UA5777U - Method for predicting risk of caries in children - Google Patents

Abstract

The method for predicting the risk of caries in the children consists in the examination of the state of the oral cavity and the exposure of CNS to the stress factors varying depending on the psychoemotional state of the child. Then the cortisol is assayed in the saliva. The individual psychoemotional state and individual indices of the caries intensity are taken into account. The saliva is sampled in three stages: prior to CNS excitation, immediately after exposure to excitation factor, and two hours later. The risk of caries is significant when in two hours after the termination of the exposure to excitation factor the cortisol content is the saliva does not fall to the minimal normal value of 4 nmol/L.

Description

The useful model relates to medicine, namely, to dentistry and can be used to predict the risk of caries in children and adolescents.

It is known that dental caries is caused by many factors, for example: - violation of the functional state of organs and systems of the body actively affects the occurrence and course of the carious process, changing the composition and properties of oral fluid; - the carious process progresses if the rate of saliva secretion decreases, the amount of saliva decreases, its viscosity increases, as well as with a low concentration of trace elements and a high content of mucin, with changes in the biochemistry of saliva and dental plaque; - the carious process slows down or stops at the stain stage with a sufficient amount of saliva and its normal viscosity, as well as with a high concentration of macro- and microelements in saliva;. - the generally recognized mechanism of the occurrence of caries is the progressive demineralization of the hard tissues of the teeth under the action of organic acids, the formation of which is connected with the activity of microorganisms; - dental plaque reduces caries resistance of teeth, because it is a source of microorganisms, a focus of fermentation of carbohydrates and formation of organic acids; - in children, metabolic disorders during the period of development, formation and maturation of teeth affect the composition and structure of dental tissues and, accordingly, can weaken their resistance.

It is also known that in the presence of carious pathology in the human oral cavity, the following parameters of oral fluid change: salivation rate, viscosity, mineralizing potential and remineralizing activity, pH, calcium, phosphorus content, etc., because caries is the result of an imbalance in the system tooth enamel - saliva under the influence of various adverse factors, one of which is acidification of saliva. Acidification leads to a decrease in the degree of supersaturation of oral fluid with Ca ions? and HRO.2 and reducing its mineralizing potential.

Saliva plays an important role in the formation and maintenance of caries resistance. The confirmation of this position is the results of clinical observations, according to which, with hyposalivation, a more intense defeat of teeth by caries is noted, and with xerotomy, in 10,095 cases, rapid destruction of all teeth occurs.

The remineralizing ability of saliva has been proven in a number of clinical and experimental studies, in which it has been convincingly proven that calcium and phosphorus enter the enamel from saliva, for example, in caries-prone children, there is a violation of the solubility of phosphorus in the biopsy specimen and a decrease in the calcium content in mixed saliva.

In addition, the processes of tooth enamel de- and remineralization are altered to a greater extent in caries-prone children with an unfavorable state of non-specific resistance of the body than in children with a favorable state of resistance.

Qualitative changes in saliva are the way, perhaps the only one, by which, along with neuroreflex ones, the influence of changes in the body on the state of the oral cavity organs is carried out. Changes in salivation can occur under the influence of local and general factors.

It has been proven that under conditions of stress, a compensatory and adaptive restructuring of the function of the nervous system takes place, while positive emotions cause an increase in the tone of the parasympathetic part of the autonomic nervous system, and negative emotions cause an increase in the tone of the sympathetic part of the autonomic nervous system, while it is clear that children react to all the effects are more energetic and long-lasting, which is due to the peculiarities of the nervous system of the growing organism.

Studies have proven that in practically healthy children with sympathotonia, the intensity and prevalence of caries is probably greater, and in them the synthesis of proteins by the salivary glands, which participate in mineralization and protection of enamel from cariogenic factors, is reduced, and the reason for this is insufficient stimulation of the secretory function of the glands in conditions of sympathotonia .

It is also known that the different psycho-emotional state of children affects the content of certain biochemical components in saliva.

Thus, the concentration of cortisol in children's saliva correlates with their behavioral reactions, the level of testosterone in children's saliva - with their ability to learn. There is a certain relationship between psycho-emotional stress and the level of cortisol, as well as between some depressive states and the level of testosterone. There are reports of fluctuations in the concentration of secretory Id against the background of negative emotions.

In connection with the above, it becomes clear how important it is to obtain a reliable forecast of the possibility of caries in children with different psycho-emotional conditions by means of saliva analysis.

The well-known "Method of evaluating the effectiveness of caries preventive agents"

Patent of Ukraine Me35337 A, MIC - b AbI1IV 10/00, 501M 33/50, bull. May 2, 2001, by determining the remineralization of tooth enamel, and before and after the course of prevention, the Tozr test (enamel resistance test) is determined, and with positive dynamics of the Tzr test, an increase in the Tzr test by 1 point or more is considered effective prevention .

The disadvantage of the known technical solution is the impossibility of predicting caries in children using the known method.

The famous "Yaleyev-Borovsky composition for diagnosing the state of teeth)) (Patent of the Russian Federation Mo 2014069

SI, IPK - 5 ABIIK 6/02, bull. Mo 11, 1994), which contains a dye, and the composition additionally contains ethyl alcohol, glycerin, perfume and water, and as a dye - fuchsin basic, with the following quantitative content of components, wt. 90:

Basic fuchsin 0.4-0.76

Ethyl alcohol 35.0-36.5

Glycerin 5.0-5.5

Fragrance 0.5-2.0

Water is different

The disadvantage of the known composition is the impossibility of using it to predict caries in children.

The well-known "Method of predicting the course of caries in children" | Patent of the Russian Federation Mo 2120127 SI, IPC - 6

B01M 33/92, bull. Мо 28, 1998, I|, which includes a biochemical analysis of saliva, while the level of cholesterol ester content in saliva is determined by the method of horizontal flow chromatography, and when its value is 4.5 mg/100 mol of mixed saliva and above, active caries is predicted.

The disadvantage of the known method of predicting the course of caries in children is the low probability of predicting caries in children with different psycho-emotional conditions, which prevents the effective use of this method in dental practice.

In the patent documentation and special literature analyzed by the author and the applicant on methods of predicting caries in children with different psycho-emotional conditions, not even an approximate analogue of the method of predicting the risk of caries in children, which is claimed in a valid useful model, is described.

Therefore, we can conclude that this useful model is pioneering and has no analogues or prototype.

The task of a valid useful model is to develop a new method of predicting the risk of caries in children with the achievement of a technical result - obtaining a reliable forecast of the risk of caries in children with different psycho-emotional conditions.

The task is accomplished by the fact that in the "Method of predicting the risk of caries in children", which is characterized by the fact that the oral cavity of each child is examined, then excited

Central nervous system in children with different psycho-emotional states, while the central nervous system is varied by the significance of the motive and the strength of the stress factor, then a saliva sample is taken and an analysis of the cortisol content in the children's saliva is carried out, taking into account the individual psycho-emotional state and the individual indicator of the caries intensity index in each specific child , and taking a saliva sample and analyzing the cortisol content in saliva in children is carried out in three stages - before the excitation of the central nervous system, immediately and 2 hours after the cessation of the action of the stress factor, while predicting the risk of caries in children if the level of cortisol in saliva does not decrease to the minimum normal value - 4nmol/l - 2 hours after the cessation of the action of the stress factor.

Cortisol is the most active corticosteroid hormone of the adrenal cortex. The maximum level of its secretion is noted in the morning hours. The effect of cortisol on the body: - manifestation of adaptive and protective properties in the mechanism of the body's response to stress; - strong anti-inflammatory and anti-allergic effect (reduces the permeability of capillaries and the formation of antibodies); - hypertensive effect; - effect on electrolyte and mineral exchange; - stabilization of cell membranes and lysosomal enzymes; - increased gluconeogenesis from proteins and lipids.

The clinical value of determining corizol.

A decrease in the level of cortisol indicates adrenal insufficiency. This condition is characteristic of chronic stress, the consequences of long-term ongoing infectious and viral diseases, the effects of ionizing radiation, chemical toxins, etc.

Excessive secretion is observed in hypoglycemia, stress, ether narcosis, pregnancy, obesity, depression, hyperthyroidism.

A decrease in secretion is noted in hypothyroidism, cirrhosis, hepatitis. Cortisol levels in the blood in these conditions may appear normal due to changes in the rate of clearance.

Cortisol secretion does not change with age.

Cortisol secretion has a daily rhythm: the level at 8:00 p.m. is usually 5095 times the level at 8:00 a.m.

Cortisol (hydrocortisone or 17-hydrocorticosterone) is a vital steroid hormone that affects metabolism, participates in the regulation of many metabolic (biochemical) processes and plays a key role in the body's protective reactions to stress and hunger.

During starvation, cortisol maintains a normal level of glucose in the blood, and during emotional or operational shock, it prevents blood pressure from falling below a dangerous level.

In large doses, cortisol has an anti-inflammatory effect and is widely used (prednisol, prednisolone) for the treatment of rheumatoid arthritis and other diseases characterized by an intense inflammatory process.

Biology. The nervous system reacts to many external influences, including stressful ones, by sending nerve impulses to the hypothalamus. Corticotropin-rimzin-hormone, formed in the pituitary zone of the hypothalamus, enters the pituitary gland and causes the release of adrenocorticotropic hormone - ACTH.

ACTH enters the general bloodstream and, once in the adrenal glands, stimulates, in turn, the production and secretion of cortisol by the adrenal cortex.

The reaction consists, on the one hand, in strengthening the synthesis of glucose in the liver and in the manifestation (permission) of the action of many other hormones on metabolic processes, and, on the other hand, in slowing down the breakdown of glucose and the synthesis of proteins in a number of tissues, including "Yazova"

Thus, this reaction is mainly aimed at saving the available energy resources of the body (reducing their consumption by muscle tissue) and filling the lost ones - the glucose synthesized in the liver can be stored in the form of glycogen - an easily mobilized potential source of energy.

Cortisol inhibits (slows down) the formation of ACTH through a feedback mechanism: upon reaching the level of cortisol sufficient for a normal protective reaction, the formation of ACTH stops.

In the body of a healthy man, about 25 mg of cortisol is produced every day; under stress, the adrenal glands can produce an order of magnitude more of it.

In the bloodstream, cortisol is bound to corticosteroid-binding globulin, a carrier protein synthesized in the liver.

This protein delivers cortisol to target cells and serves as a reservoir of cortisol in the blood.

The half-life period (the time required to remove half of the original amount from the body) of cortisol in the blood is approximately 90 minutes.

In the liver, cortisol undergoes transformations with the formation of inactive, water-soluble end products (metabolites), which are excreted from the body.

From the analysis of the above, it is clear that the acceleration of the process of caries in children, in addition to common known causes, is facilitated by a psycho-emotional state that is directly related to the formation of cortisol in the presence of stress factors, which leads to a change in the parameters of saliva, which can be quite easily fixed.

Achieving the specified technical result is possible only due to the joint action (synergistic effect) of all factors affecting the CNS of examined children, while a reliable prognosis of caries disease in children by the method that is claimed can be obtained only when using all the essential features of a useful model, which stated in its formula.

The essential features of the proposed method are: - a study of the condition of the oral cavity of each child is carried out; - then the central nervous system is stimulated in children with different psycho-emotional conditions;

- vary the central nervous system by the significance of the motive and the strength of the stress factor; - then a saliva sample is taken; - analysis of the cortisol content in children's saliva is carried out, taking into account the individual psycho-emotional state and the individual indicator of the caries intensity index in each specific child; - taking a saliva sample and analyzing the cortisol content in saliva in children is carried out in three stages - before the excitation of the central nervous system, immediately and 2 hours after the cessation of the action of the stress factor; - predict the risk of caries disease in children, if the cortisol level in saliva does not decrease to the minimum normal value - 4nmol/l - 2 hours after the cessation of the stress factor.

The technical result that is achieved consists in obtaining a reliable prediction of the risk of caries in children with different psycho-emotional conditions.

The following cause-and-effect relationship exists between the essential features of the claimed method and the technical result achieved with their help.

Indeed, in the proposed method, obtaining a reliable prediction of the risk of caries in children with different psycho-emotional conditions is possible only due to the joint action (synergistic effect) of all the signs specified in the formula of the useful model.

Achieving the above-mentioned technical result is possible only in the presence of a set of all essential features set out in the formula of the useful model, in the absence of each of them, the technical result cannot be achieved.

The applicant's analysis of the state of the art, which includes a search of patent and scientific and technical sources of information, with the identification of sources containing information about analogs of the technical solution that is claimed, allows to establish that the applicant has not identified analogs characterized by the entire set of features identical to all essential features of the method specified in the formula of the claimed utility model.

Therefore, it can be asserted that the useful model meets the condition of protectionability according to the "novelty" criterion.

In addition, the useful model can be industrially applicable, because the claimed method can be widely used in dental practice to predict caries diseases in children with different psycho-emotional conditions.

The claimed method is implemented in the following way.

It is known that the study of changes in indicators of the caries situation under the influence of external and humoral factors remains in the focus of dentistry. One of the factors affecting the human body is psychological stress.

The effect of a stress factor on the body is different for people with different types of temperament. The strength of the stress factor depends on the motive and structure of the central nervous system, accordingly, metabolic processes in the body and, in particular, in the oral cavity depend on susceptibility to external stimuli.

Carrying out a comparative analysis of changes in the content of cortisol in mixed saliva in children with different psycho-emotional conditions is the main content of the proposed method, for which a dental and psychological examination of a selected group of children is carried out.

At the same time, psychological testing is carried out, which determines the psychological characteristics of a junior high school student, for example: - determine the specifics of the manifestation of the ability to contact, self-esteem, suggestibility, anxiety, frustration; - determine the type of temperament and conduct the "experiencing emotional stress" test.

According to the results of psychological testing, children are divided into "active" and "passive" groups according to their psycho-emotional state.

For further research, the selected children are divided into two groups on the basis of psychological testing and examination of the oral cavity with the determination of the KPU KKP index.

In children of these groups, caries intensity was determined by the KPU-zhkp index, which takes into account the number of carious cavities and fillings in temporary and permanent teeth.

The first group includes, for example, 14 active children (9 boys, 5 girls), the second group - 14 passive children (6 boys, 8 girls), according to the maximum and minimum values of the results of psychological tests.

In children of both groups, a sample of mixed saliva is taken at a specified time interval, for example, a sample of mixed saliva is taken 3 times with an interval of 1 hour and 2 hours.

The stress factor was the solution of three mathematical problems in time.

Next, they perform a study of the cortisol content in mixed saliva, for which the oral fluid is collected in numbered tubes. The volume of collected saliva is about 8 mol.

Sampling of oral fluid - saliva - in children of both selected groups is done, for example, in the following way: - 1st sampling of oral fluid is done at 999 at the beginning of the lesson; - the 2nd saliva sample is taken 10 days after the stress factor was introduced in 939; - Her saliva is taken at 1220, 2 hours after the stressful situation at the end of the lessons, before going home.

Test tubes with saliva in a frozen form are delivered to a radioisotope laboratory to determine the cortisol content in saliva by a radioimmunological method.

Next, a comparative analysis of the cortisol content in mixed saliva in children with different psycho-emotional conditions and different indicators of caries intensity index is carried out.

The final operation of the method is to conduct a comparative statistical analysis of the obtained results and predict the probability of caries risk in a particular child.

Example 1 1. Research objects

The author conducted a dental and psychological examination of 98 children (53 boys, 45 girls) at the age of 8, at the base of secondary school Me15 in Kryvyi Rih, which is a "health" school registered in the Ministry of Education and Health of Ukraine Me206/ 272 dated 20.07.98, as a participating school of the International Project "European Network of Health Promotion Schools".

All children grew up and developed in satisfactory material and living conditions and belong to the 1st and 2nd health groups. 2. Methods and scope of research.

The author used clinical, laboratory, psychological and statistical research methods to solve the problems. Objects, methods and scope of research are presented in table 1. 3. Clinical research methods 3.1. Determining the intensity of caries lesions

Determination of the intensity of the caries lesion was carried out on the basis of the examination of children according to the methodology proposed by the WHO (1989). For this, the following indicator was used - the intensity of dental caries in the period of alternating bite: index KPUzhkp teeth - the sum of all permanent and milk teeth affected by non-healing caries, filled and extracted.

Table 1

Objects, methods and scope of research

Determination of mouth intensity

SMO average molecular I inorganic 1.14 1.14

Cortisol level Oral fluid 2.14 2.14 84 3.14 3.14 Hyaluronic acid Teeth

Teeth 3.2. Clinical methods of determining the caries situation in the oral cavity.

The hygienic condition of the child's oral cavity was determined by determining the hygienic index. The hygiene index was determined according to the method of Yu.A. Fedorova - V.V. Volodkina (1971), and the results were evaluated in accordance with WHO recommendations (1.1-1.5 points - good hygiene index; 1.6-2.0 - satisfactory; 2.1-2.5 - unsatisfactory; 2.6 -3.4 - bad; 3.5-5.0 - very bad).

Salivation rate. productive activity of salivary glands for a certain period of time was determined by the formula: t, where M is the volume of saliva in the test tube, T is the time of saliva collection. 4. Methods of studying personality psychology

The study of personality psychology was conducted using psychological tests adapted for younger schoolchildren. The specificity of the manifestation of the ability to contact, self-esteem, suggestibility, anxiety, frustration was determined, the type of temperament was determined and the "Experiencing emotional stress" test was conducted.

Based on psychological testing according to Rotter's classification, children were divided into two psycho-emotional groups. The first "active" group consisted of 31 children (18 boys, 13 girls) - "internals" (self-confident, who rely only on themselves, who do not need external support), who have an internal "locus" of control over their activities.

The second group - "passive" - consisted of 30 children (14 boys, 16 girls) - "externals" with an external "locus" of control (insecure, poor in incentives, painfully reacting to condemnation). 5. Laboratory research methods 5.7. Biochemical studies of oral fluid

Saliva was collected in centrifuge tubes in the morning, 1-2 hours after eating. The amount of glucose, α-amylase activity, the level of medium molecular weight oligopeptides, the amount of total calcium and inorganic phosphorus were determined in the oral fluid of children of different psychoemotional groups. The amount of glucose in saliva was determined by the glucose oxidase method. The principle of the method - glucose in the presence of glucose oxidase is oxidized by air oxygen to gluconic acid and hydrogen peroxide. The latter, in the presence of peroxidase, reacts with phenol and 4-aminophenazone with the formation of quinoneimine of a red-violet color determined photometrically.

Quantitative determination of c-amylase activity was carried out according to the method: starch in the presence of c-amylase is hydrolyzed to derivatives that do not give a color reaction with iodine. The study of the intensity of staining of the iodine-starch complex is proportional to the activity of the enzyme in the analyzed sample.

The level of medium molecular weight oleopeptides in saliva was determined according to the method of Gabrizlyan et al. 0.5 mol of 10905 trichloroacetic acid was added to 1 mol of material, mixed to a homogeneous mass and centrifuged

ЗОхв at 3000 rpm. 4.5 mol of distilled water was added to 0.B5 mol of the supernatant and spectrophotometered on a SF-16 spectrophotometer against water at wavelengths of 254 and 280 nm. Quantitative content

SMO was expressed in conventional units of density.

Determination of total calcium in oral fluid was carried out by the photometric method.

Principle of the method: calcium ions in an alkaline medium react with o-cresolphthalein complexone, forming a colored complex. The intensity of purple staining of the resulting complex is proportional! calcium concentration in the analyzed sample.

Determination of inorganic phosphorus in saliva.

The principle of the method: inorganic phosphorus remains in the protein-free centrifuge, which reacts with molybdic acid to form phosphoro-molybdic acid. The latter is reduced by ascorbic acid to a blue phosphorus-molybdenum complex. The intensity of staining is proportional to the concentration of inorganic phosphorus. Lipoid phosphorus is precipitated by trichloroacetic acid together with proteins. Phosphorus content is determined in the resulting sediment after its mineralization. Spectrophotometry was performed at a wavelength of 630-6b9 Ohm. 5.2. Radio-immunological research of saliva

Radio-immunological examination of oral fluid was carried out to determine the amount of cortisol content in saliva and its quantitative change when provoking a stressful situation and 90 minutes after the termination of the action of the stressful factor in children with different psycho-emotional conditions.

The research was conducted on the basis of the municipal institution "Kryvorizk City Oncology Dispensary" in the laboratory of radionuclide diagnostics on a Gamma-12 counter using a set of radiopharmaceuticals:

Steron - K - 1125 - M (cortisol)

The results are presented in table 2, as well as in the form of graph 1 and diagram 1. 5.3. Bacteriological examination of dental plaque. ven 216 ! and ! 5. - ve.

Plaque was sampled from sixteen teeth of the upper and lower jaw after rinsing the mouth three times with a sterile saline solution.

The material was delivered in a thermos at a temperature of 37 degrees to the tank laboratory for the study of the quantitative and qualitative composition of streptococci and lactobacilli according to the standard method (order Mo535 of April 22, 1985. On the unification of microbiological (bacteriological) research methods used in clinical and diagnostic laboratories of medical and preventive institutions.

Table 2

Cortisol content in mixed saliva in children with different psychoemotional states

Probability of discrepancies 11111111 Y771pritz 77171711 -00111711rgaz | 7 -001.ЮЖБж2жфзБж пон вженко КОринжаюя в эксен ося Ким Кее ду дум пох ИЗКИУЦУЙысчИММ M PIT ANIMKE. her

B pk and people: Я ХИ прузью ME:

ChoirInUM of MMK:

Evalik

: Studerokyany k«artnaona z shshankok sla ХК ЛКеВ К Vazy prik oluationa lna : : kemgovnyM : z s y 0000 JHE 0000 SHE : XX CENTURY ХК КА зы : OO sh. and 0. more ' : : pe Km : yarakh pr : Marty pat :

Diagram 1 5.4. Immunological research of saliva

The amount of 5Id in the oral fluid was determined by the micromethod based on the immunological laboratory of KSMU. 6. Statistical research methods

Statistical processing of the obtained results was carried out using standard programs. The presence of the probability of differences between the arithmetic means (Mi and Me) was assessed using the Student's test

Fisher (P«0.05). Calculations were made using a personal computer.

The analysis of the obtained data showed that the cortisol content in the saliva of children of the first group is 3 times lower than that of the children of the second group (table 21.

A stress factor increases the amount of cortisol in oral fluid in children and II groups, but at the same time, the increase in cortisol in saliva in children of II group is 6 times more than in children of I group (re0.05) and corresponds to the upper limit of the normal range.

The data obtained in the post-stress period in children of the 1st group indicate a slight change in the amount of cortisol in saliva of 3,520.7 nmol/l (p»0.05).

In the children of the II group, in the post-stress period, there were significant fluctuations in the amount of cortisol in the oral fluid 1325.1 Znmol/l Figure 1 and Diagram 11.

Sharp fluctuations of cortisol in saliva in the "passive" group can be explained by the fact that the minor stress impact that the schoolboy encounters every day leads to an increased release of cortisol into the blood and a disruption of the sympathoadrenal system. Also, it is probably connected with a weak type of central nervous system and susceptibility to stress. According to the available data Kayukova V.D. the state of the autonomic nervous system correlates with metabolic processes in the oral cavity and dental caries.

Minor changes in the amount of cortisol in saliva in "active" children makes it possible to assume that solving problems for time is not a stressful factor due to the low significance of the motive and a strong type of central nervous system.

Based on the above, it is obvious that the amount of cortisol in the blood and mixed saliva affects the metabolic processes of the oral cavity and dental caries in children.

Conclusions 1. Comparative statistical analysis of the obtained results indicates the probability of discrepancies in the studied groups. 2. Central nervous system disorders in children with different psychoemotional conditions depend on the significance of the motive, on the strength of the stress factor, and this is reflected in the amount of cortisol content in saliva.

An increase in the content of cortisol in the body leads to changes in the work of the autonomic nervous system, which affects metabolic processes in the oral cavity.

C. An increase in the cortisol content in children with different psycho-emotional conditions makes it possible to predict with a high degree of probability the risk of developing caries in them. 4. The use of this method in dental practice allows to prevent the development of caries in children of the "passive" group by carrying out preventive and psychological measures.

Thus, on the basis of all of the above, it can be concluded that the task set in the proposed method - the development of a new method of predicting caries in children - is carried out with the achievement of a technical result - obtaining a reliable prediction of the risk of caries in children with different psycho-emotional conditions.

Claims (1)

The method of predicting the risk of dental caries in children, which is characterized by the fact that the oral cavity of each child is examined, then the central nervous system is stimulated in children with different psycho-emotional states, while the central nervous system is varied by the significance of the motive and the strength of the stress factor, then a saliva sample is taken and an analysis of the cortisol content in children's saliva is carried out taking into account the individual psycho-emotional state and the individual indicator of the caries intensity index in each specific child, and saliva sampling and analysis of the cortisol content in children's saliva are carried out in three stages - before the excitation of the central nervous system, immediately and after 2 hours after the cessation of the action of the stress factor, while predicting the risk of caries disease in children, if the cortisol level in saliva does not decrease to the minimum normal value - 4 nmol/l - 2 hours after the cessation of the action of the stress factor.