RU2147207C1 - Procedure controlling pulp blood current of tooth - Google Patents

Abstract

FIELD: medicine, stomatology. SUBSTANCE: procedure consists in placement of first electrode on tested tooth, in mounting of second electrode on nearest healthy tooth and in installation of third electrode on chin under tested tooth. Generator of rheograph is connected to first two electrodes and measurement circuit of rheograph is linked to first and third electrodes. Value of resistance of root pulp is then measured, rheogram of pulp of tested tooth is recorded, average value of amplitude of rheogram is found and value of pulp blood current is computed. EFFECT: procedure ensures quantitative control over pulp blood current of tooth. 1 cl, 6 dwg

Description

 The invention relates to methods for medical diagnostics and can be used in dental practice.

 A known method of reodentography according to A.S. N: 1205891 Authors: Loginova N.K. , Chertykovtsev V.N., Tsvetkov A.A., which consists in superimposing the first electrode on the tooth crown, on the chin of the second electrode, passing a high-frequency current between them, registering the rheodogram and diagnosing the state of the root pulp by the magnitude of the rheodogram amplitude.

The disadvantage of this method is the impossibility of quantitative control of the pulse blood flow of the root pulp in milliliters [ml] or cubic centimeters [cm ³ ].

 In the known method, the current of the generator I passes through the pulp resistance of the studied tooth R1 and the periodontal resistance R2 (Fig. 2). The measured voltage U = 1 • (R1 + R2), i.e. in addition to pulp blood flow, periodontal blood flow is recorded. When the first electrode is applied, it is not intact, but on the partially extruded (truncated) section of the pulp, the amplitude of the root canal reententogram can be comparable with the amplitude of the periodontal blood flow. The reduction of this component by increasing the area of the electrode mounted on the chin is very limited.

 In addition, the assessment of the amount of blood flow in the known method is performed according to the peak value of the amplitude of the rheodogram Am, at the time of its maximum value Tm. However, pulp blood flow has a unique feature. During systole, arterial blood is pushed into the absolutely hard canal and venous is squeezed out, i.e. during the pulse period, an inflow equal to the outflow occurs (and with different speeds).

The quantitative determination of the blood flow Vk in areas of a cylindrical shape, for example, in the hand, is made according to the known ratio of A. Kedrov:
Vk = P • (L ² / R ² ) • Am [cm ³ ] (1)
where: P is the specific resistance of the blood [Ohm • cm];
L is the length of the section between the measuring electrodes [cm];
R is the resistance of the measured area [Ohm];
Am is the rheogram amplitude (peak value) [Ohm].

 Calculations of Vk of tooth pulp according to relation (1) with an intact (surface) electrode application is impossible, because the value of interelectrode resistance R consists not only of pulp resistance, but also of enamel resistance, which is much higher (enamel specific resistance is more than 100 times higher than blood resistance).

 The aim of the proposed method is the quantitative control of the blood flow of the pulp of the tooth - in milliliters per pulse beat (or minute volume of blood flow in ml / min).

The goal is achieved:
- installation on an adjacent healthy tooth of an additional third electrode (on the studied tooth of the first electrode and on the chin under the studied tooth of the second electrode);
- connecting the generator circuit of the rheograph to the first and third electrodes, connecting the measuring circuit to the first and second electrodes;
- additional registration of the value of the interelectrode resistance R;
- determination of the average value of the rheogram of As from the registered rheogram of the root pulp of the examined tooth dR (t);
- calculation of the pulse blood flow Vk according to the ratio (3).

 The essence of the proposed method is as follows. High-frequency current I passes through the pulp of the examined tooth R1, through the periodontal tissues R2, between the apical openings of the teeth R3 and then through the pulp of a healthy tooth R4 (Fig. 1). In the current generator mode (I = const), the voltage U is directly proportional to the resistance R.

 Therefore, U = R1 (the current does not pass through R2), i.e., the pulp resistance of the studied tooth and its pulse changes are recorded (only a reoperodontogram of the root canal of the studied tooth).

 The measurement of blood flow in the proposed method is performed by the average value of the amplitude of the reententogram As, which is equal to the area of the reententogram during the influx of T / 2 (or outflow).

 In FIG. 1A presents a diagram of the application of electrodes and their connection for the proposed method. Designations: 1 - the first electrode (on the studied tooth); 2 - the second electrode (on the chin); 3 - the third electrode (on a healthy tooth); G - generator (rheograph); U - meter (rheograph), "i" - generator current.

 In FIG. 1B presents an equivalent biological equivalent circuit for the proposed method. Designations: G - current generator; U is a voltage meter; R1 - pulp resistance of the studied tooth; R2 is the periodontal resistance of the chin area; R3 - periodontal resistance of the region between two apical openings; R4 - pulp resistance of a healthy tooth.

 In FIG. 1C presents an example of an assessment of blood flow by the average value of the amplitude As, for one pulse period of the reodedogram T in accordance with the proposed method.

 In FIG. 2A shows a diagram of the application of electrodes and their connection for a known method. Designations: 1 - the first electrode (on the studied tooth); 2 - the second electrode (on the chin); G - generator (rheograph); U - meter (rheograph).

 In FIG. 2B presents an equivalent circuit of a biological object for a known method. Designations: R1 - tooth pulp resistance; R2 is the periodontal resistance of the chin area.

 In FIG. 2C presents an example of the assessment of blood flow by the peak (maximum) value of the amplitude Am, for one period of the rheodogram in accordance with a known method.

 Work on the proposed method is as follows.

 On the pulp of the test tooth (directly), the first electrode is placed on the chin, a second electrode is placed under the test tooth, the third electrode is mounted intact on the crown of a nearby healthy tooth.

 Then the first and third electrodes are connected to the rheograph generator, and the measuring input of the tetrapolar rheograph is connected to the first and second electrodes. It should be noted that the rheograph should have a range of resistance measurements R = 1 ... 10 kOhm and a range of registration of rheodograms dR = 1 ... 100 Ohm.

 After applying the electrodes and connecting them to the rheograph, the tooth pulp resistance R is measured and the reententogram dR (t) is recorded.

[Ом] (2)
Величина пульсового кровотока Vk определяется по соотношению:
Vk = k • p • (L² / R²) • As [см³] (3)
где k - морфологический коэффициент [в условных единицах], определяемый по формуле зуба (для каждого из 32-х зубов);
p - удельное сопротивление крови [равное 150 Ом • см];
L - длина пульпы исследуемого зуба [в сантиметрах];
R - величина базового сопротивления корневой пульпы [в омах];
As - среднее значение амплитуды реограммы [в омах];
T - длительность периода пульсовой волны [в секундах].For one or more periods of the rheodogram dR (t), the average value of the rheogram As is determined by the known ratio:

[Ohm] (2)
The value of pulse blood flow Vk is determined by the ratio:
Vk = k • p • (L ² / R ² ) • As [cm ³ ] (3)
where k is the morphological coefficient [in arbitrary units], determined by the formula of the tooth (for each of the 32 teeth);
p is the specific resistance of the blood [equal to 150 Ohm • cm];
L is the length of the pulp of the investigated tooth [in centimeters];
R is the value of the basic resistance of the root pulp [in ohms];
As is the average value of the rheogram amplitude [in ohms];
T is the duration of the pulse wave period [in seconds].

Claims (1)

A method of controlling the pulp blood flow of a tooth, which consists in applying electrodes to a tooth and chin, recording a rheogram and estimating blood flow intensity by the magnitude of its amplitude, characterized in that a third electrode is additionally applied to a nearby healthy tooth, a first electrode is placed on the tooth under study, and a chin under the chin the second electrode is installed with the studied tooth, the rheograph measuring circuit is connected to the first and second electrodes, the rheograph generator is connected to the first and third electrodes, then The basic resistance of the root pulp is measured accurately, the rheogram of the pulp of the tooth under study is recorded, the average value of the rheogram amplitude over the period of the pulse wave is additionally determined, and then the controlled value of the pulp blood flow of the tooth is calculated by the formula
VK = k • p • (L ² / R ² ) • AS,
where VK is the pulse blood flow of the tooth pulp;
k is the morphological coefficient;
p is the specific resistance of the blood;
L is the length of the pulp of the studied tooth;
R is the value of the basic resistance of the root pulp;
AS is the average value of the rheogram amplitude.

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