RU2786470C1 - Method for determining the ct densitometric density of hard tissues of the gingival region of teeth - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely, to dentistry, and is intended for use when determining the degree of maturation and mineralisation of enamel and dentin. Computed tomography is performed on the Planmeca apparatus, followed by computer processing of the resulting image in the Planmeca romexis viewer software, wherein regression lines are determined, said lines constituting criteria for identifying patients with low CT densitometric density and low level of maturation and mineralisation of hard tissues of teeth. The simple linear regression line is calculated by binary regression using the equation y=α+βx, wherein y is the value expected for y if the value x is known, called the predicted y value; x is called an independent, predictor, or cause variable; α is the free term (intersection) of the estimation line, being the value of y when x=0; β is the angular coefficient, or gradient of the estimation line, constituting the magnitude of average increase of y if x increases by one. If the value of CT densitometric density is from 1,890 to 2,280 HU, a conclusion is made that the CT densitometric density of hard tissues of the tooth in the gingival region is high, thus indicating dense packing of the mineral component and a high degree of maturation and mineralisation of hard tissues of the teeth. If the value is from 1,685 to 1,889 HU, a conclusion is made that the CT densitometric density of hard tissues of the tooth in the gingival region is average, thus also indicating dense packing of the mineral component and a good level of maturation and mineralisation of hard tissues of the teeth. If the value is from 1,325 to 1,684 HU, a conclusion is made that the CT densitometric density of hard tissues of the tooth in the gingival region is, packing of the mineral component is weak and chaotic, and the level of maturation and mineralisation of hard tissues of the teeth is low as is characteristic of odontogenesis imperfecta; if the value is from 1,005 to 1,324 HU, a conclusion is made that the CT densitometric density of hard tissues of the tooth in the gingival region is extremely low, packaging of the mineral component is extremely weak and chaotic, and the level of maturation and mineralisation of hard tissues of the teeth is extremely low as is characteristic of odontogenesis imperfecta.

EFFECT: due to the increase in the accuracy and objectivity of determining the degree of maturation and mineralisation of hard tissues of the tooth, method allows determining an unfavourable prognosis for the condition of the hard tissues of the teeth and prepare an individual treatment plan, if necessary.

1 cl, 2 ex

Description

The invention relates to medicine, namely to dentistry, and can be used to determine the CT-densitometric density of the cervical region of the teeth in order to comprehensively assess the degree of maturation and mineralization of hard dental tissues (enamel, dentin) using high-precision, modern computer technologies. There are various ways to judge the density of hard tissues of different groups of teeth, but for the most part these methods are inaccurate and complex in technique, and sometimes the values obtained do not correspond to the values of the Hounsfield scale. The development of a method for determining the CT-densitometric density of the cervical region of the teeth, which meets the modern requirements of clinical medicine, is relevant.

There is a method for determining the radiological density of the cervical region of human tooth enamel using the graphic editor of the program "Trophy 2000" [patent RU 2718300: Korshunov A.S. et al.]. At a value of radiological density from 950 to 1100 HU, a conclusion is made about a high degree of maturation and mineralization of hard tissues of the tooth, at a value from 750 to 949 HU - about an average level of maturation and mineralization of hard tissues, at a value from 550 to 749 HU - about a low level of maturation and mineralization of hard tissues, occurring in incomplete odontogenesis, with a value of less than 549 HU, a conclusion is made about an extremely low level of maturation and mineralization of hard tissues, which occurs in imperfect odontogenesis. Despite the presence of precise boundaries of reference values that allow the dentist to make a preliminary diagnosis and assess the quality of maturation, enamel mineralization, this method is characterized by insufficient accuracy and quality of the initial images, which leads to distortion and results that go beyond the Hounsfield scale.

Known electrometric method for diagnosing lesions of hard tissues of teeth [Ivanova G. G., Leontiev V. K., A. S. No. 1439507, BI No. 43, 1988], carried out using the Eloz-1 device, used to determine the maturation of enamel teeth. Based on this method, average electrical current conductivity data for mature enamel were determined. It was also found that by the time of tooth eruption, enamel mineralization is not completed and continues for some time after eruption. As the process of tooth enamel mineralization is completed, their electrical conductivity decreases due to a decrease in the size of the enamel crystal cells and a decrease in the permeability of the teeth, which indicates an age-related compaction of the crystal lattice. The disadvantage of this method is associated with the ability to examine only the surface layer of the enamel, since it implies the location of the electrode in direct contact with the tissues under study, the digital values obtained by this method are averaged, do not allow to adequately assess the state of the mineral component of the enamel.

A known method for determining the maturity of hard tissues of the tooth (patent RU 2421136: Kiselnikova L.P., Alpatova V.G.). Its essence lies in the fact that to determine the maturity of the hard tissues of the tooth, a dental volumetric tomography is performed and, subsequently, the densitometric density of the hard tissues of the tooth is determined in the apical part of the root along the longitudinal and transverse axes of the tooth and at a densitometric density value of more than 1410 units. HU make a conclusion about the maturity of the hard tissues of the tooth, and if the value of the densitometric density is less than 1410 units. HU - about the immaturity of the hard tissues of the tooth. The disadvantage of this method is that the study does not take into account the anatomical features and thickness of various areas of the surface of hard tissues, which are necessary for samples in large numbers. Thus, the results obtained when determining the enamel density by this method have a high percentage of distortions, and the absence of precise boundaries of the reference values leads to a large distortion and low information content when making a diagnosis in dental practice. This method is taken as a prototype. The claimed method for determining the CT-densitometric density of the cervical region of the teeth is simple and easy to use, allows you to most effectively perform a comprehensive assessment of the density of not only tooth enamel, but also dentin according to computed tomography, in turn, digital intervals allow you to assess the degree of maturation and mineralization of enamel and tooth dentin on the Hounsfield scale. The technical result of this invention is to increase the accuracy and objectivity of determining the degree of maturation and mineralization of the enamel and dentin of the tooth using computed tomography. It is achieved by the fact that in the method for determining the degree of maturation and mineralization of the enamel and dentin of the tooth, a distinctive feature is that computed tomography is performed on the Planmeca apparatus, followed by computer image processing in the Planmeca romexis viewer program, where regression lines are determined, which are criteria for identifying patients with low CT-densitometric density and a low level of maturation and mineralization of hard tooth tissues (enamel, dentin). A simple linear regression line is calculated by binary regression using the equation:

y=α+βx,

where y is the value expected for y if x is known; it is called the predicted value of y;

x - is called an independent, predictor or explanatory variable;

α - free member (crossing) of the evaluation line; is the value of y when x=0;

β is the slope, or gradient of the estimate line, and is the amount by which y increases on average if x increases by one.

Thus, when the value of CT-densitometric density is from 1890 to 2280 HU, a conclusion is made about the high CT-densitometric density of the hard tissues of the tooth in the cervical region, thereby indicating a dense packing of the mineral component and a high degree of maturation and mineralization of the hard tissues of the tooth; at a value from 1685 to 1889 HU - about the average CT-densitometric density of the hard tissues of the tooth in the cervical region, which also indicates a dense packing of the mineral component and a good level of maturation and mineralization of the hard tissues of the tooth; at a value from 1325 to 1684 HU - about low CT-densitometric density of hard tissues of the tooth in the cervical region, weak and chaotic packing of the mineral component and a low level of maturation and mineralization of hard tissues of the tooth, occurring with incomplete odontogenesis; at a value from 1005 to 1324 HU, a conclusion is made about the extremely low CT-densitometric density of the hard tissues of the tooth in the cervical region, the extremely weak and chaotic packing of the mineral component, and the extremely low level of maturation and mineralization of the hard tissues of the tooth, which occurs with imperfect odontogenesis.

The proposed method is carried out as follows: The patient undergoes computed tomography on the apparatus "Planmeca". The resulting image is subjected to computer processing and the images are opened in the Planmeca romexis viewer program. To determine the CT-densitometric density of the hard tissues of the selected tooth, a point is taken in the cervical area of its coronal part (in this area, maturation and mineralization of the enamel occurs at an early stage of the antenatal period of tooth development, starting from the enamel-dentin border). It is the point taken as a reference point that makes it possible to draw up an objective picture of the degree of maturation and mineralization of the enamel and dentin of the examined tooth. Taking as an independent variable x the average value of the CT-densitometric density of the hard tissues of the teeth of the upper and lower jaws, taken as 1875 HU (determined by computed tomography of a healthy person), by binary regression using the above formula, the "predicted" value of x, which is the regression line, is calculated, y \u003d 1760.9418+(-0.55)*110.5, y=1821.7168. This "predicted" value and its standard error are used to estimate the true mean value of the CT densitometric density of each examined tooth in the cervical region, as well as its confidence interval. This is the band or area that contains the true line, for example, with a 98.9% confidence level. A wider area is calculated in a similar way. At the same time, a decrease in the CT-densitometric density of hard tissues of the tooth is one of the important criteria for its defective mineralization and maturation. If at least one value of CT-densitometric density from 1005 to 1324 HU is detected at the point under study, a conclusion is made about an extremely low CT-densitometric density, the degree of maturation and mineralization of hard tissues of the tooth, which is characteristic of imperfect odontogenesis; at a value from 1325 to 1684 HU - low CT-densitometric density of hard tissues of the tooth, low degree of maturation and mineralization of hard tissues of the tooth, characteristic of incomplete odontogenesis; at a value from 1685 to 1889 HU - about the average CT-densitometric density of the hard tissues of the tooth, a sufficiently high degree of maturation and mineralization of the hard tissues of the tooth; with a value of CT-densitometric density from 1890 to 2280 HU, a conclusion is made about a high CT-densitometric density of hard tissues of the tooth, a high degree of maturation and mineralization of hard tissues of the tooth. This method for determining the degree of maturation and mineralization of the enamel and dentin of the tooth in the cervical area on the basis of computed tomography data makes it possible to characterize the degree of packing and orientation of the mineral component of the enamel and dentin of the tooth, since it is proposed to use a quantitative parameter (value of CT-densitometric density) characterizing the state hard tissues of the tooth.

Example 1

Patient P., 26 years old. Complaints: multiple defects in the enamel and dentin of the teeth of the upper and lower jaws, an aesthetic defect. Diagnosis: Multiple dentine caries (K 02.1).

Treatment plan: Determination of CT-densitometric density of hard tissues of teeth in order to assess the level of their maturation and mineralization, individual selection of oral hygiene products, prevention of diseases and destruction of hard tissues of teeth.

The patient underwent computed tomography using the "Rinaspes" apparatus. The resulting image is opened in Planmeca romexis viewer. To determine the CT-densitometric density, points were selected on teeth 38 and 48 in the cervical region. Further, mathematical calculations were carried out by binary regression according to the formula and the “predicted” value x was calculated, which is the regression line for the examined tooth 38 y=1201.1749+0.55*110.5 HU, y=1261.9499 HU. Thus, the true average value of the CT-densitometric density of teeth 38 and 48 in the cervical region was estimated, as well as its confidence interval. The obtained numerical values indicate an extremely low level of maturation and mineralization of the hard tissues of the tooth, which occurs with imperfect odontogenesis. This patient needs to be treated for all teeth affected by the carious process, with active dynamic monitoring by a dentist-therapist every 2-3 months.

Therefore, the proposed method for assessing the CT-densitometric density of the cervical region made it possible to assess the degree of maturation and mineralization of hard tissues of the teeth and personally draw up a treatment plan and determine an unfavorable prognosis for the state of hard tissues.

Example 2

Patient L., 19 years old.

Complaints: multiple carious cavities in the enamel and dentin of the teeth of the upper and lower jaws, an aesthetic defect, applied for the purpose of sanitation of the mouth.

Diagnosis: Multiple dentine caries (K 02.1).

Treatment plan: Determination of CT-densitometric density of hard tissues of teeth in order to assess the level of maturation and mineralization of hard tissues, individual selection of oral hygiene products, prevention of diseases and destruction of hard tissues of teeth.

The patient underwent computed tomography using the Planmeca apparatus. The resulting image is opened in Planmeca romexis viewer. To determine the CT-densitometric density, points were selected on teeth 38 and 48 in the cervical region. Further, mathematical calculations were carried out by binary regression according to the formula and the “predicted” value x was calculated, which is the regression line for the examined tooth 38 y=1523.9031+0.55*110.5 HU, y=1584.6781 HU.

Thus, the true average value of the CT-densitometric density of teeth 38 and 48 in the cervical region was estimated, as well as its confidence interval. The obtained digital values indicate a low level of maturation and mineralization of the hard tissues of the tooth, which occurs with incomplete odontogenesis. This patient needs to be treated for all teeth affected by the carious process, with dynamic monitoring by a dentist-therapist every 3-4 months.

Therefore, the proposed method for assessing the CT-densitometric density of the cervical region made it possible to assess the degree of maturation and mineralization of hard tissues of the teeth and personally draw up a treatment plan and determine an unfavorable prognosis for the state of hard tissues.

Claims (1)

The method for determining the CT-densitometric density of hard tissues of the cervical region of the teeth is carried out using computed tomography and by computer image processing, including performing computed tomography on the Planmeca apparatus, followed by computer image processing in the Planmeca romexis viewer program, determining regression lines in the examined teeth , which are the criteria for identifying patients with low CT-densitometric density and a low level of maturation and mineralization of hard tissues of the teeth, while the linear regression lines are calculated by binary regression, the obtained indicators are analyzed and, with a CT-densitometric density value from 1890 to 2280 HU, a conclusion is made about high the degree of maturation and mineralization of hard tissues of the tooth, with a value from 1685 to 1889 HU - about the average level of maturation and mineralization of hard tissues, with a value from 1325 to 1684 HU - about a low level of maturation and mineralization of hard tissues, meeting In case of incomplete odontogenesis, with a value from 1005 to 1324 HU, a conclusion is made about an extremely low level of maturation and mineralization of hard tissues, which occurs with imperfect odontogenesis.