RU2731648C1 - Method of controlling increase in width of attached gingiva after conducting vestibuloplasty - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: group of inventions refers to medicine, namely to surgical dentistry, and can be used for diagnosis in operations aimed at increasing the volume of attached keratinized oral mucosa. Before the operation, a plate is made, which fixes the depth of the oral cavity before the operation, by taking an impression, casting of the diagnostic plaster model, making a plate on it of light-cured plastic material, having a lower edge corresponding to the transition boundary of the attached gingiva to the movable one. One month after the vestibuloplasty procedure, the previously produced plate is fixed in the oral cavity, the impression is photographed by an algite impression and the second gypsum model is cast, on which the width of the attached gingiva is measured by determining the distance between the lower edge of the said plate and the surgically corrected transition border of the graft to the movable gingiva. Also, the growth width of the keratinized attached gum produced as a result of vestibuloplasty can be determined virtually using 3SHAPE laboratory scanner and the Amira software platform.

EFFECT: inventions allow controlling the increase in the width of the attached gingiva after conducting vestibuloplasty, determining the effectiveness of the surgical technique.

2 cl

Description

The inventions relate to the field of medicine, namely to surgical dentistry, and can be used as diagnostic methods in operations aimed at increasing the volume of attached keratinized oral mucosa.

The overwhelming majority of performed surgical procedures are aimed at improving the parameters of bone and soft tissues, and the assessment of changes in their initial values is an integral part of observations and studies.

Depending on the stage of treatment at which the available parameters are analyzed, measurements can be preclinical (before operating), clinical (intraoperative) and postclinical (postoperative). Preclinical activities include activities carried out at the stage of diagnosis and planning of future intervention. Clinical measurements are performed directly during the operation. Postclinical at different periods of treatment as dynamic observation after the intervention. Based on the results of the measurements performed, both preclinical and postclinical, an assessment of the success of the surgical intervention is given, therefore the reliability of the measurements performed plays an important role in the possibility of further application of the method used, in the justification of its application and in efficiency in general.

Bone tissue is traditionally considered to be a more stable structure in comparison with soft tissues and its diagnosis due to the availability of modern 3D diagnostic methods is not difficult. The measurement of the parameters of soft tissues is always difficult due to the impossibility of their reproduction in space by means of computed tomography, the presence of mobility of the oral mucosa. All known methods for determining the size of the attached keratinized mucosa require compliance with certain nuances in order to avoid subjectivity of the measurements. The key to obtaining reliable data is the use of stable and constant points of support for orientation and determination of a specific location for repeated measurements. The presence of a natural tooth or an already orthopedic structure supported by an intraosseous dental implant greatly facilitates this task, but interventions to increase the volume of the attached mucous membrane can be performed both at the stage of installing the healing caps and at the stage when there are no reference points for measurements.

From the prior art (RU 2572163, 27.12.2015), an instrumental method for diagnosing the topography and size of the gums is known, designed to determine the zone of keratinized gums, using a device containing a neck, working and auxiliary parts, which are made as a whole from steel with a thickness of 1-1 , 5 mm. The working part is made with a corner bend with a radius of 2.5 mm and with a slot. On the working part there is a measuring scale like a ruler. The measuring scale is graduated in mm divisions from 0 at the base of the angular bend of the working part to 12 at the end of the working part. The handle, neck and working part are connected at physiological angles, made so that the zero mark is aligned with the muco-gingival junction, and the free gingival margin is visible through the slot.

In addition, the device by I.I. Borodulina is known. for measuring the depth of the vestibule of the oral cavity (dissertation for the degree of Doctor of Medical Sciences "Improving the effectiveness of surgical treatment of periodontal diseases", Moscow, 2005), which is a rearranged plastic caliper, in the upper long branch of which an elastic metal wire of L-shape was fixed. A plastic tube of a certain length is put on the wire. When measuring, the end of the plastic tube is installed in the deepest part of the vestibule, the lower working jaw of the caliper is fixed at the marginal edge in the middle of the tooth crown. To determine the depth of the vestibule, the measured distance is subtracted from the specified length of the plastic tube. Thus, in the depth of the vestibule, the sum of the free and attached gums and the size of the mobile mucosa from the transitional fold to the arch of the vestibule at its highest point are included.

Also, there is a known method for diagnosing dentoalveolar anomalies (UA 51987, 08/10/2010) in which the depth of the vestibule of the oral cavity is determined by taking impressions of the jaw, making gypsum diagnostic models based on them and measuring the required value on the model vertically. After the production of diagnostic models, the patient with the jaws closed in the central occlusion is placed in the vestibule of the mouth with a semi-liquid impression mass, it is evenly placed with the movements of the closed lips and cheeks, and after the impression mass has hardened, the vestibular impression is removed from the oral cavity, placed on the vestibular surface of the dental arches and alveolar models , closed in the central occlusion, outline the limits of the vestibular print on the model and measure the vertical distance between these boundaries.

The disadvantage of methods known from the prior art for determining the depth of the vestibule vestibule is the lack of the ability to assess the success of the surgical intervention - vestibuloplasty.

The technical result of the claimed inventions is to control the increase in the width of the attached gums after vestibuloplasty, to determine the effectiveness of the method of surgical intervention.

The technical result is achieved due to the fact that, before the operation, a plate is made, which fixes the depth of the vestibule of the patient's oral cavity before the operation, by taking an impression, casting a diagnostic plaster model, making it, from light-cured plastic, a plate having a lower edge corresponding to the transition border of the attached gums in the movable oral mucosa; a month after the operation of vestibuloplasty, the previously made plate is fixed in the oral cavity, an impression is taken with an alginate impression mass and a second plaster model is cast on which the width of the attached gum is measured by determining the distance between the lower edge of the said plate and, corrected as a result of the operation, the border of the transition of the attached gingiva into mobile mucosa.

In addition, the claimed technical result can also be achieved by designing a virtual plate and its stereolithographic production. This method of manufacturing a virtual plate, used to control the increase in the width of the attached gum, is associated with the fact that constant contact with moisture, plaster, ceramic dust, plastic materials (methacrylates) is a serious cause of hand skin disease. In this regard, the protection of the skin and regular care of it become extremely important for the dentist. The more manual operations are performed, the higher the risk of an occupational disease of the skin of the hands, as there is constant contact with allergens. For prevention purposes, it is recommended to avoid direct contact with liquid plastic whenever possible.

In connection with the above, the control of the increase in the width of the attached gums after the vestibuloplasty is carried out due to the fact that before the operation a plate is made that fixes the depth of the vestibule of the patient's oral cavity before the operation, by taking an impression, casting a diagnostic plaster model, scanning the plaster model using a three-dimensional contactless a 3SHAPE laboratory scanner, using the Amira software platform, a fixation plate is simulated, the lower edge of which corresponds to the border of the transition of the attached gingiva into the movable oral mucosa, the virtual projection of the plate is converted into STL format and a stereolithographic model of the constructed plate is printed on its basis; a month after the vestibuloplasty, the patient is taken a second impression with an alginate impression mass, with a stereolithographic model of the plate previously fixed in the oral cavity, a second diagnostic plaster model of the jaw with a plate is obtained, the resulting model is scanned using a 3SHAPE laboratory scanner, using the Amira software platform, the width, adjusted as a result of the operation, the attached gums by determining the distance between the lower edge of the plate and, corrected as a result of the operation, the border of the transition of the attached gums into the movable mucous membrane of the oral cavity.

The method for controlling the increase in the width of the attached gums after vestibuloplasty is carried out as follows:

Before the operation of vestibuloplasty, an impression is taken with an alginate impression mass and a diagnostic plaster model is cast. On the resulting model, the place of transition of the existing keratinized attached gum to the mobile oral mucosa is noted. The existing natural teeth, the surface of the palate during the operation on the upper jaw / the alveolar ridge during the intervention on the lower jaw are covered with a sheet of light-cured plastic to create the border of the future plate in the projection of the marked transition of the attached mucosa into the mobile one. The first correction is made on the plaster model with the elimination of excess plastic and its polymerization with a lamp on the plaster model for.

The resulting plate is removed from the diagnostic model, corrected using a cutter and a straight tip and fitted in the patient's mouth. An operation of vestibuloplasty is performed. One month after the intervention, the patient is re-imprinted with an alginate impression mass and a second plaster model is cast, with a previously fixed plate in the oral cavity. The border of the attached keratinized gingiva displaced as a result of the performed operation is visualized on a new plaster model and allows measuring the increase in the area of the newly created volume of the vestibule of the oral cavity.

In another embodiment, a method for controlling the increase in the width of the attached gums after vestibuloplasty can be carried out as follows:

Before the operation of vestibuloplasty, an impression is taken with an alginate impression mass and a diagnostic plaster model is cast. The plaster model is scanned using a 3SHAPE three-dimensional non-contact laboratory scanner and a digital model is created. Using the Amira software platform, a fixation plate is modeled, the lower border of which is the existing border of the transition of the attached gingiva into the movable oral mucosa. The virtual projection of the plate is converted into the STL format, and on its basis a stereolithographic model of the previously constructed plate is printed. An operation of vestibuloplasty is performed. A month after the vestibuloplasty, the patient is removed a second impression with an alginate impression mass, with a previously fixed plate in the oral cavity. Get a second diagnostic model of the jaw with the already existing previous border of the attached mucosa, corresponding to the lower edge of the plate. The resulting model is scanned using a 3SHAPE scanner. Using the Amira software platform, the width of the surgically corrected attached gingiva is determined by determining the distance between the lower edge of the plate and the surgically corrected border of the transition of the attached gingiva into the movable oral mucosa.

The method is illustrated by clinical examples.

Clinical example 1

Patient M., 55 years old, applied for treatment with a diagnosis of partial secondary edentulousness of the upper jaw in the anterior region, shallow vestibule of the oral cavity, lack of attached keratinized mucosa in the absent area 1.2 1.1 2.1 2.2. At the time of examination, the patient uses a mouthguard that temporarily restores an aesthetic defect in the frontal region and complains of a constant feeling of tension in the area of missing teeth when eating and talking.

Objectively: missing teeth 1.2 1.1 2.1 2.2; the volume of the attached keratinized mucosa <2 mm. The presence of pathological cords and tissue ischemia are visualized when the upper lip is pulled.

Before the vestibuloplasty, the patient took an impression using an alginate impression mass, then a diagnostic plaster model of the upper jaw was made. The model shows the boundary of the available volume of attached keratinized mucosa. A plate is modeled from self-hardening plastic with support on existing natural teeth, the lower boundary of which is the fixed place of transition of the attached mucosa into the mobile one. The plate is polymerized in a photopolymerization lamp for 6-8 minutes. The plate has been corrected with a straight tip and a cutter. A month after the vestibuloplasty, the patient took a second impression with an alginate impression mass, with a previously fixed plate in the oral cavity. A second diagnostic model of the upper jaw with an already existing previous border of attached keratinized mucosa was obtained. The new border of the transition of the attached mucosa to the mobile one is also marked on the obtained model. The width of the attached gum is measured by determining the distance between the lower edge of the said plate and, corrected as a result of the operation, the border of the transition of the attached gum to the movable one. The dynamics of preservation of the obtained result of vestibuloplasty was assessed by obtaining additional plaster models for periods of three, six and twelve months

Clinical example 2

Patient B., 35 years old, applied for treatment with a diagnosis of partial secondary adentia of the lower jaw, shallow vestibule of the oral cavity, lack of attached keratinized mucosa in the absent area 4.6 4.7. The patient underwent the first surgical stage - the installation of dental implants in the missing area 4.6 4.7; Three months after the installation, the second surgical stage was performed - the installation of the gum formers.

Objectively: missing teeth 4.6 4.7; forms the gums; the volume of the attached keratinized mucosa <2 mm. The presence of pathological strands and tissue ischemia is visualized when the lower lip is pulled; personal hygiene was performed due to the presence of pain

Before the vestibuloplasty, the patient was imprinted with an alginate impression mass, then a diagnostic plaster model of the lower jaw was made. The model shows the boundary of the available volume of attached keratinized mucosa. The model was scanned with a 3 SHAPE laboratory scanner. Using the Amira software platform, a fixation plate was modeled with support on the existing teeth of the lower jaw, the lower border of which is the existing border of the transition of the attached mucosa to the movable one in the area 4.6 4.7. The virtual projection of the plate is converted to stl format. and on its basis a stereolithographic model of the constructed plate is printed. A month after the vestibuloplasty, the patient was taken a second impression with an alginate impression mass, with a previously fixed plate in the oral cavity. A second diagnostic model of the lower jaw with an already existing previous border of attached keratinized mucosa was obtained. The new border of the transition of the attached mucosa to the mobile one is also marked on the obtained model. The resulting model is scanned using a 3SHAPE scanner. Using the Amira software platform, the width of the surgical-corrected attached gingiva is determined by determining the distance between the lower edge of the plate and the surgical-corrected transition border of the attached gingiva. The dynamics of preservation of the obtained result of vestibuloplasty was assessed by obtaining additional plaster models for periods of three, six and twelve months.

Claims (2)

1. A method for controlling the increase in the width of the attached gums after vestibuloplasty, which consists in the fact that before the operation, a plate is made, which fixes the depth of the vestibule of the patient's oral cavity before the operation, by taking an impression, casting a diagnostic plaster model, making a plate based on it from light-cured plastic. the lower edge corresponding to the border of the transition of the attached gums to the movable oral mucosa; a month after the operation of vestibuloplasty, the previously made plate is fixed in the oral cavity, an impression is taken with an algite impression mass and a second plaster model is cast, on which the width of the attached gum is measured by determining the distance between the lower edge of the said plate and the border of the transition of the attached gum to the movable oral mucosa. 2. A method for controlling the increase in the width of the attached gums after vestibuloplasty, which consists in the fact that before the operation, a plate is made that fixes the depth of the vestibule of the patient's oral cavity before the operation, by taking an impression, casting a diagnostic plaster model, scan the plaster model using a 3SHAPE laboratory scanner, using the Amira software platform, a virtual fixation plate is simulated, the lower edge of which corresponds to the boundary of the transition of the attached gingiva into the movable oral mucosa, the virtual plate is converted to STL format and a stereolithographic model of the simulated plate is printed on its basis; a month after the operation of vestibuloplasty, an impression is taken from the stereolithographic model of the plate previously fixed in the oral cavity, the second plaster model is cast, the resulting plaster model is scanned using the 3SHAPE scanner, the width of the attached gingiva corrected as a result of the operation is determined by determining the distance between the lower the edge of the stereolithographic plate and the border of the transition of the attached mucosa into the mobile one corrected as a result of the operation.