RU2785184C1 - Method for determination of maturity of human teeth enamel by atomic force microscopy - Google Patents

Abstract

FIELD: medicine; dentistry.

SUBSTANCE: invention relates to medicine, dentistry; it can be used for highly accurate determination of a level of resistance and maturity of human teeth enamel for quantitative assessment of a degree of maturation and mineralization of teeth enamel by an ultramicroscopic picture of a mineral component and determination of predisposition to a carious process. Obtained digital ACM images are subjected to computer processing in Image Analysis NT-VDT program, a length and a width of enamel prisms are measured by histograms in a field of view of 100*100 nm. In a field of view of an atomic force microscope, there are prisms of a large size, characterized by more tight packaging relatively to each other, where their surface is smoother, with a regular arc shape and is typical for mature enamel. Small enamel prisms are weakly ordered, they are similar to different ugly geometric shapes, which are typical for immature enamel. Thus, enamel prisms with a length of 5.36-5.70 nm and a width of 4.51-4.91 nm characterize a high level of maturity of a mineral component and a high degree of maturation and mineralization of teeth enamel, a high indicator of resistance and a low level of predisposition to the carious process. Prisms with a length of 5.07-5.35 nm and a width of 4.14-4.50 nm indicate an average level of packaging of the mineral component and an average level of maturation and mineralization of teeth enamel, an average indicator of resistance and a questionable level of predisposition to the carious process. Prisms with a length of less than 5.06 nm and a width of less than 4.13 nm indicate a low level of packaging of the mineral component and a low level of maturation and mineralization of teeth enamel, a low indicator of resistance and a high level of predisposition to the carious process.

EFFECT: method provides an increase in the accuracy and objectivity of determination of a degree of maturity, resistance of human teeth enamel, and predisposition to a carious process.

1 cl, 3 ex

Description

The invention relates to medicine, dentistry, and can be used for highly accurate determination of the level of resistance and maturity of human tooth enamel, in order to quantify the degree of maturation and mineralization of tooth enamel by ultramicroscopic picture of the mineral component and determine predisposition to carious process. There are various methods that make it possible to judge the quality of the surface and the level of resistance of human tooth enamel, however, the presented methods do not have a quantitative measure, therefore they cannot fully describe the qualitative characteristics of the mineral component, and therefore accurately assess the level of resistance and maturity of its components. The development of a method for determining the maturity of human tooth enamel, using a method that meets the modern requirements of clinical medicine, is relevant.

There is a known method for determining the state of the surface of tooth enamel, including exposure of the vestibular surface of one or more teeth with an acidic solution with a dye site in the form of a 1% aqueous solution of methylene blue, followed by an assessment of the intensity of staining using standards of different intensity (patent RU No. 2603620: Schmidt O.Yu., Sarap L.R.). This method allows you to determine the state of the surface of the enamel of the teeth at the initial stage of demineralization, to determine the risk of caries. The disadvantage of this method is that this method is subjective, and determines the level of resistance only by staining shades, without accurate confidence intervals, therefore, it is not possible to establish the degree of maturity by the proposed method.

A method is proposed for determining the state of the surface of tooth enamel by measuring the contact angle on a previously cleaned tooth (patent RU No. 2484763: Grishin V.V., Grishin V.V., Maslov V.V. [and others]). In this method, a cotton swab moistened with a buffer solution with a pH of 2.0-5.8 is applied to the surface of the enamel, kept for 30-40 seconds, washed with water, and the contact angle is measured. By the degree of reduction of the contact angle by more than 10%, a predisposition to caries is judged. The disadvantage of this method is the high level of error in applying the solution and maintaining the buffer solution, which undoubtedly affects the accuracy of digital values.

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 then 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 structures that are superimposed on the image. Thus, the results obtained when determining the density of enamel by this method are not sufficiently accurate and informative in assessing the degree of maturity of the teeth, which undoubtedly reduces the practical significance in dental practice. This method is taken as a prototype.

The inventive method for determining the resistance and maturity of tooth enamel is laborious, easy to use, however, it allows you to effectively and with high accuracy quantify maturity by the size of enamel prisms of teeth 38 or 48, small sizes and inaccurate proportions in length and width indicate maturity and predisposition to the carious process.

The technical result of this invention is to increase the accuracy and objectivity of determining the degree of maturity, resistance of human tooth enamel and predisposition to a carious process.

The technical result is achieved by the fact that in the method for determining the maturity and resistance of tooth enamel, a distinctive feature is that a phased and sequential preparation of sections of the teeth is carried out, with the maximum preservation of the edges of the enamel prisms, by placing the samples in the field of view of the Solver Pro atomic force microscope. The obtained digital AFM images are subjected to computer processing in the Image Analysis NT-VDT program, the length and width of enamel prisms are measured from histograms, in the field of view of 100 * 100 nm. In the field of view of an atomic force microscope, there are large prisms characterized by denser packing relative to each other, where their surface is smoother with a regular arcuate shape and is characteristic of mature enamel. Small enamel prisms are poorly ordered, in appearance they resemble various ugly geometric shapes that are characteristic of immature enamel.

Thus, enamel prisms with a length of 5.36-5.70 nm, a width of 4.51-4.91 nm, characterize a high level of maturity of the mineral component and a high degree of maturation and mineralization of tooth enamel, a high resistance index and a low level of susceptibility to a carious process; prisms with a length of 5.07-5.35 nm, a width of 4.14-4.50 nm indicate an average level of packing of the mineral component and an average level of maturation and mineralization of tooth enamel, an average resistance index and a dubious level of susceptibility to a carious process; prisms with a length of less than 5.06 nm, a width of less than 4.13 nm indicate a low level of packing of the mineral component and a low level of maturation and mineralization of tooth enamel, a low resistance index and a high level of susceptibility to a carious process. The method is carried out as follows.

The patient undergoes an atraumatic extraction of an intact tooth 38 or 48 for medical reasons. Stage-by-stage and sequential preparation of thin sections of enamel samples is carried out using grinding and polishing wheels, bringing the enamel surface to 14 cleanliness class. After mechanical treatment, the sections are cooled in distilled water, dried using a propane torch at a temperature of 36°C, the surface under study is etched with 37% phosphoric acid with final rinsing under a stream of distilled water, which allows maximum preservation of the edges of enamel prisms. The resulting sample is placed in the field of view of the Solver Pro atomic force microscope. The obtained digital AFM images are subjected to computer processing in the Image Analysis NT-VDT program. According to histograms, the length and width of enamel prisms are measured, in a field of view of 100 * 100 nm: with a length of 5.36-5.70 nm, a width of 4.51-4.91 nm, they characterize a high level of maturity of the mineral component and a low level of susceptibility to carious process ; 5.07-5.35 nm long, 4.14-4.50 nm wide indicate an average level of packing of the mineral component and a dubious level of susceptibility to a carious process; less than 5.06 nm long, less than 4.13 nm wide indicate a low level of mineral packing and a high level of caries susceptibility.

Example 1. Patient F., 18 years old.

Complaints: for the purpose of sanitation of the mouth, preparation for orthodontic treatment.

Treatment plan: 1. Sanitation of the mouth. 2. Tooth extraction 48. 3. Evaluation of the level of maturity and resistance of tooth enamel, in order to identify a risk group for a predisposition to a carious process. 4. Individual selection of hygiene products, prevention of diseases of hard dental tissues. 5. Treatment by an orthodontist.

The patient underwent extraction of tooth 48. Step-by-step and sequential preparation of sections of teeth, brought to the 14th class of cleanliness, using grinding wheels, with maximum preservation of the edges of enamel prisms, was carried out.

Next, the resulting sections were cooled in distilled water and dried using a propane burner at a temperature of 36°C. Then the surface under study was etched with 37% phosphoric acid, with a final rinsing under running distilled water. The obtained sections of tooth 48 were placed in the field of view of the Solver Pro atomic force microscope. The resulting digital AFM images were subjected to computer processing in the Image Analysis NT-VDT program, the average length and width of enamel prisms were measured from histograms, in a field of view of 100 * 100 nm: prism length 5.51 nm, width 4.72 nm. The obtained values indicate a high level of packing of the mineral component and a high level of maturation, mineralization of tooth enamel, with high rates of resistance and a low level of susceptibility to caries. Therefore, this patient needs a dispensary registration with a dentist-therapist with an appearance 1 time per year.

Thus, the proposed method for assessing the maturity of tooth enamel made it possible to assess the level of resistance and maturity of the enamel, personally draw up a treatment plan and determine a positive prognosis for the development and course of the carious process.

Example 2. Patient A., 17 years old.

Complaints: in order to prepare for orthodontic treatment, for preventive examination.

Treatment plan: 1. Sanitation of the mouth. 2. Extraction of teeth 38, 48. 3. Evaluation of the level of maturity and resistance of tooth enamel on tooth 48 in order to identify a risk group for a predisposition to a carious process. 4. Individual selection of hygiene products, prevention of diseases of hard dental tissues.

The patient underwent extraction of tooth 48. Staged and sequential preparation of sections of teeth was carried out with maximum preservation of the edges of enamel prisms. The obtained sections of tooth 48 were placed in the field of view of the Solver Pro atomic force microscope. The obtained digital AFM images were subjected to computer processing in the Image Analysis NT-VDT program, the average length and width of enamel prisms were measured from histograms, in a field of view of 100 * 100 nm: prism length 5.31 nm, width 4.29 nm. The obtained values indicate an average level of packing of the mineral component and a dubious level of susceptibility to a carious process. Therefore, this patient needs a dispensary registration with a dentist-therapist with an appearance 1 time in 4-6 months (dynamic monitoring of the state of hard tissues of the teeth). Thus, the proposed method for assessing the maturity of tooth enamel made it possible to assess the level of resistance and maturity of the enamel, personally draw up a treatment plan and determine a dubious prognosis for the development and course of the carious process.

Example 3. Patient A., 27 years old.

Complaints: in order to prepare for orthodontic treatment, for preventive examination.

Treatment plan: 1. Sanitation of the mouth. 2. Extraction of tooth 38. 3. Evaluation of the level of maturity and resistance of tooth enamel on tooth 48 in order to identify a risk group for a predisposition to a carious process. 4. Individual selection of hygiene products, prevention of diseases of hard dental tissues.

The patient underwent extraction of tooth 38. Staged and sequential preparation of sections of teeth was carried out with maximum preservation of the edges of enamel prisms. The obtained sections of tooth 38 were placed in the field of view of the Solver Pro atomic force microscope. The resulting digital AFM images were subjected to computer processing in the Image Analysis NT-VDT program, the average length and width of enamel prisms were measured from histograms, in a field of view of 100 * 100 nm: prism length 5.01 nm, width 4.10 nm. The obtained values indicate a low level of packing of the mineral component and a high level of susceptibility to a carious process. Therefore, this patient needs a dispensary registration with a dentist-therapist with an appearance once every 2-3 months (dynamic monitoring of the state of hard tissues of the teeth).

Thus, the proposed method for assessing the maturity of tooth enamel made it possible to assess the level of resistance and maturity of the enamel, personally draw up a treatment plan and determine a dubious prognosis for the development and course of the carious process.

This method for determining the degree of maturity and resistance of human tooth enamel, based on atomic force microscopy data on the study of the size of enamel prisms in length and width, makes it possible to characterize the orientation and packaging of the mineral component, where the quantitative parameter (length, width) characterizes the state of tooth enamel and determines the quality of the carcass of the crown part of the teeth and the predisposition to diseases of hard tissues.

Claims (1)

A method for determining the maturity of human tooth enamel by atomic force microscopy, which consists in the fact that first an atraumatic removal of an intact tooth 38 or 48 is carried out for medical reasons, then sections of enamel samples are prepared, brought with the help of grinding and polishing wheels to 14 cleanliness classes, after sections are cooled in distilled water, dried using a propane torch at a temperature of 36°C, etching the surface under study with 37% orthophosphoric acid and finally rinsing under a stream of distilled water, then the resulting sample is placed in the field of view of the Solver Pro atomic force microscope, the resulting digital AFM images are subjected to computer processing in the Image Analysis NT-VDT program, the length and width of enamel prisms are measured from histograms in a field of view of 100 * 100 nm; with a length of 5.36-5.70 nm, a width of 4.51-4.91 nm, a conclusion is made about a high level of maturity of the mineral component and a low level of susceptibility to a carious process; with a length of 5.07-5.35 nm, a width of 4.14-4.50 nm indicate an average level of packing of the mineral component and a dubious level of susceptibility to a carious process; and with a length of less than 5.06 nm, a width of less than 4.13 nm indicate a low level of mineral packing and a high level of susceptibility to a carious process.