RU2773415C1 - Method for forming the contour of crown eruption after the direct dental implantation operation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: inventions relate to medicine, namely dentistry, and can be used to improve the quality of treatment of patients using dental implants. The impression is removed and the diagnostic plaster model is cast. The model is scanned using a 3SHAPE three-dimensional contactless laboratory scanner. The forming individual profile of the device’s gum eruption is modeled along the contour of the tooth or the tooth of the same name from the opposite side in the 3SHAPE Implant Studio program. In this case, the device is formed as a truncated hollow cone, the outer side of which has a polished surface, and the inner a rough surface, the upper wide base of the forming device has an inner diameter and shape corresponding to the outer diameter and shape of the temporary crown, the inner lower diameter and shape of the narrow base has a diameter and shape corresponding to the extraosseous part of the installed dental implant, while the lower narrow base has an inner section of a cylindrical shape with a height of 3 mm, the diameter and shape of which correspond to the diameter and shape of the extraosseous part of the installed dental implant. The ready forming device and a temporary crown are milled using PMMA plastic. A simulated forming cone is installed on the model. Tooth extraction is performed. Dental implantation and installation of a forming device on an implant installed in the oral cavity are carried out. A temporary abutment with a forming device is fixed using a light-curing composite. Direct relocation of a temporary crown made of PMMA plastic is carried out before the operation and its installation on a temporary abutment, the wound is sutured with intedrrupted sutures. After the period of osseointegration, the quality of the formation of the contour of eruption through the gum is evaluated. After 10 days, the sutures are removed.

EFFECT: inventions, due to the use of a shaping device manufactured before surgery, taking into account the individual characteristics of the patient, make it possible to solve aesthetic problems and restore chewing function at the initial stages of orthopedic treatment, shorten the period of adaptation to permanent prostheses and reduce postoperative discomfort.

2 cl, 1 ex, 8 dwg

Description

The invention relates to medicine, namely to dentistry, and can be used to improve the quality of treatment of patients using dental implants.

The current state of dental science and clinical practice, the level of development of the global dental industry make it possible to achieve a high, most predictable and long-term functional result when restoring dentition using dental implants. (Raes F. et al., 2017; Esposito M. et al., 2018; Gomez - de Diego R. et al., 2018; Spin - Neto R. et al., 2019; Fuentes R. et al., 2019) . Currently, more and more often, not only functional, but also aesthetic results become a priority for patients. The problem of aesthetics in the rehabilitation of patients with partial loss of teeth is especially relevant in orthopedic rehabilitation using dental implants in the anterior jaw (Calvo M.R. et al., 2017) . The increased aesthetic and functional requirements of patients not only for the final result of treatment, but also the desire to form an optimal gum contour around the implant and ensure adequate functioning of the dentoalveolar system at all stages of treatment using dental implants in the aesthetically significant area of the upper jaw make it necessary to use temporary orthopedic structures. (Rodriguez A. M. et al., 2015; Tan W. L. et al., 2016; Araujo M. G. et al., 2017). Dental implantation with the use of temporary orthopedic structures at the stages of treatment allows obtaining predictable and long-term high results in the restoration of dentition in an aesthetically significant area of the upper jaw (Braut V. et al, 2017; Vera C. et al., 2018; Wang H. M. et al., 2019). In dental practice, the following techniques are used to form an individual eruption profile.

A known method of forming an eruption profile using a gingival shaper in the form of an orienting polyhedron and a lower narrow base of a landing truncated cone connected to it (RU No. 107043, A61C 8/00, publ. 10.08.2011).

As a result of the application of this utility model, an opening is formed in the gum that is almost flat on one side and semicircular on the other. Thus, the shape of the hole corresponds to the natural profile of the denture. However, the presented shaper has an average anatomical shape, so the eruption profile is formed without taking into account the anatomical features of the area where the dental implant is installed. In addition, it is difficult to manufacture for a specific implant system. The shaper is designed without taking into account the anatomical features of the future restoration.

Another method of shaping the eruption profile is with a gingiva former. In the well-known gum shaper, containing a detachable cylindrical screw and a forming element, the forming element has a sigmoid shape, while the mesiodistal angle a is 80°, the angle β - the vestibulo-oral angle, is 85°. This gum former provides the conditions for creating an anatomically correct gingival ridge (RU No. 165533 U1, А61С 8/00, 2016.10.20).

At the same time, for its manufacture, the method of casting from metal over a wax composition is used, which does not always make it possible to achieve an ideal connection of the manufactured product with the platform of the dental implant. The accuracy of the marginal fit is highly dependent on the manual skills of the fitter. Inaccuracies in the marginal fit can lead to microbial contamination and is a trigger for the development of inflammation. Installation of the shaper requires an additional surgical stage, already after the implant osseointegration, which leads to repeated trauma to the tissues in the treatment area and increases the risk of surgical complications. The shaper is designed without taking into account the anatomical features of the future restoration.

A known method of manufacturing an individual positionable gum shaper and an individual positionable gum shaper (RU 2623315 C1, A61C 8/00, publ. 06/23/2017). The method for manufacturing an individual positionable gum former includes scanning the oral cavity, followed by the creation of a virtual model of the dentition. A working plaster model of the dentition based on implants is made, which is scanned and its virtual model is created. In a virtual model, a future tooth crown is placed in a defect in the dentition, then an individual positioned gum former is modeled. The intra-implant part of the shaper is modeled taking into account the geometry of the installed implant, and the shape and position of the shaper head (supragingival part of the shaper) is modeled similar to those of the gingival part of the artificial crown. The method proposed by the authors has a number of disadvantages, namely, the gum shaper can be modeled only after the period of osseointegration of the installed implant and after taking an impression from it; to install the gingiva former, it is necessary to carry out a separate surgical step, which requires a gum incision in the implant area; it is necessary to carry out an additional orthopedic stage to transfer the formed gingival eruption profile to the plaster model of the patient - the stage of individualization of the impression transfer.

The objective of the invention is to create a method that allows to achieve a high aesthetic and functional result in the formation of a natural eruption contour after the direct operation of dental implantation.

The technical result achieved through the use, made before surgery, taking into account the individual characteristics of the patient, forming devices during the implementation of the method, is the solution of aesthetic problems and the restoration of chewing function at the initial stages of orthopedic treatment, reducing the period of adaptation to permanent prostheses and reducing postoperative discomfort.

To achieve a technical result, prior to the operation, an impression is taken and a diagnostic plaster model is made for making a navigation template. The resulting models are scanned using a 3SHAPE 3D non-contact laboratory scanner. According to the contour of the tooth to be removed or the tooth of the same name on the opposite side, a device is modeled in the 3shape implant studio program that forms an individual gum eruption profile. It is modeled in the form of a truncated hollow cone, the outer side of which has a polished surface, and the inner rough surface. At the same time, the upper wide base of the forming device is modeled in such a way that the inner diameter and shape of it correspond to the outer diameter and shape of the temporary crown planned for use, and the inner lower diameter and shape of the narrow base are modeled taking into account its correspondence with the diameter and shape of the extraosseous part of the planned crown. installation of a dental implant. In the lower narrow base, an internal section is also modeled, having a cylindrical shape 3 mm high, the diameter and shape of which correspond to the diameter and shape of the extraosseous part of the dental implant planned for installation. The forming device is milled from PMMA plastic. Dental implantation is carried out and the forming device is installed on the implant installed in the oral cavity. A temporary abutment with a forming device is fixed using a light-cured composite. Direct relining of a temporary crown made of PMMA plastic before surgery and its installation on a temporary abutment is carried out; after the period of osseointegration, the quality of formation of the gingival eruption contour is assessed.

The method is illustrated by the following images:

Fig 1. Computed tomography data before tooth extraction 1.4.

Fig. 2. Clinical picture in the oral cavity tooth 1.4 before removal

Fig. 3. Detailed implant placed in hole 1.4

Fig. 4. A simulated forming cone is installed on the model

Fig. 5. A simulated forming cone is installed in the oral cavity

Fig. 6. Finished temporary crown

Fig. 7. A temporary crown was installed in the oral cavity.

Fig. 8. Suture removal

The method is implemented as follows.

Prior to tooth extraction, an impression is taken with the Silagum impression material. A diagnostic plaster model is cast. The model is scanned using a 3D non-contact laboratory scanner 3SHAPE, modeling a forming cone along the contour of the tooth being removed or the tooth of the same name from the opposite side in the 3shape implant studio program, milling an element from PMMA plastic that transmits the contour of the extracted tooth; after installation of the forming cone, it is fixed on a light-cured composite in the oral cavity with a temporary abutment.

Example. Patient B., aged 34, was admitted to the clinic with a diagnosis of Chronic periodontitis of the tooth 1.4 (Fig. 1).

External examination - no features, facial configuration is not changed, mouth opening is free.

Pre-measure the removed tooth by means of computed tomography (Fig. 2).

An impression is taken and a diagnostic plaster model is cast. Scanning the model using the 3SHAPE 3D non-contact laboratory scanner. Model forming an individual profile of gingival eruption of the device along the contour 1.4. tooth and/or tooth of the same name from the opposite side in the 3shape implant studio program. At the same time, the device is formed in the form of a truncated hollow cone, the outer side of which has a polished surface, and the inner rough surface, the upper wide base of the forming device has an inner diameter and a shape corresponding to the outer diameter and shape of the temporary crown, the inner lower diameter and the shape of the narrow base have a diameter and the shape corresponding to the extraosseous part of the installed dental implant, while the lower narrow base has an inner section of a cylindrical shape 3 mm high, the diameter and shape of which corresponds to the diameter and shape of the extraosseous part of the installed dental implant. A forming device and a temporary crown are milled from PMMA plastic. A simulated forming cone is installed on the model (Fig. 3) Under infiltration anesthesia Sol. Ultracaini 4%-1.7 No. 1, tooth 1.4 was extracted. Dental implantation is carried out (Fig. 4) and the forming device is installed on the implant installed in the oral cavity (Fig. 5). A temporary abutment with a forming device is fixed using a light-cured composite. The temporary crown made of PMMA plastic before the operation is directly relined (Fig. 6) and placed on the temporary abutment, the wound is sutured with Monosyl No. 5-0 interrupted sutures (Fig. 7). After the period of osseointegration, the quality of the formation of the gingival eruption contour is assessed. After 10 days, the sutures were removed (Fig. 8). A month after the operation and installation of a temporary forming cone with a crown, the quality of the formation of the eruption contour was assessed.

Claims (2)

1. A method for creating an individual gingival eruption profile during dental implantation, including taking an impression, casting a diagnostic plaster model, scanning the model using a 3SHAPE three-dimensional non-contact laboratory scanner, modeling a device that forms an individual gingival eruption profile along the contour of the tooth being removed or the tooth of the same name from the opposite side in 3shape implant studio program, milling of the forming device and temporary crown from PMMA resin, dental implantation, installation of the forming device on the implant installed in the oral cavity, fixation of the temporary abutment with the forming device using a light-cured composite, direct relining of the temporary crown made of PMMA plastic to operation, and its installation on a temporary abutment, after a period of osseointegration, the quality of the formation of the gingival eruption contour is assessed. 2. Forming device for implementing the method according to claim 1, made of PMMA plastic in the form of a truncated hollow cone, the outer side of which has a polished surface, and the inner surface has a rough surface, the upper wide base of the forming device has an inner diameter and shape corresponding to the outer diameter and shape temporary crown, the inner lower diameter and shape of the narrow base has a diameter and shape corresponding to the extraosseous part of the installed dental implant, while the lower narrow base has an inner section of a cylindrical shape 3 mm high, the diameter and shape of which correspond to the diameter and shape of the extraosseous part of the installed dental implant.

Images