RU2648182C1 - Method for quantitative estimation of destruction of bone tissue with periodontitis - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, specifically, to dentistry, and can be used to diagnose and control the effectiveness of treatment of destructive forms of periodontitis. X-ray image of the tooth with a calibration object in the form of a radioopaque sphere of diameter D, which is attached to the occlusal surface of the test tooth, is obtained, wherein the dimensions of the sphere are included in the overall image format. X-ray image is overlaid with a transparent measuring grid with square cells with side dimensions A. Number of cells N that fit into the area of rarefaction of bone tissue is counted. Diameter of the sphere D_p on the X-ray image is measured. Quantitative estimation of destruction of bone tissue S is determined by the formula

EFFECT: method increases accuracy of determining the actual area of rarefaction of bone tissue by comparing X-ray images of teeth with destructive forms of periodontitis, obtained on different machines and at different times.

1 cl, 6 dwg, 1 ex

Description

The invention relates to medicine, namely to dentistry, and can be used to diagnose and monitor the effectiveness of the treatment of destructive forms of chronic periodontitis.

Currently, periodontitis is a common dental disease, which is based on the development of an infectious process in the root canals of the tooth. With advanced forms of periodontitis or poorly performed treatment at the apex of the tooth root, an area of bone tissue destruction is formed, which is a hidden focus of odontogenic infection, which is detected by X-ray examination. On radiographs, the site of destruction of bone tissue is detected by the planimetric rarefaction region with fuzzy contours of bone resorption and a characteristic trabecular pattern around it.

Treatment of destructive periodontitis consists of two periods - endodontic, ending with tooth filling, and convalescence, during which the healing of the bone destruction site occurs. Due to the slow passage of the osteogenesis process, the convalescence period takes a long time, usually 6-12 months, depending on the size of the destruction focus.

To prevent recurrent complications during the period of convalescence, control is established over the dynamics of changes in the actual size of the destruction center. For this, at certain intervals, control radiographs of the causative tooth are performed. Based on the results of evaluating the change in the size of the rarefaction area on the performed radiographs, the clinical effectiveness of the treatment is determined and, if necessary, amendments are made to the patient rehabilitation process. Thus, the reliability and quality of treatment of destructive periodontitis depend on the accuracy of the results of comparing the sizes of the region of rarefaction of bone tissue on x-ray taken at the beginning and at the end of the observation.

In practice, X-ray images of the same tooth, taken at different times and, often, on different devices, have differences in the sizes of the studied rarefaction region as a result of applying various X-ray optical schemes, as well as changing angles and shooting modes. For this reason, an objective and correct comparison of the area of tooth rarefaction in different x-ray images is possible in the case of applying methods of quantitative assessment of bone tissue destruction, which establish the actual sizes of the region of rarefaction by x-ray images of teeth.

The most common is a method for quantitative assessment of the bone rarefaction area with a linear size between the points lying on the border of the rarefaction area, which are selected by the researcher for subjective reasons (Ivanchenko O.N. Clinical and microbiological comparative analysis of antiseptic drugs and calcium-containing materials in the complex treatment of chronic periodontitis: dis . ... candidate of medical sciences: 14.00.21 / O.N. Ivanchenko. - M., 2008. - P. 93).

The disadvantages of this method are:

- low objectivity of the obtained estimate due to the linear measurement of the planimetric rarefaction region of irregular shape and the subjective nature of the choice of points lying on the boundary of the rarefaction region;

- the impossibility of establishing the actual size of the area of rarefaction of bone tissue as a result of the lack of connection between the size of the area of rarefaction in the x-ray and the actual value of this physical quantity.

Also known is a method for quantifying the area of bone rarefaction by a planimetric characteristic (Akimov T.V. Depot - and galvanophoresis of copper-calcium hydroxide in the complex treatment of chronic periodontitis in teeth with impenetrable root canals: dis. ... candidate of medical sciences: 14.00.21 / T.V. Akimov. - M, 2007 .-- S. 45).

The essence of this method lies in the fact that a transparent measuring grid with mesh sizes of 1 × 1 mm is applied to the x-ray of the tooth with the rarefaction area of the bone tissue. On a negatoscope, using a magnifying glass, the number of cells that fit into the rarefaction region is counted. For a quantitative assessment of bone tissue destruction, the area of the rarefaction region is taken, equal to the obtained number of cells and measured in square millimeters. This method is selected for the prototype.

The disadvantage of this method is the lack of accuracy in determining the x-ray of the actual area of the region of rarefaction of bone tissue as a result of the lack of communication between the measured area of the region of rarefaction of bone tissue in the x-ray and the actual value of this physical quantity.

The objective of the invention is to increase the efficiency of diagnosis of destructive forms of chronic periodontitis.

The technical result consists in increasing the accuracy of determining the actual area of rarefaction of bone tissue by x-ray.

The technical result is achieved by the fact that in the method for quantifying the destruction of bone tissue, including x-ray of the tooth, followed by superimposing on the x-ray image of a measuring grid with square cells, counting the number of cells that fit into the rarefaction area of the bone tissue, the following differences are provided:

- an x-ray of the tooth is performed with a calibration object in the form of a radiopaque ball with a pre-measured diameter D, which is attached to the occlusal surface of the tooth under study, while the dimensions of the ball are included in the general image format;

- on the roentgenogram measure the diameter of the calibration ball D _p ;

- a quantitative assessment of bone tissue destruction in the form of the area of the bone rarefaction region S is determined by the formula

where N is the number of cells of the measuring grid that fit into the region of rarefaction of bone tissue;

A is the size of the side of the cell.

To determine the actual sizes of objects on x-rays, calibration objects with a known size are used, which are placed in the immediate vicinity of the study area. As a calibration object for the precise placement of dental implants Ageenko A.M. (Dental Bulletin 2, 1993) suggested using a metal ball that was welded into a diagnostic base plate.

In the present invention, the use of a ball as a comparative test object is due to the fact that, regardless of the projection, its diameter remains constant.

Before radiography, the ball is fixed on the occlusal surface of the tooth with X-ray transparent material, such as impression silicone, etc. Placing the ball on the occlusal surface of the tooth has several advantages. The technical implementation of the operation of fixing the ball is simple and reliable, and the image of the ball on the x-ray does not interfere with the analysis of the studied area of rarefaction of bone tissue located in the apical part of the root.

At the same time, the use of a calibration object requires the fulfillment of a number of mandatory conditions:

- before radiography, an operation is performed to measure the dimensions of the ball;

- when x-ray shooting is necessary to include the dimensions of the ball in the overall image format.

The method also developed a mathematical formula that allows to obtain a quantitative assessment of bone tissue destruction in the form of a single number, which makes it possible to accurately and unambiguously interpret the clinical manifestation of bone tissue damage in destructive periodontitis.

The novelty of the proposed method is as follows:

- for the first time, a mathematical expression has been obtained to determine the quantitative assessment of bone tissue destruction in the form of the actual area of the rarefaction area according to the x-ray of the tooth, which increases the accuracy of the diagnosis of destructive periodontitis by x-ray of the teeth, performed at different times and on different devices;

- for the first time to determine the quantitative assessment of bone tissue destruction, a calibration object was used - a radiopaque ball with a predetermined size, which allows you to establish a relationship between the measured area of the rarefaction area on the x-ray of the tooth and the actual value of this value.

The implementation of the method is considered in a clinical example.

Patient N., 45 years old, complained of the presence of slight pain in the area of 2.5 tooth, intensifying when biting on a causative tooth. According to the patient, tooth 2.5 was previously treated about 1 month ago for exacerbation of chronic apical periodontitis.

Objectively: on the chewing surface of tooth 2.5 there is a permanent filling without signs of violation of the marginal fit. On the x-ray, a uniform filling of the root canals with filling material, an expansion of the periodontal gap and the presence of a focus of rarefaction of bone tissue with fuzzy contours in the region of the apex of the root of the tooth are detected 2.5.

Diagnosis: exacerbation of destructive chronic apical periodontitis.

Treatment: due to the fact that the radiograph showed no defects in the filling and filling of the root canals, however, there was a rarefaction of bone tissue at the apex of the root, it was decided to establish clinical and radiological control over the dynamics of changes in the size of the destruction of the destruction during the period of convalescence. For this purpose, the patient was asked to perform an x-ray at the present time and then undergo a control x-ray examination after 6 months from the start of treatment.

X-ray of the tooth was performed as follows. A small amount of impression silicone was applied to the occlusal surface of the tooth, onto which was first transferred with medical tweezers, and then a metal ball with a diameter of D = 4 mm was pressed into it. Radiography was performed using a Sidexis radiovisiograph, manufactured by Sirona Dental Systems, Germany. An X-ray image was taken so that the dimensions of the ball fit into a common image format (Fig. 1).

Then, a computer image of a measuring grid with square cells with a side size of A = 2.5 mm was applied to a computer negative X-ray image of the tooth using the Paint.NET graphics program (Fig. 2). The number of cells N = 136 that fit into the area of rarefaction of bone tissue was calculated (Fig. 3). The ball diameter D _p = 45 mm was measured on an X-ray diffraction pattern. The formula (1) determined the quantitative assessment of bone destruction S ₁

those. the actual area of the bone rarefaction area at the initial examination period was 6.7 mm ² .

After 6 months, a control examination of the state of health of patient N. was carried out. The patient did not show complaints of pain in the tooth area 2.5. Radiography of the tooth was performed with a calibration ball attached to it with a diameter of D = 4 mm (Fig. 4). To determine the dynamics of healing of the destruction site, we conducted a visual comparison of two X-ray images taken in the initial and final observation period. Visual analysis of changes in the area of rarefaction of bone tissue was extremely difficult.

To clarify the diagnosis by x-ray of the tooth, a quantitative assessment of the destruction of bone tissue S _{2 was} calculated in accordance with the developed method. A measuring grid with square cells with side dimensions A = 2.5 mm was applied to the negative X-ray image (Fig. 5). We counted the number of cells N = 141 that fit into the region of rarefaction of bone tissue (Fig. 6). The diameter of the calibration ball D _p = 43 mm was measured on a radiograph. The quantitative assessment of the destruction of bone tissue S ₂ calculated by the formula (1) was 7.5 mm ² . When comparing the obtained value of the parameter S ₂ with the previous value of the evaluation of bone destruction S ₁ , an increase in the area of destruction of bone tissue by 0.8 mm ^{2 was} recorded, which indicated the progression of the infection process in the root system of the tooth.

A decision was made to treat the tooth with repeated antiseptic treatment of the root canals.

6 months after treatment, a control x-ray of the tooth was again performed and a quantitative assessment of tooth bone destruction S ₃ = 3.4 mm ^{2 was} calculated, which showed a significant decrease in the area of the bone rarefaction area during the observation period, which indicated a positive trend in the treatment of destructive periodontitis .

Thus, the proposed method for the quantitative assessment of bone tissue destruction can improve the diagnosis of destructive forms of chronic periodontitis and, therefore, improve the quality of treatment.

Claims (2)

A method for quantifying bone destruction during periodontitis, including x-ray of the tooth, followed by applying a transparent measuring grid with square cells with side dimensions A to the image, counting the number of cells N that fit into the rarefaction area of the bone tissue, characterized in that the x-ray of the tooth is performed with calibration object in the form of a radiopaque ball with a pre-measured diameter D, while the dimensions of the ball are included in the general image format, and the ball is attached to okl Zeon tooth surface of the test, and then measured on the radiograph ball diameter D _p, and quantify the degradation of bone tissue is determined by the formula S

Images