positioning of implants. Prototyping of stereolythographic model of jaw with sleeved, position of which corresponds to virtually placed dental implants. Fitting of prosthesis on prototyped model of jaw is performed, through guide bushings of which holes in prosthesis are formed in corresponding positions. Drilling of patient's jaw bone is performed through holes in prosthesis, which are used as surgical conductors. Implants are installed into prepares holes in jaw bone tissue with their further osteointegration.EFFECT: method makes it possible to increase accuracy of positioning intraosseous dental implants in the process of their installation, reduce time of prosthetics and increase efficiency of implantation performance due to application of prosthesis as surgical conductor and operation zone barrier from oral cavity.3 cl, 8 dwg

Description

The invention relates to medicine, namely to orthopedic dentistry, and can be used for optimal positioning of implants in the jaw bones with complete or partial absence of teeth in the jaw.

A known method of performing dental implantation operations, proposed by the company "implant-assistant" (see www. Implant-assistant).

The method involves the use of a removable prosthesis at the initial stage. The prosthesis is made of silicone impression mass by crimping it on all sides, holes are formed that act as gates. For the prosthesis, a mixture of plastic chips with the addition of barium in the form of a powder is used. A copy of the prosthesis is adapted in the oral cavity and a CT scan is performed, according to the results of which the necessary parameters are determined. Virtually, with the help of the program "implant-assistant Planner", the placement of implants is carried out. According to these data, a surgical mucous template is prototyped (grown by the layering method) and the positions of dental implants are determined during surgery.

The disadvantages of this method are:

- copying the prosthesis into a separate radiopaque unit;

- the manufacture of a separate nasal mucous template that does not have the ability to have fixing elements, like on a prosthesis, by the type of clasps, onlays, i.e. the template is not fixed and can be displaced during surgery;

- the radiopaque copy of the prosthesis has a too rough surface that is reversible to the mucous membrane of the oral cavity, which does not allow for tight pressing, and therefore causes an error when installing implants whose positions are not ideal.

There is also a known method of manufacturing a denture (RF patent No. 2339336, IPC АС 8/00 dated 09/15/2004) with complete or partial absence of teeth in the jaw during dental or dental care of patients to be installed on newly installed implants, initially in ligature the oral region or palatine region and / or the jaw crest is screwed in positioning screws provided with a nozzle element, then make an impression, including positioning screws, recording the actual situation with the state of the jaw of the patient, then the corresponding positioning screws are cast into the mold, and in conclusion, other dental work is performed on the impression, including the manufacture of a drilling template for implants to be installed and / or the manufacture of a transfer template, as well as dental work in the patient's mouth, including the use of a drilling template for implant placement and / or locking the implant impression rods with the transfer template, respectively, by fixing to the positioning screws in the impression or jaw.

At the same time, at least three positioning screws are installed in each jaw, which are installed in the bone either using a pilot hole or using the principle of self-tapping screws.

The known method does not provide a single strategy for the orthopedic and surgical stages of treatment and has large errors in positioning when installing dental implants.

The closest in technical essence to the present invention is a known method of manufacturing a guide template for the installation of dental implants (RF patent No. 2400178, IPC A61C 8/00 from 08/11/2009), which consists in the fact that they carry out computed tomography (CT) of the jaw or jaw, on which implantation will be carried out, on the basis of the obtained data, a three-dimensional virtual model of the jaw or jaw is created, an optical scan of the dentition, or dentition, or their plaster models is performed, obtaining virtual models and dentitions and gums, obtained by the results of tomography and optical scanning, the models are combined in virtual space, the resulting model is supplemented by the projection of the location of future artificial teeth of the prosthesis, for which a data bank of artificial teeth is used or radiopaque prototypes of dentures that are installed in the oral cavity are used before CG, on the basis of the thus obtained model, the projection of the position in the bone of the implant is performed, then, taking into account the designed position implant, as well as scanning data of the dentition and gums, design the details of the guide template, which consists of guide shafts connecting their beams and supporting elements, after which the template is made, while the guide shaft can directly rest on the bone, located at the level of the gums, or penetrate into it at some arbitrarily specified depth. In the presence of natural teeth, the guiding template can rest on the teeth, while additionally designed caps that repeat the shape of the teeth that connect to the beam.

A significant drawback of the closest analogue is the high error in the positioning of implants, since the computer model is based on the results of scanning the dentition without taking into account the subsequent location of the denture, and also because it is supposed to use a database of artificial teeth or radiopaque prototypes of dentures that are installed in the oral cavity before the CT. Mentioned database cannot cover all possible individual characteristics of a particular patient.

In addition, the design and manufacture of a special disposable guide template complicates the implementation of the method and also leads to an increase in the error in the positioning and installation of implants.

The aim of the invention is to endow the removable prosthesis with the function of a surgical template and navigator at the planning and diagnostic stages for dental implantation operations.

The technical result, which is to increase the accuracy in positioning when installing implants, is achieved in the proposed method of dental prosthetics, including computed tomography of the jaw, creating a three-dimensional virtual model of the jaw using a tomogram, making a prosthesis from a polymeric material, designing the position of the implants in the patient’s jaw bone and creating a template , is achieved by the fact that the prosthesis made of a polymeric material is wrapped with a layer of radiopaque wax with by tight fit to the surface of the prosthesis, and computed tomography of the jaw is carried out in conjunction with a prosthesis installed on the mucous membrane of the oral cavity and jaw, a stereolithographic model of the jaw is prototyped with guide bushings, the position of which corresponds to virtually placed dental implants, the prosthesis is fitted to the prototyped jaw model through the guide bushings of which in the corresponding positions form holes in the prosthesis, then drill through the jawbone through the holes of the guide bushings in the prosthesis, which is used as a surgical jig to drill the patient's jawbone through the holes in the prosthesis, and implants are inserted into the jaw bone prepared in this way, followed by their osseointegration. In this case, the X-ray contrast layer is made on the basis of wax mixed with X-ray contrast material and rolled to a thickness of d = 0.3-1.0 mm.

An additional technical result that improves the efficiency of implantation is achieved by the use of a prosthesis as a barrier of the operative zone from the oral cavity, management of soft tissues, and also as a depot for drugs.

The invention is illustrated by photographs, where:

- figure 1 shows a removable prosthesis wrapped with radiopaque agent - a layer of radiopaque wax;

- figure 2 explains the virtual positioning of dental implants on the lower jaw in computer modeling;

- figure 3 shows a prototyped model (copy) of the lower jaw with guide bushings;

- figure 4 and figure 5 shows a stereolithographic model of the lower jaw with an adapted partially removable prosthesis;

- Fig.6 shows a partially removable prosthesis with formed holes for pilot drilling (the prosthesis has acquired the function of a template-conductor for precise drilling);

- Fig.7 shows a pilot drilling of the jawbone through an opening formed in the prosthesis;

- Fig. 8 shows an orthopantogram after dental implantation using a prosthesis as a template.

The proposed method is as follows.

A prosthesis is made of a polymer material and adapted for the patient. In this case, the prosthesis is wrapped with a radiopaque agent - a layer based on wax mixed with a radiopaque substance and rolled to a thickness d = 0.3-1.0 mm (Fig. 1).

Then conduct computed tomography (figure 2), on the basis of which they plan the operation of dental implantation by virtual placement of implants using a special program, taking into account all the parameters of future prosthetics.

Computed tomography of the jaw is carried out in conjunction with a prosthesis installed on the mucous membrane of the oral cavity and jaw.

According to the results of computer modeling, a stereolithographic model of the jaw is prototyped with sleeves, the position of which corresponds to the placed implants (Fig. 3).

Then carry out the fitting of the prosthesis on the artificial jaw and the formation of holes in the prosthesis in the direction of the sleeves (see Fig. 4, 5, 6).

After that, the prosthesis with the holes prepared in it is reinserted to the patient and the patient’s jawbone is drilled through the holes in the prosthesis, which is used as a surgical conductor for drilling the patient’s jawbone (Fig. 7).

(Note: “Conductor” (from Latin conduce - collect, translate) - a device for guiding the cutting tool and ensuring its correct spatial orientation, see “New Polytechnical Dictionary.” Scientific Publishing House “Big Russian Encyclopedia”, M. 2000 , p.234).

In this case, implants are installed in the holes prepared in this way in the bone tissue of the jaw, followed by their osseointegration.

The orthopantogram shown in Fig. 8 reflects the result of prosthetics according to the proposed method after dental implantation using the prosthesis as a conductor.

In this case, the prosthesis is used as a barrier of the operating area from the oral cavity, soft tissue management, and also as a depot for drugs.

The proposed method allows to achieve the most rigid fixation in the oral cavity during surgical procedures and high accuracy when installing implants. The prosthesis acts as a design that allows you to rehabilitate the patient for the period of implant osseointegration, to control the degree of edema, because the prosthesis acts as a pressure dressing, provides the formation of a soft tissue contour and the deposition of drugs in the form of ointments on the inner surface of the prosthesis.

The use of radiopaque wax, which is used to wrap a prosthesis already adapted in the oral cavity, reduces the time of prosthetics and after receiving a CT scan, the radiopaque agent is immediately removed from the surface of the prosthesis. The manufacture of a separate radiopaque unit and a separate template, in contrast to known methods, is not required.

An example implementation of the method.

The photos in figures 1-8 for the sequence of operations according to the proposed method relate to the patient for whom the lower and upper jaws were implanted.

At the same time, for the period of osseointegration of implants, the wearing of the prosthesis on the lower jaw was 3 months, on the upper - 6 months.

During this period, the final formation of gum soft tissue and osteintegration took place.

To implement the method, the following technical means were used.

The examination phase included the production of an orthopantomogram.

The images were taken on Cranex 3+ devices from Soredex (Finland) and Phoenix from Radiente.

Multispiral computed tomography was performed on a Picker-HQ 2000 multispiral computer tomograph, USA; Philips Tomoscan AVPS.

For the production of diagnostic models and surgical implantological templates according to multispiral computed tomography and the results of three-dimensional computer simulation by rapid prototyping, Connex500, Eden500V and Eden260 stereolithography or 3D printing devices were used that provide photopolymerization.

Claims (3)

1. A method of dental prosthetics, including computed tomography of the jaw, creating a three-dimensional virtual model of the jaw using a tomogram, making a prosthesis from a polymer material, designing the position of the implants in the patient’s jaw bone and creating a template, characterized in that the prosthesis is wrapped with a layer of radiopaque wax to ensure a dense fit to the surface of the prosthesis, and computed tomography of the jaw is carried out in conjunction with installed on the mucous membrane of the oral cavity and jaw by means of a prototype, a stereolithographic model of the jaw is prototyped with the installation of guide bushings in it, the position of which corresponds to virtually placed dental implants, the prosthesis is fitted to the prototype jaw model, through the guide bushings of which the holes in the prosthesis are formed in the corresponding positions, then the patient’s jaw bone is drilled through the holes in a prosthesis that is used as a surgical jig to drill the patient's jaw bone, while in preparation Openings in the indicated manner in the bone tissue of the jaw establish implants with their subsequent osintegration. 2. The method according to claim 1, characterized in that the X-ray contrast layer is made on the basis of wax mixed with X-ray contrast material and rolled to a thickness d = 0.3-1.0 mm 3. The method according to claim 1, characterized in that the prosthesis is used as a barrier of the operative zone from the oral cavity, soft tissue management, and also as a depot for drugs.

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