RU2756046C1 - Virtual information and analytical complex for measuring the depth of dental enamel - Google Patents

Abstract

FIELD: dentistry.SUBSTANCE: invention relates to medical equipment, in particular, dentistry. An expert system is used, providing a possibility of collecting and analysing the input data of the patient (morphometric, odontological, morphological, histological parameters of the enamel), probabilistic calculation of the value of depth of the enamel based on the information database of the histostructure and nanostructure of the mineral component and the organic matrix of the normal human dental enamel. The method provides a possibility to predict and measure the depth of ground hard tissues with a high level of accuracy when conducting morphological studies on removed teeth and prepared hard tissues for dental manipulations in the mouth, based on the programmed parameters of probabilistic outcomes. In the process of preparation of the tooth, a continuous controlled measurement of the enamel depth by means of the laser signal reflected from the surface of the prepared tissues is performed.EFFECT: developed method provides a possibility to measure the depth of ground hard tissues with maximum efficiency and accuracy when conducting morphological studies on removed teeth and prepared hard tissues for dental manipulations in the mouth.1 cl, 1 dwg

Description

The invention relates to medicine, in particular dentistry, and can be used to predict and accurately measure the depth of ground hard tissues during morphological studies on extracted teeth and prepared hard tissues for dental manipulations in the mouth, taking into account individual local or generalized genetically determined conditions in the mouth ...

Currently in dentistry there are no ways for virtual prediction and high-precision measurement of the depth of prepared and polished hard tissues of teeth, focusing on the programmed parameters of structural elements at various tissue levels of the organization of tooth enamel in normal and pathological processes, conditions, as well as the depth of defects in hard tissues teeth. Accordingly, the development and implementation of a method for predicting and high-precision measurement of the depth of ground hard tissues during morphological studies on extracted teeth and prepared hard tissues for dental manipulations in the mouth, consisting of an expert system in software and a device that meets the requirements of modern medicine, a programmed base data of macro-, micro, nanostructure of tooth enamel. Today, a dental probe is used, which, in general, is a rod with a handle at one end and a working tip on the other [Collegiate Dictionary of Medical Terms. M., Medicine, 2001, 314]. Known dental probe, which contains a rod, a handle and a transparent part. A longitudinal channel is made in the probe, into which a thread is inserted, which is displaced forward and backward. The thread is moved until it is visible in the region of the non-sanded edge of the hard tissues of the tooth [US Patent No. 4708647, A61C 3/00, 1987]. The disadvantage of this instrument is the inconvenience of its use for measuring the depth of the prepared hard tooth tissues, since this probe is designed to measure the depth of periodontal pockets.

Known dental probe for measuring the depth of the periodontal pocket in the form of a rod with a handle and a curved graduated tip [US Patent No. 5423677, A61C 19/04, 1995].

However, the known probe does not allow the most accurate control of the depth of the prepared hard tooth tissues, which limits its practical application. Known calipers according to GOST 166-89, designed to measure external and internal dimensions up to 2000 mm, containing a bar with a reading scale and a fixed jaw mounted on a bar with the ability to move the frame, which is connected with a movable jaw.

The disadvantage of the existing calipers is the lack of a ratio of the anatomical features of the human oral cavity with the dimensional characteristics of the calipers, which makes it difficult to make accurate measurements when preparing hard tooth tissues.

The closest to the proposed one is a dental depth gauge designed to measure the depth of the ground tooth tissues. It is presented in the form of a housing with a measuring pull-out element. [No. patent for utility model 187021 dated 13.02.2019]

The disadvantage of this device in further experimental studies, a series of inaccuracies was established, in particular the effect of the strength of the doctor's hands on the operation of the device, which distorts the true quantitative indicators when measuring the depth of the tooth enamel defect and leads to digital errors, albeit in an insignificant amount, and also for a rather long the measurement process, the need to stop the preparation during dental and research work. The developed method makes it possible to measure the depth of ground hard tissues as efficiently, quickly, accurately as possible when carrying out morphological studies on extracted teeth and prepared hard tissues for dental manipulations in the mouth, based on the programmed parameters. The programmatic result of the work is the developed expert system that allows the collection and analysis of the patient's input data (morphometric, odontological, morphological, histological parameters of enamel), the probabilistic calculation of the enamel depth value based on the information database of the histo and nanostructure of the mineral component and the organic matrix of the enamel of human teeth in normal, as well as with local and generalized genetically determined diseases and conditions of the mouth, including imperfect or incomplete amelogenesis, and take them into account when carrying out dental interventions and exploratory research. The technical result is to improve the method for high-precision measurement of hard tissues of teeth, which will enhance the control and quality of measurement, convenience during use, knowing the digital values and possible confidence intervals and deviations. Thanks to the proposed improvements in the method for measuring the depth of hard tissues, which will allow high-precision measurements of the depth of ground hard tissues during morphological studies on extracted teeth and prepared hard tissues for dental manipulations in the mouth, focusing on the programmed parameters of probabilistic outcomes. The method described above will make it possible to predict the outcome and control the quality of dental treatment, the results of scientific research, minimizing the number of errors, distortions, complications. The technical result is achieved by the fact that the obtained digital parameters from the patient will allow the correlation of his individual indicators, taking into account individual changes, and calculate the optimal value of the enamel depth, thanks to the collected database of macro-, micro-, nanostructures. The technical component of the method is an information-analytical complex, which is equipped with a laser meter fixed on the dental handpiece flush with the bur attachment point. During the preparation of the tooth, there is a continuous controlled measurement of the enamel depth due to the reflected laser signal from the surface of the prepared tissues. Since the control device has a wireless connection with the expert system, when it goes beyond the critical range of the enamel depth, a color indicator on the handle will light up, which will prompt the doctor to stop manipulating in this area. The inventive complex (Fig. 1) contains a housing made of hard plastic (1) 100 mm long, 70 mm wide, 20 mm high, a measuring element made of a laser emitter and a receiver (2). The measuring element is connected with a wire (3) to a module for wireless data transmission to a computer in an expert system (4). The processed data can be displayed on the monitor screen in the form of numerical values in millimeters, with an accuracy of microns. When passing beyond the permissible values (height of the coronal part 3.8-4.1 mm; width of the coronal part - 10.57-10.62 mm; width of the enamel layer in the region of 1 tubercle - 1.99-2.02 mm; width of the enamel layer in the area of the 2nd tubercle - 1.68-1.71 mm; the height of the enamel layer in the area of the 1st tubercle - 1.62-1.63 mm; the height of the enamel layer in the area of the 2nd tubercle - 1.99-2.02 mm; length enamel prisms - 4.93-6.37 nm, the width of enamel prisms - 4.2-5.48 nm), a color signal will be sent to the indicator (5). The body also houses a power on / off button (6), a connector for a battery charger (7). The device is powered by a 9.6 V rechargeable battery (8).

The claimed invention works as follows. The information-analytical complex (Fig. 1) is turned on by pressing the power button and attached to the dental handpiece, setting the device so that the stop is fixed on the unchanged (healthy) part of the enamel of the studied tooth. The expert system records the initial parameters of the patient (tooth number, the presence of local or systemic changes in the mouth). The patient's indicators are automatically correlated, the optimal values of the enamel depth are calculated, taking into account the confidence intervals of the database (the height of the coronal part is 3.8-4.1 mm; the width of the coronal part is 10.57-10.62 mm; the width of the enamel layer in the region of 1 tubercle - 1.99-2.02 mm; the width of the enamel layer in the area of the 2nd cusp is 1.68-1.71 mm; the height of the enamel layer in the area of the 1st cusp is 1.62-1.63 mm; the height of the enamel layer in the area 2 tubercle - 1.99-2.02 mm; length of enamel prisms - 4.93-6.37 nm, width of enamel prisms - 4.2-5.48 nm). There is a study of the affected, prepared or polished area of the tooth surface, after which the obtained data are recorded in millimeters, with an accuracy of microns on a computer in an expert system. The information is processed and when the maximum permissible values are passed, the color indicator lights up. Subsequent measurements are carried out by moving the measuring element to a new study area, described by the tubercles of the test tooth. After all the necessary measurements have been taken, the device is turned off by pressing the power off button. The inventive method for measuring and assessing the depth of ground hard tissues during morphological studies on extracted teeth and prepared hard tissues for dental manipulations in the mouth is highly accurate. The control and analytical complex is simple and convenient when measuring the depth of ground hard tissues during morphological studies on extracted teeth and prepared hard tissues for dental manipulations in the mouth for both medical personnel and the patient himself, saves staff time, allows highly and accurately predicting and measure the depth of the prepared and grinded hard tooth tissues.

Example 1. Patient P., 35 years old.

Complaints: a defect in hard tissues of the 4.6 tooth.

Diagnosis: 4.6 tooth - dentin caries.

Treatment plan: Dissection of pathologically altered tissues and restoration of the resulting defect by a direct method using restorative materials.

Before the preparation of pathologically altered hard tissues of the 4.6 tooth, with the help of an information-analytical complex for measuring the depth of the tooth enamel, the initial patient data were entered (height of the coronal part of 3.9 mm; width of the coronal part - 10.62 mm; width of the enamel layer in the region of 1 tubercle - 2.01 mm; the width of the enamel layer in the area of the 2nd tubercle is 1.69 mm; the height of the enamel layer in the area of the 1st tubercle is 1.62 mm; the height of the enamel layer in the area of the 2nd tubercle is 1.99 mm). The system of the information and analytical complex calculated quantitative landmarks aimed at warning the doctor about approaching dentin and the pulp chamber. All digital parameters are displayed on the monitor screen, information is transmitted using the wireless data transmission module to the device. After removal of all necrotic and altered enamel tissues, control measurements were made. According to the complex data, the depth of the defect from the edge of the enamel on the occlusal surface was 1.2 mm. Ionoseal was used as an insulating gasket, the thickness of which, when used as an insulating gasket, according to the instructions, should be from 0.1 to 0.8 mm. A 0.5 mm thick Ionoseal washer was placed at the bottom of the carious cavity. The measurements were monitored using the complex. The remaining 1 mm of the prepared cavity was filled with Filtek P60.

Therefore, using the information-analytical complex for measuring the depth of enamel, it was possible to minimize the loss of hard tissues of the 4.6 tooth during preparation during tooth treatment, at the same time, reducing the risk of errors and complications during dental manipulation.

Example 2. Patient K., 59 years old.

Complaints: the unaesthetic appearance of the 3.4 tooth. Diagnosis:

Increased abrasion of 3.4 teeth.

Treatment plan: To restore the lost tissues of 3.4 teeth, a metal-ceramic crown made by a laboratory method was chosen. The dental technician set the parameters for the thickness of the future metal-ceramic crown from the proximal sides, which were 0.8 mm from the side of the medial contact point and 1.0 mm from the side of the distal contact point. After entering the initial patient data (the height of the coronal part is 3.8 mm; the width of the coronal part is 10.59 mm; the width of the enamel layer in the region of the first tubercle is 1.99 mm; the width of the enamel layer in the region of the second tubercle is 1.71 mm; the height of the enamel layer in the area of 1 tubercle - 1.61 mm; the height of the enamel layer in the area of the 2 tubercle - 2.01 mm), the calculation of the maximum permissible values was made, after digital calculations, the preparation began.

During preparation of contact points, the depth of preparation was controlled using an information-analytical complex for measuring the depth of enamel. As the quantitative limits were approached, an indicator came on, which signaled the doctor to stop the preparation. Thus, using an information-analytical complex for measuring the depth of enamel, it was possible to minimize the loss of hard tissues of 3.4 teeth when preparing for an orthopedic structure, while at the same time obtaining the required level of precision.

Claims (1)

A method for predicting and high-precision measurement of the depth of ground hard tissues during morphological studies on extracted teeth and prepared hard tissues for dental manipulations in the mouth, including the use of an information-analytical complex containing an expert system installed on a computer, a plastic case having a length of 100 mm, a width 70 mm, height 20 mm, laser emitter, receiver, where the measuring element is connected by a wire with the module for wireless data transmission to the computer to the expert system, next to the laser meter there is a color indicator that lights up when the maximum allowable intervals of the structure database are passed enamel of teeth, including the height of the coronal part 3.8-4.1 mm, the width of the coronal part 10.57-10.62 mm, the width of the enamel layer in the region of 1 tubercle 1.99-2.02 mm, the width of the enamel layer in the region 2 tubercle 1.68-1.71 mm, the height of the enamel layer in the region of the first tubercle 1.62-1.63 mm, in The height of the enamel layer in the area of the 2nd tubercle is 1.99-2.02 mm, the length of the enamel prisms is 4.93-6.37 nm, the width of the enamel prisms is 4.2-5.48 nm, while the depth information is displayed on the monitor screen at the same time prepared or polished area of hard tissue in millimeters with an accuracy of microns, and the specified complex is configured to turn on the power button located on the body, and the ability to receive energy from a 9.6V battery located in the body.

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