RU2659130C1 - Device for evaluating intraosseous blood flow in periodontal tissues - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine and can be used in dentistry for evaluation of regional blood flow in periodontal tissues. Device for evaluating intraosseous blood flow in periodontal tissues comprises an individual tray-positioner, two measuring rollerball electrodes and an apparatus for reoparodontography. Said electrodes are made of cobalt alloy, located opposite each other from the opposite sides of the alveolar bone in the projection of the inter-alveolar septum with the possibility of adjusting movement in an individual dental tray-positioner fixed on the teeth. Individual dental tray-positioner is made by the method of vacuum thermopressing with a thickness of 4 mm and consists of two combined layers of transparent polymer, an inner soft polymer and outer hard polymer. In the area of the study, there is a gap of 2 mm between soft gingival tissues and the inner surface of the tray-positioner to avoid pressure on the mucosa of the area to be measured. Electrodes fit tightly to the gingiva and are connected by a method of soldering to a common flexible cable, to which the current leads of the tetrapolar system are also soldered to the rear of said cables of the measuring electrodes.

EFFECT: invention allows create a full electric field in the area of the interstitial bone septum of the lower and upper jaws with the possibility of monitoring and evaluation of the effectiveness of treatment of periodontitis.

1 cl, 1 dwg

Description

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

Rheoparodontography is a non-invasive method for studying periodontal blood supply, which is based on the principle of recording changes in the electrical resistance of tissues due to changing blood supply.

With standard RPG, gingival electrodes are superimposed on the gum in the study area and pressed with the lip. At the slightest movement of the patient, the electrodes are displaced despite the fixation of his head on the headrest of the dental chair. In this case, the reoperodontogram recording is violated.

A known method of fixing the electrodes of a strip of adhesive tape to the dentition on the same jaw (Guseva I.E. Assessment of the dynamics of functional hyperemia in the periodontium. Abstract of dissertation for the degree of 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.

The prior art method for determining the hemodynamics of periodontal teeth, which consists in the fact that the electrodes are fixed in the oral cavity and the recorded signals judge the functional state of the periodontium, characterized in that a model of super gypsum is made using individual casts from the upper and / or lower jaw also place a pre-made individual mouthguard made of transparent plastic mass, while in the mouthguard in the area determined by the need for rheographic studies of the periodontium, olnyayut hole size electrodes, and set it in the mouth for a tooth number corresponding jaw, wherein the electrodes are placed in the holes and secured on Kappa (RF Patent 2117458 of 20.08.1998).

Known means for fixing the gingival electrodes during reoparodontography, which is a silicone impression dental mass with perforations (RF patent 2290862 from 01/10/2007).

A known electrode system for determining regional hemodynamics of the deep vessels of the alveolar ridge of the jaw, consisting of six electrodes located along a tangent line to the inner surface of an individual silicone cast of the investigated jaw in six openings formed at a distance of 8 mm from each other, three of which are located on the vestibular surface , and the other three are opposite on the opposite (oral) surface of the impression, and the measuring electrode is located in the center between two I current electrodes each cast surface, which makes it possible to increase the sensitivity and accuracy of the results (of the Russian Federation 2546402 from 10.04.2015 Patent).

This invention is selected as a prototype.

The disadvantages of the prototype include the low accuracy of hemodynamic measurements precisely in the interdental alveolar bone, which is associated with the redistribution of the electric potential horizontally between the three electrodes on each side of the jaw along the mucous membrane of the alveolar bone. Also, the difficulty of positioning and involvement in the study of a large area of the jaw, given the significant number of electrodes.

The problem to which the invention is directed, is to improve the quality and effectiveness of the functional diagnosis of disorders of the intraosseous hemodynamics of the deep vessels of the interdental bone septum.

The technical result consists in creating a full-fledged electric field in the area of the studied section of the interroot bone septum of the lower and upper jaws with the ability to monitor and evaluate the effectiveness of treatment of periodontitis.

The technical result is achieved due to the fact that the device for assessing intraosseous blood flow in periodontal tissues is represented by two spherical measuring electrodes made of cobalt alloy, located opposite each other on opposite sides of the alveolar bone in the projection of the interdental bone septum, which are able to control movement in an individual dental tooth-fixed kappa positioner made by 4 mm thick vacuum thermal pressing method consisting of two combined layers of a transparent polymer, internal soft and external hard, and in the area of the study there is a gap between the soft tissues of the gum and the inner surface of the mouthguard positioner of 2 mm in order to avoid pressure on the mucous membrane of the measured area, while the electrodes are tightly attached to the gum and connected by the method soldering to a common flexible cable, into which current wires of a tetrapolar system are also connected by soldering back to the indicated wires of the measuring electrodes.

When using the tetrapolar technique, the study area is limited by measuring electrodes, and the voltage that arises in them is created using another pair of electrodes located outward with respect to the first pair (current). This allows a high degree of accuracy to measure the impedance of periodontal tissues. In addition, fairly accurately obtained information about the basic impedance allows you to quantify the main hemodynamic parameters of stroke and minute volumes of blood circulation.

The structural features of the mouthguard positioner allow the measuring spherical electrodes to be fixed at the required level and distance from the object of study, while the mouthguard positioner is fixed on the teeth and does not exert pressure on the mucous membrane of the measured area, which contributes to the accuracy of the study. Also, this kappa positioner, unlike the silicone material used in the prototype, does not shrink and is sterilized, which allows it to be used an infinite number of times to monitor the treatment.

The proposed system of spherical electrodes in comparison with the known flat electrodes has the following advantages: ease of use when applying to the mucous membrane of the gums, avoids the trauma of soft tissues, repeating the shape of the alveolar bone of the jaw, and provides reliable and tight contact. And most importantly - allows you to get reoperodontogram without artifacts.

The scheme of operation of the device for assessing intraosseous blood flow in periodontal tissues is presented in FIG. 1 where

1 - measuring electrodes of spherical shape;

2 - flexible cables of the apparatus for reoperodontography;

3 - current wires;

4 - individual kappa positioner;

5 - the jaw of the patient;

6 - apparatus for reoperodontography.

The proposed device is used as follows: an alginate impression is taken from the studied section of the patient’s jaw (5) to make an individual mouthguard positioner (4). According to this print, a gypsum model of the jaw is made, on which a wax base plate of 2 mm thickness compresses the teeth and alveoli in the area of the study. On the gypsum model, the marker indicates the attachment points of the measuring electrodes (1) in the projection of the interdental bone septum. Then the model is crimped in a vacuum press, first with a soft polymer plate 2 mm thick, then with a rigid transparent polymer plate of the same diameter, the excess material is cut off with a scalpel. Further, in the projection of the points previously marked on the model, in the interdental bone septum of the test area from two opposite sides of the patient’s jaw (5) in the individual mouth guard (4), holes are made in the rigid part of the mouth guard positioner (4) with a diameter corresponding to the mouth guard positioner (4). the diameter of the measuring electrode (1), and in the soft part of the cap (4) 0.5 mm less than the diameter of the measuring electrode (1) for its mechanical fixation. The measuring electrodes are fixed in a flexible cable (2), into which are also connected by soldering backwards from the indicated wires of the measuring electrodes (2) current wires (3) of the tetrapolar system. The flexible cable (2) is connected to the apparatus for reoperiodontography (6).

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

Claims (1)

A device for assessing intraosseous blood flow in periodontal tissues is represented by two spherical measuring electrodes made of cobalt alloy, located opposite each other on opposite sides of the alveolar bone in the projection of the interdental bone septum, which are able to control movement in an individual dental mouth guard fixed on the teeth, made by vacuum thermal pressing with a thickness of 4 mm, consisting of two combined layers of a transparent polymer, internally about soft and external hard, and in the area of the study there is a gap between the soft tissues of the gums and the inner surface of the mouthguard positioner of 2 mm in order to avoid pressure on the mucous membrane of the measured area, while the electrodes fit tightly to the gum and are soldered to a common flexible cable in which the current wires of the tetrapolar system are also connected by soldering backwards from the indicated wires of the measuring electrodes.

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