RU2099710C1 - Method for evaluating secretory activity of minor salivary glands - Google Patents

Abstract

FIELD: stomatology; evaluation of secretory activity of minor salivary glands during diseases of mucosae in oral cavity and lips. SUBSTANCE: proposed method is based upon evaluating moisture content of hygroscopic pad placed onto region under study of patient's mucosa. Stomatologist must measure resistance of electric circuit, secretory activity of minor salivary glands being evaluated by measuring time period, during which electric resistance of circuit declines to reach stable value. EFFECT: 1) method gives dynamic picture measurement accuracy; 3) lower labour input.

Description

 The invention relates to medicine, in particular to dentistry, and can be used in the examination of patients with diseases of the lips and oral mucosa.

 An important role in the development of diseases of the lips and oral mucosa belongs to the small salivary glands located in the thickness of the mucous membrane and which are the “barrier” structures of the oral cavity. The activity of the functioning of these glands in various diseases can vary both in the direction of increase and decrease. For example, with glandular cheilitis, hypertrophy and increased activity of secretion of small salivary glands, expansion of the excretory ducts are observed, which is expressed in the appearance of the symptom of “dew” of multiple small drops of liquid on the surface of the mucous membrane of the lips, which are the secret of small salivary glands. Due to infection and significant salivation, tissue maceration and inflammation occur. In other diseases, for example, in chronic aphthous stomatitis, the activity of small salivary glands sharply decreases as a result of degenerative changes in the secretory sections of the glands and their ducts, as a result of which they become sources of the formation of pathological processes (V.V. Panikarovsky et al. 1985). The described changes in the small salivary glands are accompanied by the spread of the inflammatory process to the surface layers of the oral mucosa, while its epithelial cover can also be damaged. Thus, the determination of the activity of secretion of small salivary glands is an objective diagnostic test for the recognition of diseases of the lips (cheilitis) and the oral mucosa, as well as for determining the stage of development of the disease (remission or exacerbation).

A known method for determining the function of small salivary glands (V.I. Yakovleva, 1980), which is as follows. An aluminum frame with a “window” of 3-4 cm ² is placed on a portion of the lip mucous membrane isolated with cotton rolls, onto which filter paper previously dried to a constant mass is placed. After 1-2 minutes, the paper is removed and the amount of secretion secreted by the small salivary glands is calculated by the difference in paper weight before and after the study. Then the test area is lubricated with a 2% solution of methylene blue and the number of functioning small salivary glands is counted. By dividing the mass of secreted secretion by the number of glands, the amount of secretion secreted by one gland is determined. At the same time, the rate of secretion of the glands is calculated.

The disadvantages of this method include:
1. The need for special conditions for storing filter paper under identical conditions (in a bottle with a ground stopper placed in a desiccator with calcined calcium).

 2. The difficulty of obtaining pieces of filter paper of the same size and weight.

 3. The need for double weighing of filter paper on a laboratory torsion balance, which leads to a significant expenditure of doctor’s working time.

 4. The need for staining the mucous membrane with a dye, followed by counting the number of functioning glands and carrying out the appropriate mathematical calculations.

 5. The method does not allow to give the temporal characteristics of the process of salivation in dynamics.

 A method is also proposed (I. M. Rabinovich et al. 1991), which consists in the fact that to determine the amount of secretion of small salivary glands on a previously dried mucous membrane of the lower lip, a rectangular applicator with a standard size (24 x 15 mm) is applied on the paper side, which after The 5-minute exposure is removed and weighed. The difference in the mass of the applicator before and after the study judges the amount of saliva excreted by the small salivary glands. The disadvantage of this method is its low accuracy and the inability to assess the activity of secretion of saliva.

L. M. Gaubenstock and soavt. (1988) proposed a method consisting in applying electrophoresis and chromatography paper in the form of a template with a diameter of 4 mm onto a previously dried surface of the mucous membrane of the lips, then staining it with a histochemical dye and counting the number of glands from the print on the paper. In this case, the amount of secretion secreted by the small salivary glands is determined by determining the mass of the paper template before and after soaking it with secret, and the rate of salivation is determined by counting the number of glands and their secretion level from a limited portion of the lip (1 cm ^{2 area} ) with six prints a decreasing time interval of 20, 5, 4, 3, 2, and 1 second from the moment of drying.

 A significant disadvantage of this method is its complexity associated with the need to use histochemical dyes, counting the number of functioning glands and a 6-fold change of the absorbent pad during one study, followed by its weighing. This method is accepted by us as a prototype.

 The objective of the study is to determine the activity of secretion of small salivary glands in dynamics, increase the accuracy of measurements and reduce its complexity.

 This problem is achieved by the fact that in the proposed method, which provides an assessment of the moisture content of an absorbent pad placed on a mucosal area under investigation by measuring the resistance of an electric circuit, the secretion activity of small salivary glands is evaluated by measuring the time during which the electrical resistance of a circuit decreases to a stable value.

The proposed method is as follows. The study is carried out on an empty stomach in the morning or not earlier than 2.5-3 hours after a meal. Before the study, the measuring device is checked and set to zero. Then, a passive electrode (as an anode), previously wrapped with a gauze cloth moistened with saline, is fixed to the palm surface of the patient’s compressed hand. The mucous membrane of the test area is isolated from saliva with cotton rolls and dried. An active electrode, which is an oval-shaped silver plate with an area of 50 mm ² , on the working surface of which is fixed filter paper (GOST TU 6-09-1706-82) of standard sizes, is applied to the dried area of the mucous membrane and time is noted by the stopwatch. As saliva is secreted by the small salivary glands, filter paper fixed on the active electrode is impregnated, as a result of which the electric circuit closes and a drop in resistance occurs. Using a stopwatch, time intervals are fixed during which the drop in the resistance of the electric circuit is stopped. The time of the study is in the range from 0 to 150 s, and the value of the data obtained is recorded in the range from 0 to 100 kOhm. Based on the data obtained, a graph is constructed that reflects the level of resistance drop over time. Since the functional state of the small salivary glands is not the same in various diseases and at different stages of the disease (exacerbation, remission), the rate of soaking of the absorbent pad on the active electrode, and therefore the drop in electrical circuit resistance over time, will be different for different patients.

 The greatest diagnostic value for assessing the activity of secretion of small salivary glands is the analysis of the resistance drop during the first 40 s. In the absence of cheilitis, the most pronounced drop in the resistance of the electric circuit (from 10 to 1 kOhm) occurs in the range from 16 to 50 s.

 Example 1. Child F. 12 years old, went to the dentist with complaints of dryness, hyperemia of the red border of the lips, the presence of crusts. Sick from the age of 7, the disease worsens in the spring-summer and autumn-winter periods. Since 1994, suffers from intestinal dysbiosis, often suffers from acute viral infections.

Objectively: the lips are closed, the outer part of the red border of the lips is hyperemic, covered with small whitish scales, in the region of the corners of the mouth
multiple folds and hard-to-peel crusts of brown and grayish-yellow color, the mucous membrane of the lips and cheeks is covered with a white crusty coating, soldered to the mucosa. Based on objective data, a diagnosis of chronic candidal cheilitis was made. The greatest drop in electrical circuit resistance occurred during the first 10 s, which indicates an increased activity of small salivary glands.

 Example 2. Patient S., 4.5 years old, went to the dentist on May 31, 93 with complaints of itching and peeling of the skin of the lips, the presence of bleeding cracks, dryness and multiple folds on the skin and the red border of the lips. He became ill more than 2 months ago, after a course of antibiotic treatment for a respiratory disease.

 Objectively: the closing of the lips is broken (there is an eversion of the mucous membrane of the lower lip), there is dryness and peeling of the skin of the lips with the presence of scales of grayish-yellow color, in the corners there are deep multiple cracks and folds, pronounced hyperemia on the border of the mucous membrane and the red border, the red border is pale , its border with the skin part is absent. Diagnosis: atopic cheilitis.

 The change in electrical circuit resistance over time in this patient, which shows that the most pronounced drop in resistance occurred during the first 10 s, which indicates a high activity of small salivary glands.

 In the same patient after a course of treatment in a hospital, it can be concluded that the activity of secretion of small glands after treatment has significantly decreased, and the normalization of the function of the glands in time coincided with the normalization of the state of the tissues of the lips.

 The positive effect of the proposed method lies in the fact that it allows you to increase the level of diagnosis of diseases of the mucous membrane of the oral cavity and lips, evaluate the activity of secretion of small salivary glands in dynamics, evaluate the effectiveness of the treatment and objectify the clinical condition of the tissues of the lips at different stages of the disease. The method is less labor intensive and can be used in the practical work of dentists, as well as dermatologists.

Sources of information
1. L.M. Gaubenstock, V.I. Kritsky, A.N. Pitaev. A method for determining the number of functioning small salivary glands of the oral mucosa, A. C. N 1,399678; 1988 (prototype).

 2. VV Panikarovsky, GV Banchenko, AS Grigoryan and others. Aspects of the pathogenesis of the glandular form of aphthous stomatitis // Periodontal disease and oral mucosa. Proceedings of TsNIIS. M. 1985.Vol. 15. S. 117-119.

 3. I. M. Rabinovich, V. E. Zaichik, G. V. Banchenko and others. Study of the microelement composition of small salivary glands in the dynamics of diseases of the oral mucosa // New diagnostic methods and the results of their implementation in dental practice. Proceedings of TsNIIS. M. 1991.S. 93-96.

 4. Yakovleva V.N. A method for quantitative determination of the secret of small salivary glands // Health of Belarus. 1980. N 12. P. 57.

Claims (1)

 A method for determining the activity of secretion of small salivary glands, comprising assessing the moisture content of an absorbent pad placed on a mucosal area under investigation by measuring the resistance of an electrical circuit, characterized in that the secretion activity is evaluated by measuring the time during which the electrical resistance of the circuit decreases to a stable value.