RU2814396C2 - Method of fixing electrode system when recording rheoparodontogram to assess intraosseous hemodynamics of periodontal tissues - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to a method of fixing the electrode system when recording a focusing rheoparodontogram of the FRPG to assess the intraosseous hemodynamics of periodontal tissues limited to the area of the interdental space not more than 4 mm in diameter. When performing the method, two-ball electrodes are used. Electrodes combine an electric field-creating and a measuring part. The end spherical part of the electrode is in contact with the mucous membrane of the interdental space to receive an electrical signal from the pulsating blood flow through the vascular system of the bone tissue when measuring its electrical resistance to assess the state of blood flow in the periodontium. The spherical part of the electrode adjacent to the measuring part of the electrode is made entirely of silicone mass to hold the electrode in contact with the mucous membrane of the interdental space without displacement. Double-ball electrodes are placed in the interdental spaces at the level of the tooth root opposite to each other on the vestibular and oral sides of the upper or lower jaw to create an electric field in the area of periodontal bone structures. Using this field, intraosseous hemodynamics of the interdental space is recorded in such a way that the pulp vessels of adjacent teeth do not enter the study area. The electrodes are tightly fixed in the silicone mass to prevent the appearance of artifacts when recording FRPG in such a way that there is no displacement of the electrode system in the silicone positioner and the electrodes do not change their position on the mucous membrane of the interradicular gum. Using the spherical shape of the end section of the electrodes, tight contact is created between the electrodes and the mucous membrane.

EFFECT: fixation of the electrode system is ensured due to the shape of the two-spherical electrodes, which allows, due to the elasticity of the silicone mass penetrating into the space between the spheres, to securely fix them at the required depth and obtain accurate and stable indicators of rheoparodontography in the area of study.

1 cl, 4 dwg

Description

The invention relates to medicine and can be used in dentistry to assess regional blood flow in periodontal tissues.

There is a known method of fixing electrodes for rheoparodontography with a strip of adhesive plaster to the dentition on the same jaw: (Guseva I.E. Assessment of the dynamics of functional hyperemia in the periodontium: Abstract of thesis...candidate of medical sciences. - M., 1991. - 23 p.). However, this method makes it difficult to fix the electrodes in the lateral parts of the jaws, in addition, the adhesive plaster is not intended for use in the oral cavity.

There is a known method for determining the hemodynamics of periodontal teeth, where a pre-made individual mouthguard made of a transparent plastic mass is also placed on a supergypsum model made in advance using individual impressions from the upper and/or lower jaw. Holes are made according to the size of the electrodes and this structure is installed in the oral cavity on the dentition of the corresponding jaw, while the electrodes are placed in the holes and secured to the mouthguard (RF Patent 2117458 dated 08/20/1998). The disadvantages of this method are the instability of the contact between the dental electrode and periodontal tissues, the bulky and rigid structure, which can cause a painful reaction.

The prototype chosen was a method for assessing the hemodynamics of the dental pulp, which involves the use of two flat electrodes in the oral cavity: from the oral and vestibular sides (RF Patent 2694511 C1 dated June 20, 2018). Features of the method include intraoral fixation of electrodes in the area of projection of the roots of the teeth, as well as in the area of the coronal part of the tooth. The electrode is placed on the crown of the tooth being examined. In this case, one electrode is placed on the palatal or lingual surface of the tooth crown, and the other on the oral mucosa from the vestibular side in the projection of 1/2 the length of the root of the same tooth. The method provides registration of hemodynamic parameters directly from the vessels of the dental pulp, excluding the influence of the vessels of nearby tissues, due to the location of one of the electrodes on the oral mucosa from the vestibular side in the projection of 1/2 the length of the root of the same tooth.

The impossibility of using this method is flat electrodes, which cannot create tight contact in the interdental space due to the configuration of the concave shape of the mucous membrane of the interdental space, where the intraosseous hemodynamics of periodontal tissues are recorded. This leads to a painful reaction due to the sharp edges of the electrodes and, due to the small contact area, the impedance increases and the amplitude of the recorded pulse wave decreases, the rheographic curve is distorted, artifacts appear, and the digital values of the results obtained are correspondingly distorted.

The invention is aimed at improving the quality and efficiency of recording the intraosseous blood flow of periodontal tissues due to the spherical shape of the contact electrodes placed in the interdental space, which provides a larger contact area with the concave shape of the mucous membrane of the interdental space, the transient electrical resistance is reduced, the electrical impedance is correspondingly reduced, and the output level is increased electrical signal from the electrodes and the rheographic curve stabilizes. Such a shape and localization of the electrodes make it possible to create a stable electric field in the area of bone blood flow. At the same time, painless and permanent fixation of the electrode systems in the positioner is ensured. The combination of these factors makes it possible to carry out long-term recording of a rheoparodontogram on a limited area of periodontal tissue, which makes it possible to identify functional hemodynamic disorders in intraosseous structures.

The technical result consists in providing the possibility of obtaining stable recorded indicators of a functional study of periodontal intraosseous blood flow in a specific area of the interdental space due to more reliable fixation of the electrode systems in the positioner. The invention makes it possible to obtain a focusing rheoparodontogram (FRPG) without artifacts and to conduct a study that is not limited in time, and also makes it possible to study the intraosseous blood flow of the periodontium in a certain area.

New techniques explained:

The design features allow the measuring double-ball electrodes to be positioned at the required level of the obtained anatomical impression of the interdental spaces, being tightly and reliably fixed in the prepared hole of the silicone positioner so that the electrodes do not move during registration of the DFPG. The structure manufactured for the first time consists of two balls welded together, each of which has a diameter of 4 mm. The end ball is a contact electrode for the interdental space. The product is made of cobalt-chromium alloy, used in orthopedic dentistry, which ensures the strength of the structure and its chemical safety when used in the patient’s oral cavity. The spherical shape of the end electrode creates the necessary contact with the mucous membrane in the interdental space. The original design of the electrode system makes it possible to fill the space between the soldered balls with silicone mass. Due to the elasticity of the silicone mass, the two-ball electrodes are securely fixed at the required depth, do not cause excessive pressure on the gum mucosa and pain, and increase the accuracy of the results obtained.

The proposed method of fixing a system of double-ball electrode design in comparison with known flat and single spherical electrodes has the following advantages: it is convenient to use, does not require additional laboratory steps, ensures reliable and tight contact of double-ball electrodes when performing focusing rheoparodontography (FRPG), avoids additional load on mucous membrane and painful reaction, and also makes it possible to record FRPG for a long time. The listed advantages of using the developed fixation method are associated with the localization of the electrodes on the periodontal mucosa and their shape. Unlike the prototype, which uses flat-shaped electrodes, the invention uses electrodes of a two-ball design, which are adapted to the relief of the gum mucosa in such a way that they most accurately repeat its relief. The double-ball design of the electrodes allows for stable fixation and retention after curing in the impression material. The developed intraoral method of fixing the electrode simultaneously combines the measuring part and the one creating the electric field in one electrode system. These electrodes are located in the interdental spaces opposite each other from the vestibular and oral sides of the upper or lower jaw at the level of 1/2-1/3 of the roots of the teeth, which makes it possible to create a minimum volume of electric field in the area of periodontal bone structures, which records the intraosseous hemodynamics of the periodontal interdental space . Using the tetrapolar technique in a two-electrode design (FRPG), the state of the intraosseous blood flow of periodontal tissues is assessed, while in the prototype the hemodynamics of the dental pulp was assessed using flat electrodes located on the crown of the tooth in accordance with the true bipolar technique, which is also a distinctive feature of the invention. There are not only differences in the shape of the electrodes and the method of their application, but also in the localization of the areas under study. Thus, the method for assessing pulp hemodynamics, taken as a prototype, involves the location of electrodes vestibularly on the tooth crown and orally in the projection area of 1/2-1/3 of the root length, while in the invention the place of recording intraosseous blood flow is limited to the interdental space. This difference in localization is in direct correlation with the measurement values: the average impedance values for rheodentography are 115,215.37 Ohms (115.2 KOhms) and 848.1 Ohms (0.8 KOhms) for rheoparodontography.

The essence of the invention is that a rheogram of regional periodontal bone blood flow is recorded in patients using a tetrapolar two-electrode technique (DFPG). Double-spherical electrodes are located at the level of 1/2-1/3 of the root length in the interdental space opposite each other, fixed in the silicone mass of the positioner, in which, after curing, holes are created 0.1-0.2 mm smaller than the diameter of the electrodes for stable retention in the impression material.

Schematic representation of the arrangement of two-ball electrodes in relation to each other in a silicone positioner when performing rheoparodontography (Fig. 1).

1. measuring double-ball electrodes;

2. flexible electrode cables for connecting to the ABC-01 analyzer when performing FRPG;

3. mucous membrane of the gums in the interradicular projection;

4. silicone mass;

To hold the electrodes in this position, an impression made of Spidex silicone mass was used with corresponding perforations for two electrodes. With the proposed method of electrode placement, pulsating blood flow indicators are recorded only in the studied area of the interdental space within an area not exceeding 4 mm ² in area. In fig. Figure 2 shows a system for positioning a silicone impression with electrodes in the oral cavity. In fig. Figure 3 shows a photograph of two-spherical electrodes for conducting FRPG.

The method is characterized by the possibility of bringing the spherical part of the electrode before contacting the mucous membrane of the interradicular gum even beyond the silicone mass of the positioner, securely fixed in it by a second ball (design feature), which allows obtaining stable results, increases the accuracy of registration of the rheographic curve and increases the objective assessment of intraosseous periodontal blood flow in the interdental space without loss of rheogram quality.

Graphic registration of rheograms and calculation of hemodynamic parameters were carried out using the ABC-01 Analyzer (Russia) with Diastom software (Russia). At the same time, an ECG was simultaneously recorded in the 2nd standard lead to calculate the amplitude-frequency indicators of regional hemodynamics in accordance with the rhythm of cardiac activity. A diagram of a rheoparodontogram in a patient with clinically healthy periodontium, which was recorded using the FRPG method using two-ball electrodes, is presented in Fig. 4. The rheoparodontogram of a patient with chronic gingivitis is shown in Fig. 5.

After registration of rheograms, their qualitative and quantitative assessment was carried out with automatic calculation of amplitude-time indicators: impedance (IMP), rheographic index (RI), vascular tone index (PVT), peripheral resistance index (PRI) and elasticity index (IE).

Rheograms were recorded in a warm room 1.5-2 hours after a meal or on an empty stomach, in the dental chair after a 15-20-minute rest.

Clinical example 1.

Patient T.O.E., born in 1998; clinically healthy periodontium. Registration was carried out using FRPG in the area of the interdental space of 2.4 and 2.5 teeth. The calculated indicators of the FRPG were: RI=0.36 Ohm; PTS=22.5%; IPS=93.1%; IE=93.5%, presented as an image (Fig. 4). During the examination of the patient, no complaints about the pain of the procedure were identified.

Clinical example 2.

Patient U.N.A., born in 1998; Diagnosis - K 05.1 chronic gingivitis. Registration was carried out using FRPG in the area of the interdental space of 2.4 and 2.5 teeth. The calculated indicators of the FRPG were: RI=0.27 Ohm; PTS=33.46%; IPS=90.50%; IE=97.49%, presented as an image (Fig. 5).

According to the results of a hemodynamic study using the FRPG method in chronic gingivitis, RI decreased in comparison with a patient with clinically healthy periodontium by 25%, IPS by 3.5%, while PTS and IE increased by 10.96% and 3.99%, respectively , which indicates a change in FRPG parameters during the inflammatory reaction in periodontal tissues.

Claims (1)

A method of fixing the electrode system when recording a focusing rheoparodontogram of the FRPG to assess the intraosseous hemodynamics of periodontal tissues limited to the area of the interdental space of no more than 4 mm in diameter, characterized in that they use two-ball electrodes that combine an electric field-creating and measuring part, with an end spherical part of the electrode is in contact with the mucous membrane of the interdental space to receive an electrical signal from the pulsating blood flow through the vascular system of bone tissue when measuring its electrical resistance to assess the state of blood flow in the periodontium, and the spherical part of the electrode adjacent to the measuring part of the electrode is made entirely of silicone mass to hold the electrode without displacement in contact with the mucous membrane of the interdental space, while double-ball-shaped electrodes are placed in the interdental spaces at the level of the tooth root opposite each other from the vestibular and oral sides of the upper or lower jaw to create an electric field in the area of periodontal bone structures, using in which the intraosseous hemodynamics of the interdental space are recorded in such a way that the pulp vessels of adjacent teeth do not fall into the study area, while the electrodes are tightly fixed in the silicone mass to prevent the appearance of artifacts during the registration of FRPG in such a way that there is no displacement of the electrode system in the silicone positioner and the electrodes do not change their position on the mucous membrane of the interradicular gum, while using the spherical shape of the end section of the electrodes, a tight contact is created between the electrodes and the mucous membrane.