EA021914B1 - Method for assessing condition of periodontal tissues - Google Patents

Abstract

The invention relates to medicine, namely to dentistry. The essence of the invention consists in that the condition of periodontal tissues (parodontium) is diagnosed by the change in haematoma formation time. The advantage of the method consists in achieving and improving functional results and efficiency.

Description

The invention relates to medicine, namely to dentistry.

A known method for determining the durability of the capillaries of the gums of periodontal tissues [1, 2], according to which the following methods are used.

A sterile transparent tip of a vacuum system with a diameter of 5-7 mm is applied to the mucous membrane of the alveolar ridge in the area of the roots of the teeth, in which a pressure equal to 40 mm Hg is created. (This corresponds to a vacuum gauge of 720 mmHg). The hematoma formation time is fixed and the vacuum tip is removed. For this, the vacuum system is filled with air by pressing the vacuum reset button [3].

The disadvantages of this method include the presence of errors associated with the lack of accounting for real atmospheric pressure. In determining the vacuum in a vacuum system, until recently, atmospheric pressure was taken as 760 mm Hg. - stable value, that is, conditionally accepted as normal standard atmospheric pressure. The gauge scale in millimeters of mercury is calibrated with values from 0 to 760. In this case, 0 (zero) corresponds to the value of atmospheric pressure, which is always assumed to be 760 mm Hg in the calculation. In this case, the residual pressure corresponds to 40 mm Hg. [3].

It is known that the atmospheric pressure of any region of the country only occasionally coincides with a value of 760 mm Hg. due to meteorological processes occurring in the atmosphere, it also depends on the height of the area above sea level (Minsk - 150 m, Moscow and Kiev - 250 m) and the time of year.

A careful account of this dependence is proposed by Denisov L.A. and Grandfather L.N. a method [4, 5] for determining the state of periodontal tissues (periodontal), according to which a negative pressure of 40 mm Hg is created. with the subsequent formation of a hematoma, create a vacuum from the value of atmospheric pressure, determine their difference, and with the formation of a hematoma for 40 s or less, determine the violation of the state of periodontal tissues.

This method does not take into account the individual characteristics of the vascular system of the patient.

The technical result of the invention is to obtain new qualities in the treatment of affected periodontal tissues (periodontium) in the form of a reduction in treatment time compared to the analogue method.

To do this, use the following methodology. Previously, before the onset of medical exposure, the current value of atmospheric pressure is determined on an external barometer scale. For example, this value is 720 mm RT. Art. To determine the resistance of periodontal capillaries, the pressure must be reduced to the necessary diagnostic and treatment pressure by 40 mm RT. Art. The operator performs a mathematical calculation (720 mmHg - 40 mmHg = 680 mmHg) and sets the pressure value obtained on the scale of the vacuum gauge of the vacuum system (680 mmHg).

Proceed to the next stage - determine the actual durability of periodontal capillaries at the time of the medical intervention. To do this, close the vacuum system by turning the handle of the crane in the area of the vacuum tip and turn on the vacuum source. After receiving a predetermined pressure in the vacuum system (680 mmHg), the required pressure is established with the help of a leak. The doctor brings the tip to the affected area, connects a vacuum to the tip, and gradually changing its value, determines the pressure inside the capillaries, at which the destruction of the walls of the capillaries begins. The value determined as a result of this manipulation is entered as a correction value into the value of the current setting of the vacuum system.

After applying corrected pressure to the gum section, the doctor starts the stopwatch and fixes the time ΐ of hematoma formation [6]. When a hematoma is formed for 4 = 40 s or more, a violation of the resistance of periodontal tissues is determined.

This result is achieved by the fact that in the method for determining the state of periodontal tissues by applying negative pressure to them, determining the rate of hematoma formation, and the state of periodontal tissues is diagnosed by the time of hematoma formation, according to the proposed solution, the current value of atmospheric pressure P _atm and the value of the intracapillary pressure P _cap are measured of the affected area of the periodontium, the value of the negative pressure P of each procedure is formed taking into account the current value of atmospheric pressure, cited by the value of the intracapillary pressure of the affected periodontal section in accordance with the dependence P = P _atm -P _to ap, the hematoma formation time is measured with each procedure, and if the measured time ΐ exceeds 40 s, then the state of the tissues is diagnosed as normal, and if it does not exceed 40 s, they diagnose a violation of the durability of periodontal tissues and prescribe the treatment procedure for this area with negative pressure P of the same magnitude.

Comparative analysis allows us to conclude that the difference of the proposed method is to link the applied negative pressure not only to the current atmospheric pressure P _atm , but also to the intracapillary pressure of a particular patient P _cap measured at that moment in time and on the same site when and where medical impact. This makes it possible to take into account the individual characteristics of each patient and violations of the state of periodontal tissues both during diagnosis and during medical procedures.

Such a technique for determining the periodontal state makes it possible to detect diseases of periodontal tissues even in cases when it is impossible to detect any violations in the known methods

- 1,021,914 periodontal tissues, i.e. the proposed method allows to identify diseases of periodontal tissues at earlier stages. Thus, the claimed solution meets the criterion of Novelty.

Analysis of known methods for determining the state of periodontal tissues allows us to conclude that they lack features similar to the essential distinguishing features of the claimed method, and to recognize it as relevant to the Essential differences criterion.

The method is as follows. By measuring the current value of atmospheric pressure P _atm and intracapillary pressure P _cap of the patient’s periodontal tissues, set the set of obtained values on the scale of the vacuum gauge of the vacuum system. A transparent tip is brought to the gum, pressed tightly against it, turn on the vacuum, starting the stopwatch. As the hematoma is formed, the time of its formation is determined by the stopwatch. If a hematoma forms after 40 s, a violation of the resistance of periodontal tissues is diagnosed. Therapeutic effect of the vacuum is carried out, if necessary, in compliance with the same sequence of operations - with the determination of the current values and atmospheric and intracapillary pressures of a particular patient at the time of the actual medical impact.

Example 1. To determine the state of the periodontological status of patient M (42 years old) and determine the dose of vacuum therapy, a set of objective research methods included a vacuum test for the resistance of gingival capillaries and intracapillary pressure indices.

Two options for performing a vacuum test procedure are acceptable.

Option 1. A negative pressure is obtained by a vacuum apparatus and corrected in a vacuum cuvette with a diameter of Ό = 7 mm, based on the current value of atmospheric pressure (P _atm = 740 mm Hg) and intracapillary pressure (P _cap = 25 mm Hg .). Subtract this indicator (25 mm Hg) from the indicator of the current atmospheric pressure (740 mm Hg). Then they influence the gum in the area of the 3.1 tooth with the pressure value and vacuum (715 mmHg). Several indicators are taken into account: intracapillary and atmospheric pressure and negative pressure in the cell.

The time of 1 procedure in vacuum therapy (1 in the range from 2 to 40 s) corresponds to the time of hematoma formation. The procedures are stopped, bringing the resistance of the capillaries to 40 s. With this exposure, the hematoma resorption rate was two days. It took three sessions with a total duration of 6 days.

Option 2. The same patient in a vacuum cell with a diameter of Ό = 7 mm received a negative pressure of 25 mm RT. Art. taking into account the current atmospheric value (P _atm = 740 mm Hg), but without taking into account intracapillary pressure. Instead, they used the traditional diagnostic and treatment pressure (P _trad = 40 mm Hg). Then they acted (P = P _atm - P _Tr ^) on the gum in the area of the 4.1 tooth, conducting the procedure of vacuum therapy traditionally. The procedures were stopped, bringing the resistance of the gingival capillaries to a value of ΐ more than 40 s. With an exposure of ΐ more than 50 s, the hematoma resorption rate was three days. It took six sessions with a total duration of 18 days.

Output.

In the same patient, the vacuum test parameters are different due to errors in the methodology for its implementation according to option 2. The lack of data on intracapillary pressure entails an error in the choice of the dose of the procedure.

In the first case - conducting a vacuum test and a vacuum therapy procedure, adjusted for the value of the intracapillary pressure, obtaining reliable data on the resistance of the capillaries of the treated area, made it possible to correctly diagnose and prescribe the correct dose of the vacuum therapy procedure, as well as to make a conclusion about the recovery of the affected area, based on the change in the rate of decrease in the resistance of capillaries and data on intracapillary pressure.

The proposed method allows to increase the accuracy of individual diagnosis and dosing of therapeutic effects, which makes it possible to detect diseases of periodontal tissues at earlier stages, when the course of treatment is short and most effective.

List of documents cited in the search report

1. Kulazhenko V.I. Periodontal disease and its treatment using vacuum. Odessa. 1960, pp. 41-43, 81.

2. Kulazhenko V.I. Vacuum and electrovacuum diagnosis of periodontal disease. In kN. Proceedings of the VIII extended plenum.

3. Vacuum periodontal disease treatment device (according to V. Kulazhenko) ALP - C2, ALP - M 00.000 PS Passport, p. 7, 8, 18, 19.

4. Auto USSR No. 1572502.

5. Patent of the Republic of Belarus No. 1443.

6. The method for determining the vacuum sample. Denisov L.A., Denisova Yu.L. -M., 1999.

Claims (1)

CLAIM A method for determining the state of periodontal tissues by applying negative pressure to them, determining the rate of hematoma formation, and diagnosing the state of periodontal tissues by the time of hematoma formation, characterized in that the current value of atmospheric pressure P _atm and the amount of intracapillary pressure P _{cap of the} affected area are measured periodontium, the value of negative pressure P of each procedure is formed taking into account the current value of atmospheric pressure, adjusted by the value of intracapillary the pressure of the affected periodontal area in accordance with the dependence, P = P _atm -P _cap , hematoma formation time is measured during each procedure and, if the measured time 1 exceeds 40 s, the state of the tissues is diagnosed as normal, and if it does not exceed 40 s, they are diagnosed violation of the resistance of periodontal tissues and prescribe procedures for the therapeutic effect on this area with negative pressure P of the same magnitude.