RU2693129C1 - Method for determination of pressure exerted on tooth in occlusion of dentitions - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to dentistry and can be used in determining the pressure exerted on teeth during occlusion and predicting their functionality. Method for determining pressure applied to the tooth in dental occlusion, comprising conducting an occlusion study by the T-Scan apparatus, storing the occlusion contact data in Adobe Photoshop, scaling obtained findings of occlusal contacts by calculating the number of pixels in 1 mm² and their representation with different colours depending on the degree of intensity, counting the areas of occlusal contacts of a certain colour by means of the Photoshop Magic Wand Tool, counting the total area of the occlusion contacts for all colours, carrying out the patient's gynadynynamometry to obtain the value of the chewing pressure force and calculating pressure of occlusal contacts of each tooth, by calculating the ratio of chewing force to previously determined occlusal total area of occlusion contacts.

EFFECT: use of the invention enables metric determination of the pressure exerted on a portion of the tooth having facial erasability on the occlusal surface by a ratio of chewing force to the occlusal area of the facet tooth erasure defined by objective methods.

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Description

The invention relates to medicine, in particular to dentistry and can be used in determining the pressure exerted on the teeth in the process of occlusion and prediction of their functionality.

There is a method of measuring the force of chewing pressure and strain gauge gauge for this measurement (see AS Ivanov. Strain gauge for measuring the transmission of pressure through the teeth to the periodontium. // Dentistry, No. 3, 1974, p. 86).

There is a method of studying the periodontal sensitivity of teeth to chewing pressure and a device that consists of a metal body having the shape of a cylinder, one end of which is closed and the other end has a scale with graduations and an arrow; inside the body there is a spring connected to the tip. For the implementation of the method, the tip of the device is placed on the surface of the tooth under investigation, and the doctor has a small, gradually increasing pressure with his hand on the body of the device. The pressure that a tooth is subjected to is indicated by the instrument arrow (see Kleitman, IA Gnatodinamometr. // Stomatology, 1950, №2, pp. 51-53).

The prior art method and device for measuring the maximum force of compression of the teeth. The technical result of the invention is to improve the measurement accuracy due to the measurement of chewing pressure uncontrolled by consciousness during sleep, the ability to perceive chewing pressure in the vertical and horizontal directions and the measurement of the load in dynamics. The method consists in measuring the maximum force of compression of the jaws by imposing a device on the tooth surface, exerting pressure on it and measuring the force of compression. The device is fixed to a tooth, the patient is placed in the polysomnographic cabinet for sleep for at least 12 hours, after the specified time has elapsed, the device is removed, the balls are removed and the total footprint of all balls is measured on both sides under a microscope using a template, then to determine the maximum compression force teeth build a graph, where on the horizontal axis lay the amount of deforming efforts, and on the vertical - the total area of prints of all the balls on both sides. The device for maximal compression of teeth is made in the form of two metal crowns, between which 8-9 measuring balls with a diameter of 2 mm are made, made of plastic metal alloy, and the free space between the crowns is filled with a silicone composition, while the lower crown repeats the occlusal surface of the tooth, and upper - occlusal surface of the lower crown. (RF Patent 2,231,995 dated July 10, 2004).

There is a method of planimetric determination of the contact area of teeth, including preliminary photographing and making an enlarged photograph (Wissa I.M. // Csl. Stomat. - 1961 - Vol. 61. - P. 436-440 //. Swoop S.S., Kudd WL 33 / Ibid - P. 34-43).

There is a method of determining the area of contact of teeth, including the definition in a special chamber according to the size of the air falling through the perforations in the occlusive impression (Battistuzzi PGFS M, Eschen S. Peer PGM // J. Oral Rehabil. - 1982. - Vol. 9. - P. 499-507 /. A device for determining the contact area of teeth is known, which contains a measuring device, an illuminator and a photocell with an occlusive impression between them. The contact area is determined by measuring the total value of the light flux passing through dental contact prints with a photocell The teeth closed in the cast, different in size, positioned in space, degrees of penetration closer to each other, form a certain optical density of the impression, capable of transmitting a part of the light flux directed towards it to the photodiode, the photocurrent of which is measured contact of teeth. The device consists of 20 light bulbs, located around a circle with a diameter of 200 mm, and removed from the impression at a distance of 100 mm. The impression is fixed in the case window, in which a photocell is installed, located directly behind the impression. Thus, the rays that pass through the areas of direct contact of the teeth and near-contact zones fall on the photocell. The voltage at the output of the photocell is controlled by a digital microvoltmeter (AN Ryakhovsky. Dentistry, 1992, 2, p. 62-63).

A device for determining the contact area of teeth is known, containing a measuring device, illuminator and photocell with an occlusive impression between them, characterized in that the occlusal impression is fixed on a platform made with the possibility of successive limited and equal movements along the trajectory of the contact of the teeth relative to the light beam, and between the impression and illuminator additionally installed a screen with a window in the form of an annular sector, the size and shape of which correspond to the step of moving the platform and editable impression (RF Patent No. 2178665 dated January 27, 2002). A known method for determining the area of occlusal contacting surfaces of the teeth for a static assessment of the chewing function consists in obtaining occlusiograms using articulation paper, a subsequent photograph of dental rows with paper prints and loading a photo into the developed program that automatically determines the area of contact prints. A known technique for determining the area of occlusal contact surfaces using the software Adobe Photoshop and Universal Desktop Ruler. A horseshoe-shaped articulation paper is glued onto a strip of dental arch in the shape of a dental arch and is placed between the occlusal surfaces of the tooth rows when they are closed in the position of the central occlusion. Prints of occlusal contacts remain on the adhesive plaster after separation of the articulation paper. Then the adhesive plaster is fixed on a transparent film to protect the working surface of the scanner and scanned (preferred resolution is 300 dpi). Further image processing is carried out using Adobe Photoshop and Universal Desktop Ruler software. The method allows you to perform the procedure of calculating the area of occlusal surfaces quickly and accurately, can be used to assess chewing effectiveness before and after orthodontic and orthopedic treatment (Dolgalev AA // Dentistry. - 2007. - №2. - p. 68-72. ). There is a method for determining occlusal contacts of antagonizing teeth, including obtaining in the oral cavity occlusograms of contact points of teeth located in a plane perpendicular to the functional axis of the tooth, characterized in that the obtained occlusogram is placed in a photometer and a raster image of the surface of the antagonizing teeth is fixed as a fixed imprint of their relief occlusal surfaces on which characteristic points are distinguished and marked, forming the perimeters of the occlusal contacts, on which The base plane is divided, parallel to which flat sections are made as a set of slices of occlusal surfaces located perpendicular to the functional axis of the tooth, the corresponding normal to the base plane, flat sections are determined that are offset by the measurement step in accordance with the specified thickness standards of the occlusogram, and the metric model is constructed imprint of the occlusal surfaces of each pair of antagonizing teeth, which determine the biometric characteristics of re lef of occlusal surfaces of antagonizing teeth in the form of values of areas of occlusal contacts and areas of near-contact zones with a given thickness of interocclusal space (Patent RF №2286114 from 10.27.2006).

Today, the diagnosis of occlusal contacts is an important part of the work of the dentist. The main purpose of this diagnosis is to identify static and dynamic relationships in the functioning of the maxillofacial apparatus of a person. The distribution, area and nature of the contacts form the load zones on the muscular-ligamentous apparatus through a chain of interrelated reactions. Comprehensive diagnosis of the maxillofacial condition is a prerequisite for identifying the main etiological factors of the disease and their consequences.

T-scan III allows you to determine the sequence of occurring contacts during the closing of the jaws, the temporary relationship between the resulting contacts in different parts of the dentition. The ratio of the force per unit of contact area calculated by the program is produced as a percentage and is indicated on the screen in the area of each tooth for the entire dentition. When determining contacts using articulation paper, the doctor sees the scheme of distribution of points of contact without taking into account the strength of each of the contacts. As is known, the pressure is directly proportional to the force and inversely proportional to the area, therefore, with the smallest area of contact, the pressure value increases significantly. Sometimes inconspicuous contacts marked by articulation paper can cause significant patient discomfort, as well as occlusive disturbances in the functioning of the maxillofacial system. (http://www.ukrdental.com/doktoram/ortodonticheskaya-stomatologiya/primenenie-apparata-t-scan-iii-dlya-diagnostiki-i-normalizacii-okklyuzionnyh-kontaktov).

A known method for determining the area of occlusal contacting surfaces using T-scan II and T-scan III devices. The T-scan system consists of a sensor, a supporting device, a processing device, and software. When conducting the method, the patient nibbles a fork, covered with sensors and located between the dentition of the upper and lower jaws, with the greatest possible effort. Data is transmitted to the T-scan device analyzing information, where information processing takes place, the image is displayed on the computer screen via the USB port. The program developed for the T-scan device has good graphics, which allows the doctor to easily evaluate the data. Obtained during the study information can be printed on the printer as a standard supplement of medical documentation for the doctor and patient. The method allows to determine the area of occlusal surfaces and the area of occlusal contacting surfaces, the maximum occlusal force, the increase in occlusal force over time, as well as to record the time period of the closure of the dentition (Sierpinska T., Golebiewska M., Dlugosz JW // Advanc. Med. Science. -. 2006. - V. 51.Suppl.).

However, the program graphically displays the zones and areas of the tooth with maximum, average and minimum contacts, but does not have a metric scale for the numerical expression of the force exerted on the object surface, which is why it is impossible to calculate the pressure on a specific tooth and predict its functioning. Conducted by the applicant analysis of the level of technology, including a search for patents and scientific and technical sources of information and identification of sources containing information about analogues of the stated solution, allowed to establish that the applicant had not found an analogue characterized by features identical to all the essential features of the claimed invention. Determining from the list of identified prototype analogs, as the closest solution to a set of features, allowed us to identify a set of essential distinctive features in relation to the technical result of the applicant in the claimed object, set forth in the claims. Therefore, the claimed invention meets the requirement of "novelty" under the current law.

To verify the compliance of the claimed invention with the requirement of "inventive step", the applicant conducted an additional search for known solutions in order to identify signs that coincide with the features of the claimed invention different from the prototype, the results of which show that the claimed invention for a specialist does not follow from the prior art. Therefore, the claimed invention meets the requirement of "inventive step". All considered prototypes either determine the area of occlusal contacts, or the strength of the masticatory muscles, but no invention calculates the pressure exerted on a particular tooth. That would allow to control and regulate the viability, the timing of the operation and reserve forces of the periodontal complex of each tooth. The task, which the invention is directed to, is to assess the reserve periodontal forces by objectively assessing the chewing pressure exerted on the tooth in patients with increased tooth wear. The technical result of the invention is a metric determination of the pressure exerted on the area of the tooth with erasable facets on the occlusal surface by the ratio of the chewing force to the occlusal area of the tooth erase facet, determined by objective methods.

The technical result is achieved in that the method for determining the pressure exerted on a tooth during occlusion of dental rows is carried out by occlusiography with a T-Scan device, highlighting a digital image of occlusal contacts using Adobe Photoshop, storing data in a single resolution, estimating the total area of erase facets, taking into account color indexation, reflecting the degree of intensity of occlusal contacts, in calculating the number of pixels in 1 mm2, then using the Magic Wand tool to highlight a certain color Weta, memorizing this color and further highlighting it only by clicking on the area being analyzed, determining the percentage ratio of each color on the surface of the contact surface, then performing gnatodinamometry and in a metric calculation of the obtained values of the force distributed over the chewing surface of the tooth as a percentage depending on color indexation values and the subsequent calculation of pressure by calculating the ratio of the chewing force to the previously defined occlusal area of the styran facets oi tooth.

The proposed method for the diagnosis of increased erasure of teeth allows you to accurately determine the area of occlusal contacts, correlate with their intensity, monitor the process of loss of hard tissue, which is important when choosing medical tactics for dental treatment, structural material for reconstruction of destroyed crowns of natural teeth and designing prostheses.

The method of determining the pressure exerted on the tooth during occlusion of the dentition, as follows: Clinical example.

We examined 13 patients with PSZ of varying severity and 20 individuals of the conditional norm. First, we evaluated the presence of supercontacts, the uniformity of occlusal contacts on the right and left of the dentition, as well as the length and type (dotted / planar) of occlusal contacts using Bausch arcuate occlusive paper 100μ “PROGRESS 100” and articulation foil ARTI-FOL METALLIC 12μ (Germany), to have an idea about the morphotoptographic localization of occlusal contacts. Because The use of articulatory paper in assessing the occlusal relationship does not allow to determine the contact force, the topographic sequence of the occurrence of contacts over time, showing only the contact area of the occlusal surfaces of the antagonist teeth, were occluded with T-Scan. Indicators of windows of a two-dimensional film were kept in a single resolution and further measurements were carried out with them. Then they turned off all the additional parameters in the T-Scan software so that only the occlusal contacts remained, all the graphs were saved, and then played back in Adobe Photoshop. The scaling was performed so that the size of the sensor from the T-Scan device corresponded to the obtained graph in the following way:

- measured the width in the region of the base and branching of the large sensor of the T-Scan apparatus, which are constant and are 25 and 10 mm, respectively;

- put a virtual tool ruler width in the area of the base and branching 25 mm and 10 mm, respectively;

- calculated using the virtual tool “ruler” how many pixels fall on 10 mm length, which is 106 pixels, therefore, 1 mm 10.6 pixels, and 1 mm ² = 112.36 pixels (10.6X10.6).

In the T-Scan program, in the window of a two-dimensional film, you can see planar occlusal contacts of different colors, which corresponds to different degrees of intensity of occlusal contacts. The program has a scale with a breakdown of the intensity (strength) of occlusal contacts. Differences in compressive strength can be determined by colors ranging from red (greatest strength) to blue (smallest strength). When calculating the area of occlusal contacts, the following colors were distinguished: purple, red, orange, yellow, green (all shades of green were combined), turquoise, blue (all shades of blue and blue were combined). Then, using the Magic Wand tool, a certain color was selected, for example, green, the Magic Wand computer device remembers this color and then highlights it only when it is pressed on the analyzed area.

They singled out all the areas of a given color, and then in the histogram into subsections, the pixels reveal how many pixels were occupied by the selected contacts. For example, green will be 43 pixels (43 pixels / 112.36 = 0.38 mm), i.e. occlusal contacts of green color in the area (S) occupy 0.38 mm. For a more accurate selection of occlusal contacts, the picture can be enlarged, while scaling does not occur.

First, S was calculated for each color of occlusal contacts, and then by adding individual contacts, a total area (S _total ) of occlusal contacts was obtained for each patient.

After that, gnathodynometry was performed with a BiteFork apparatus (from Vi.Me.S, Germany) in each patient. In order to individualize the research being conducted, silicon material was applied to the bite sensors of the gnatodinamometer to register the occlusfast Rock bite (Zhermack, Italy). The obtained values of the chewing pressure force were divided by a tooth as a percentage of the range from red (greatest strength) to blue (smallest strength) by obtaining digital strength values.

The resulting chewing force experienced by a particular tooth was divided by the area of occlusal contact of the same tooth by obtaining the digital value of pressure exerted on the tooth.

The obtained data of pressure tested on a tooth can be used to evaluate and predict its functioning, as well as the possibility of using it as a support for a fixed orthopedic structure.

Claims (1)

The method for determining the pressure exerted on a tooth during occlusion of dental rows, containing occlusiography with a T-Scan device, storing the data of occlusal contacts in Adobe Photoshop, scaling the obtained data of occlusal contacts by calculating the number of pixels in 1 mm ² and presenting them in different colors depending on the degree of intensity , counting the areas of occlusal contacts of a particular color using the Photoshop Magic Wand tool, counting the total area of occlusal contacts for all colors, The behavior gnathodynamometer patient for obtaining pressure values masticatory force and pressure calculation each tooth occlusal contacts, by calculating the ratio of the chewing force to the previously determined total area of the occlusal occlusal contacts.