RU2623315C1 - Method for manufacture of individual positioned gingiva former for and individual positioned gum former - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method for manufacture of an individual positionable gingiva former includes oral cavity scanning, and then creating a virtual dentition model. A working plaster model of the dentition with an implant support is produced, which is scanned and its virtual model is created. In the virtual model, the future tooth crown is placed in the dentition defect, then the individual positionable gingiva is modeled. The intra-implant part of the former is modeled taking into account the implant geometry, and the former head shape and position (supragingival former part) is modeled similar to that of the pregingival part of the artificial crown. A channel is modeled in the former for fixation to the implant with a screw, ensuring co-axial placement of the modeled shaper in the implant channel, as well as tight contact of shaper and implant. Based on the obtained model, an individual positionable gingiva former is milled. The individual positionable gingiva former consists of the inner-implant part of the former corresponding to the installed implant, former head (supragingival former part), the shape and position of which is similar to that of the pregingival part of the artificial crown, and a channel is located in the former to fix it to the implant.

EFFECT: inventions allow to eliminate the risk of gingival injuries when installing the gingiva former, to install the gingiva former not in the alveolar process center, to achieve a good aesthetic and functional result and to shorten the time of orthopedic treatment.

2 cl, 6 dwg, 1 ex

Description

The group of inventions relates to medicine, namely to surgical and orthopedic dentistry, and can be used to improve the results of treatment of adentia using dental implantation.

The traditional standard healing abutment is a one-piece construction that is screwed into the artificial tooth root (implant) immediately after implantation or after 3-6 months.

Externally, the gingiva former resembles a thick metal screw with a tight thread and a cylindrical upper part in size of the future tooth.

The multi-turn thread of the shaper allows you to securely fix the entire metal structure in the artificial root of the tooth. The shape and diameter of the shaper depend on which tooth is restored and must be individual in each case. However, standard cylindrical gingival formers are currently used.

The purpose of the shaper installation is to create the correct gingival contour around the artificial tooth crown. The further appearance of the area with the implant and how tightly the gum will fit to the prosthesis depends on its use, which is especially important when installing implants in an aesthetically significant area, for example, when prosthetizing the frontal group of teeth.

In connection with the foregoing, an urgent problem is the use of not standard gingival formers, but formers made individually for each clinical situation.

A special need for an individual shaper arises during prosthetics with artificial crowns based on implants of the incisors and canines of the upper and lower jaws, as well as in difficult clinical situations, for example, when the implant surgeon placed the implant in an unfavorable (incorrect) position from the point of view of the orthopedic dentist. More often, this is an incorrect inclination of the implant or implant placement not in the center of the alveolar ridge.

There is a known method of manufacturing an individual shaper (Hafizova F.A. Comparative study of various methods of forming the gums around the cervical part of dental implants. Abstract of the dissertation for the degree of candidate of medical sciences. Kazan, 2009 - prototype), which is an integral design. The manufacturing technology of an individual shaper is based on wax modeling on the surface of a standard titanium support and connecting element, individualized parts of the shaper, followed by replacing them with an alloy of titanium nickelide ("Titanide") by injection molding. As a result of these technological processes, a multilayer construction of the healing abutment is obtained.

However, the shaper described in the work of Hafizova F.A. has several disadvantages:

- the shaper is screwed in, so it is asymmetric;

- the shaper is made by injection molding - involves the use of a standard titanium support and connecting element. However, this method can now be considered obsolete. The wax modeling and casting used in this process require high labor costs both in time and in the materials used.

- the result is a "multi-layer construction of the healing abutment." Moreover, the author admits a minimum clearance. However, microorganisms can accumulate at the junction points that adversely affect the state of the formed gums.

- Hafizova F.A. offers to produce the healing abutment only from titanium alloy.

In addition, a gingiva former and a method for its manufacture are known (RF patent for utility model No. 107043), made in the form of an orienting polyhedron and a lower narrow base of a landing truncated cone connected to it, the upper wide base of which is connected to a cylindrical groove connected to the lower narrow base truncated gingival cone, the nodes of the device are made with an internal through cylindrical hole for the mounting node. On the upper wide base of the gingival truncated cone, a cylinder of equal diameter with an inner through cylindrical hole for the mounting unit is installed, on the gingival block formed by the cylinder and gingival truncated cone, a one-sided conical groove is made, in the upper part of the cylinder a groove is made for the head of the mounting unit.

The gum shaper proposed by the authors is also not without drawbacks:

- has a cylindrical shape, and the shape of the root of a natural tooth is far from always symmetrical;

- difficult to manufacture, has a cylindrical groove, conical groove;

- cannot be manufactured for different implant systems.

We solved the problem of developing a methodology for manufacturing an individual positioned gum former, devoid of the disadvantages of the prototype.

The technical results achieved by the implementation of the developed inventions are:

- the shaper is positioned.

Due to the fact that the gum shaper we offer is installed in the implant (rather than screwed in as standard), that is, it occupies a certain position, it should be considered positioned. This eliminates the risk of injury to the gums during its installation (unlike the standard shaper, which is screwed during installation), because the shaper is installed in the implant and fixed with a screw,

- the shaper can be installed, including if the implant is installed in a position that is unfavorable (incorrect) from the point of view of the orthopedic dentist, for example, if the implant is tilted incorrectly or the implant is not placed in the center of the alveolar bone,

- the gingiva former can be made of any milled material, and not just of a titanium alloy,

- is a solid milled design, which eliminates the possibility of microbial contamination,

- the virtual design of the shaper is stored in the computer's memory, which allows its correction and information transfer, for example, to the milling center or clinic for coordination with the orthopedic surgeon,

- the possibility of manufacturing a highly aesthetic restoration in the front of the dentition,

- reducing the time of orthopedic treatment.

The method is as follows.

After an intraosseous implantation operation, after 3-6 months, an oral cavity scan is performed, as a result of which the location of the implants is determined and a virtual model of the dentition is created.

Infiltration anesthesia is performed. After that, a minimum rounded gum section is excised over the dummy screw to ensure that the dummy screw is removed. Then the dummy screw is unscrewed from the implant. A cast transfer is installed, an impression is taken from the dentition, as well as an impression from the antagonist teeth.

After the impression is removed from the oral cavity, a standard small-diameter gum former 3 mm is screwed into the implant.

In the dental laboratory, a working gypsum model of the dentition is manufactured according to the traditional method adopted for prosthetics, based on implants.

Next, the working model is scanned and a virtual model of the jaw (dentition) is created - for the correct placement and modeling of the positioned gingival former.

Using a computer program (CAD) model (place) the future crown in the defect of the dentition. Then, with respect to the crowns placed in the defect, an individual positioned gingiva former located in the implant analogue in the model is modeled.

In this case, the intra-implant part of the shaper is modeled according to the implant system used in a particular patient (hexagon, trihedron, etc.), i.e. taking into account the geometry of the installed implant.

The head of the shaper (supragingival part of the shaper) is modeled taking into account the fact that its shape and position (for example, lingual position) should be similar to those of the future gingival part of the artificial crown. This is possible due to the fact that the tooth crown is virtually already placed in the defect of the dentition. The geometrical dimensions of the shaper are made so that it was possible to place the shaper inside the gingival part of the artificial crown, ensuring their tight contact.

Thus, the resulting head of the gingiva former and the gingival portion of the tooth crown are similar (hereinafter, the head is placed in the gingival portion of the crown).

A channel is modeled in the former for fixing it with a screw to the implant, ensuring coaxial placement of the modeled former in the implant channel, as well as tight contact between the former and the implant.

Thus, we obtain a virtual model of an individual positioned gingival former for a specific case in this clinical situation.

Then, information about the shaper model is sent to the milling machine (milling machine), and the gum shaper we developed is milled from the titanium alloy blank. Moreover, it is possible to mill the former from any material, for example polyetheretherketone.

After sterilization, the shaper enters the clinic. An orthopedic dentist twists a standard shaper. Installs (positions) an individual driver, fixes it with a screw, conducts its assessment.

Gum formation occurs on average in 10-12 days. During this time, while the gum is forming, the dental technician can make an individual abutment identical to the previously made gingival shaper and an artificial crown using CAD CAM technology.

After which the patient comes to the clinic, the doctor unscrews the fixing screw, removes the individual shaper, sets the abutment and fixes the artificial crown.

Thus, using the individually positioned gingival shaper developed by us, you can reduce the time of orthopedic treatment and get the most aesthetic restoration of the dentition.

The individually positioned gingiva former developed by us consists of

- the intra-implant part of the shaper corresponding to the installed implant,

- the head of the shaper (supragingival part of the shaper), the shape and position of which are similar to those of the gingival part of the artificial crown.

A channel is located in the former for fixing the former with a screw to the implant.

The invention is illustrated by a number of illustrations:

Fig 1. Model of an individual positioned gingiva former (modeled taking into account the technique developed by us).

FIG. 2. Standard shaper in the oral cavity.

FIG. 3. Impression transfer indicates that the implant is installed with an excessive inclination to the lingual side.

FIG. 4. An individually positioned asymmetric gingiva former with a fixing screw.

The elements indicated in FIG. 4:

1 - screw

2 - gingiva former,

3 - the head of the former (supragingival part of the former),

4 - intra-implant part of the shaper

FIG. 5. Individual positioned shaper in the oral cavity

FIG. 6. Ceramic-metal crown (already lined), made using an individually positioned gingival former.

Clinical example.

Patient K. There is a previously installed implant in the area of the missing tooth 46.

After conducting a clinical and radiological examination under local anesthesia, the dummy screw was removed and an impression was taken to make an individual gingival shaper. After that, a standard small-diameter gingiva former (3 mm) is installed. An impression was taken from the upper dentition. An indication for the use of an individual positioned gingival former in this patient was the lingual placement of the implant in the alveolar process of the lower jaw, which would not allow us to make an aesthetic and functional restoration using a standard gingival former. The color of the future crown was determined.

After the impressions were transferred to the dental laboratory, the dental technician made gypsum models of the upper and lower dentitions and scanned them.

After the virtual placement of the crown in the dentition defect, he modeled the gingiva former taking into account the location of the crown and implant. Information on the design of the shaper was transferred to the milling machine, which milled the individual shaper.

After sterilization, an individual positioned shaper entered the clinic. We unscrewed the standard shaper, installed an individual one. The patient was released for 12 days. During this time, the dental technician manufactured an individual abutment identical to an individual positioned gingival former and an artificial ceramic-metal crown.

After 12 days, the individual healing abutment was removed, the individual abutment was installed and the artificial crown was fixed.

With a standard technique, this can take 20-30 days.

A good aesthetic and functional treatment result has been achieved, which could not have been achieved using a standard healing abutment.

Claims (2)

1. A method of manufacturing an individually positioned healing abutment, including virtual modeling of an individual positioning healing abutment, for which the intra-implant part of the abutment is modeled taking into account the geometry of the installed implant, the shape and position of the head of the abutment (supragingival part of the abutment) are modeled similar to those of the gingival part that is virtually installed in the dentition defect artificial crown, and the dimensions of the head are such that they provide a tight placement of the head ki in the gingival portion of the crown also in the shaper channel model for fixing the screw to the implant secured coaxially placing simulated shaper channel implant, and a tight contact of the implant driver and on the basis of the model obtained milled individually positioned healing abutment. 2. An individual positioned gingival shaper made by the method according to claim 1 and consisting of an intra-implant part of the shaper corresponding to the installed implant (4), the head of the shaper (supragingival part of the shaper), the shape and position of which are similar to those of the gingival part of the artificial crown (3), also channel (2) is located in the shaper for fixing the shaper with a screw (1) to the implant.

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