RU2484763C1 - Method of determining state of tooth enamel surface - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to dentistry, and can be applied to determine the state of tooth enamel surface. Dosed drop of liquid is applied on tooth surface. When equilibrium of interaction of liquid with tooth enamel surface is established, angle of wetting, used to make conclusion about tooth enamel surface, is measured. In order to determine hygienic state of tooth enamel angle of wetting of non-cleaned enamel surface is measured. Enamel surface is cleaned and angle of wetting is re-measured. Conclusion of hygienic state of tooth enamel is made on the basis of change of angle of wetting. In order to determine initial stage of demineralisation, several cleaned teeth are examined and if angle of wetting on tooth decreases, conclusion about initial stage of demineralisation on said tooth is made. In order to determine functional resistance of hard tooth tissues to caries measurement of angle of wetting is carried out on preliminarily cleaned tooth. After that, tooth surface is processed with buffer solution with pH 2.0-5.8. Angle of wetting is measured. Degree of angle of wetting decrease is used to make conclusion about the level of tooth resistance to caries.

EFFECT: method makes it possible to determine state of tooth enamel surface due to comparison of angles of wetting of dosed drop of liquid, obtained before and after impact on tooth enamel.

4 cl, 1 dwg, 3 ex

Description

The invention relates to medicine, namely to dentistry, and can be used to determine the condition of the tooth enamel surface, in particular, the hygienic state, the initial stage of demineralization, functional resistance of dental hard tissues to caries and others.

There is a method for diagnosing the initial enamel demineralization, according to which areas with impaired enamel permeability are stained with a 2% methylene blue solution and the color intensity is used to conclude the initial stages of caries (Axamit L.A. Diagnosis of the initial enamel demineralization by staining. / Clinical and experimental results Research. M., 1973, p. 4-5).

There is a method of electrometric diagnosis of focal demineralization of hard tissues of permanent teeth, according to which the current passing through the hard tissues of the tooth is measured at a controlled point, and the presence of demineralization is diagnosed by its magnitude (Electrometric diagnosis of initial, fissure, recurrent caries and other lesions of hard tissues of teeth with complete mineralization of enamel./ Methodological recommendations, Ministry of Health of the RSFSR, Omsk, 1988, p.10). The method provides objective quantitative data that cannot always be unambiguously interpreted, since individual perception largely depends on pathological processes in the pulp.

A known method for determining the functional resistance of enamel, the so-called TER test, which provides for partial dissolution of tooth enamel under direct exposure to concentrated hydrochloric acid and visual assessment of the site of enamel dissolution with acid after additional staining (Okushko V.R. Clinical physiology of tooth enamel. / Health, Kiev, 1981).

The disadvantage of this method is its invasiveness, which limits the conduct of repeated tests to obtain stable results, and a subjective approach to the analysis of the result.

The technical result of the claimed invention is to expand the arsenal of tools for determining the state of the surface of tooth enamel.

The technical result is achieved in a method for determining the state of a tooth enamel surface, in which a metered drop of liquid is applied to the surface of at least one tooth, whether or not exposed, and after the equilibrium of the interaction of the liquid with the tooth enamel surface is measured, the contact angle is measured, and the state tooth enamel surfaces are judged by comparing the wetting angles obtained before and after exposure to the tooth enamel, or the wetting angles of the test tooth and other teeth.

To determine the hygienic state of tooth enamel, the wetting angle of the raw enamel surface is measured, the enamel surface is cleaned and the wetting angle is measured again, and the hygienic condition of tooth enamel is judged by the change in the wetting angle.

To determine the initial stage of demineralization, a study of several cleaned teeth is carried out and, with a decrease in the wetting angle on the tooth, the initial stage of demineralization on this tooth is judged.

To determine the functional resistance of tooth hard tissues to caries, the contact angle is measured on a previously cleaned tooth, the tooth surface is treated with a buffer solution with a pH of 2.0-5.8, the contact angle is measured, and the level of resistance of the tooth to tooth decay is determined by the degree of reduction of the contact angle.

The contact angle is measured at the interface between three phases - solid, liquid, gaseous. This angle is a characteristic of the equilibrium of the forces of interaction between molecules within phases (between homogeneous molecules) and at the interface (between dissimilar molecules). Therefore, the contact angle is an energy characteristic and characterizes the energy of interaction between molecules. In other words, the wetting angle characterizes the molecular state of each surface (Changes in the contact angle as a method for studying the adhesion properties of the surface. S.I. Matyukhin, K.Yu. Frolenko. Condensed media and interfacial boundaries. 2003. V. 5. No. 2. C. .216-220).

The authors propose using the wetting angle to characterize the state of a hard tooth surface. Any chemical or physico-chemical changes in the surface of the tooth enamel will change the wetting angle. The processes leading to the formation of hydrophobic compounds on the surface — the formation of fluorapatite, as well as the formation of adsorption films that are poorly wetted by water, leads to an increase in the contact angle. The processes leading to the formation of polar groups on the surface, the adsorption of surfactants lead to a decrease in the contact angle. Such processes may be the dissolution of tooth enamel in acid. In this case, hydroxylapatite gives calcium ions to the solution and passes into a calcium-deficient form, which sorbes these ions back from the solution onto the crystal surface and not hydroxyapatite crystals will interact with water, but hydrated calcium ions that interact well with water. As a result, the wetting angle will decrease.

The drawing shows a photograph of a drop of water deposited on the surface of the tooth, and shows the wetting angle α.

The method is carried out, for example, as follows.

The patient is seated in a chair. Depending on the age of the patient, the anatomical shape and size of the tooth associated with its dental formula and functional group affiliation, the location of the patient is chosen so that the tooth surface is horizontal. It is most convenient to conduct research on incisors. On a dry tooth surface, a 1-channel 5 μl Microdoser Lightmikro (Lenpipet); 1-channel Proline plus 1-10 μl (BIOHIT, Finland) drop of distilled water 5-10 μg (0.005-0 , 01 ml) and after establishing the equilibrium of the interaction of the liquid with the tooth surface (stabilization of the angle), after approximately two minutes, the contact angle is determined.

The wetting angle can be measured with a catheter, surface scanner, goniometer, and oral camera. The authors measured the wetting angle using a setup consisting of an optical tube giving a 10-fold increase, mounted on a movable stand. The pipe was connected to a digital camera. A digital image was transferred to a computer and the contact angle α was calculated (drawing).

To determine the hygienic state of tooth enamel, the wetting angle of the raw enamel surface is measured. Then, the surface is cleaned by rubbing alcohol or an abrasive-containing agent without surfactants (silica gel, Kerrpumiks, etc.). After treatment, the tooth surface is washed with distilled water and dried with a clean cloth and the contact angle is re-determined. A change (increase) in the wetting angle compared to the initial value characterizes the presence of contaminants on the tooth surface.

To determine the initial degree of demineralization, the contact angle is determined on several cleaned teeth. Reducing the wetting angle on any tooth allows us to judge the beginning of the pathological process.

To determine the functional resistance of tooth hard tissue to caries, the contact angle is measured on a previously cleaned tooth. Then put on a tooth surface a cotton swab moistened with a buffer solution with a pH of 2.0-5.8, incubated for 30-40 seconds, washed with water and determine the contact angle. The degree of reduction of the contact angle compared with the initial determine the level of resistance to caries. A decrease in wetting angle of more than 10% indicates a clear predisposition to caries.

The method is illustrated by the following clinical examples.

1. Patient A., 36 years old, turned to the dentist with complaints of the presence of a constant halitosis. During the examination, pathological changes in the hard tissues of the teeth and periodontium were not detected. Soft plaque and dental deposits were found on the surface of tooth enamel.

When determining the wetting angle on different teeth, the angle was in the range from 22 to 28 ° C on the front teeth. After cleaning the tooth enamel with cotton wool with alcohol, washing with water and drying with an air stream, the contact angle increased to 37-39 °. An increase in the wetting angle indicates the cleaning of the surface of the teeth from plaque.

2. Patient B., 28 years old, turned to the dentist with complaints of a change in the color of enamel on her front teeth. When examined on the 11th and 21st teeth, chalky spots were found in the cervical region. After processing the vestibular surface of these teeth with a 70% solution of ethyl alcohol and drying, a comparative measurement was made of the wetting angle of the tooth enamel surface in the equator and the area of chalk spots. The wetting angle in the area of chalk spots was 20% less than on an unchanged surface in the area of the equator of teeth. This change indicates the demineralization of enamel in the cervical region of the 11th and 21st teeth (diagnosis: initial caries at the stage of the Cretaceous spot).

3. Patient K., 22 years old, turned to the dentist about preparing the teeth for orthodontic treatment. The dentist conducted a study of the functional resistance of tooth enamel: the vestibular surfaces of all teeth were cleaned with 70% ethanol and dried, after which the contact angle was measured on these tooth surfaces. After repeated drying, the tooth surface was treated with an acid buffer solution with a pH of 5.8 for 40 seconds, the teeth were washed with distilled water for one minute, and dried with a stream of air. Repeated measurements of the contact angle of the treated tooth surfaces were carried out. The decrease in the wetting angle on various teeth was from 5% to 8%, indicating a high enamel resistance.

Using the claimed method allows to determine the state of the surface of the tooth enamel. The method is inexpensive, informative and can be used for rapid diagnosis of the surface condition of tooth enamel.

Claims (4)

1. A method for determining the condition of a tooth enamel surface, characterized in that a metered drop of liquid is applied to the surface of at least one tooth, whether or not exposed, and after the equilibrium of the interaction of the liquid with the tooth enamel surface is measured, the contact angle is measured, and the state of the surface of the tooth enamel is judged by comparing the wetting angles obtained before exposure to the tooth enamel and after, or the wetting angles of the test tooth and other teeth. 2. The method according to claim 1, characterized in that to determine the hygienic state of the tooth enamel, the wetting angle of the raw enamel surface is measured, the enamel surface is cleaned and the wetting angle is measured again, and the hygienic condition of the tooth enamel is judged by the change in the wetting angle. 3. The method according to claim 1, characterized in that the study of several cleaned teeth is carried out, and when the wetting angle on the tooth is reduced, the initial stage of demineralization on the tooth is judged. 4. The method according to claim 1, characterized in that to determine the functional resistance of the hard tissues of the tooth to caries, the contact angle is measured on the previously cleaned tooth, the tooth surface is treated with a buffer solution with a pH of 2.0-5.8, the contact angle is measured and the degree of reduction of the wetting angle judges the level of tooth resistance to caries.

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