RU2117458C1 - Method of determining hemodynamics of dental paradont - Google Patents

Abstract

FIELD: stomatology. SUBSTANCE: before electrodes are placed in mouth cavity, models of desired jaw are manufactured, e.g. from supergypsum, and also kappa is manufactured from transparent paste, the two items being manufactured individually. Kappa is then placed onto the supergypsum model and perforated where it is necessary, after which kappa is put onto dentition and electrodes are disposed in perforations and fastened to kappa. From recorded signals one can judge about functional state of parodont. EFFECT: increased reliability of examination. 3 cl

Description

 The invention relates to the field of electrophysiological studies in medicine, in particular rheography, used in dentistry to assess the hemodynamics of periodontal teeth.

Known methods for studying periodontal hemodynamics, in which rheographic electrodes are mounted in the oral cavity on the mucous membrane of the alveolar processes in the projection of the roots of the teeth using plastic impression masses [1]. However, such an electrode fastening during reoperodontographic studies has a number of significant drawbacks that affect the results of practical studies:
- impression masses are rigid and dense in structure and with their help electrodes can squeeze (squeeze) the blood vessels of the mucous membrane of the alveolar process, which affects the overall picture of the hemodynamics of the periodontium of the tooth under study,
- impression masses are opaque, therefore, it becomes impossible to verify the correctness of attachment of the electrodes or their shift,
- impression masses have different wall thicknesses from the vestibular and oral surfaces and it is also impossible to control the degree of adhesion of the electrodes to the mucous membrane,
- it seems difficult to carry out functionally dosed loads on the tooth with the help of a gnatodynamometer, because the cutting edge or the occlusal surface of the teeth is closed by an opaque impression mass,
- it is impossible to observe the identity of the application of electrodes in subsequent studies of the same patient.

 Achievable technical result consists in increasing the reliability of the research results in the functional diagnosis of periodontal disease by eliminating the displacement of the electrodes during reoperiodontography and the identity of the application of electrodes in subsequent rheographic studies.

 This is achieved by the fact that pre-made individual mouthguards made of transparent plastic mass are placed on a pre-made individual mold from the upper and / or lower jaw, made of a transparent plastic mass, and holes are made in the mouthguard in the area determined by the need for periodographic studies of periodontal the size of the electrodes and install it in the oral cavity on the dentition of the corresponding jaw, while the electrodes are placed in the holes and fixed on the mouthguard, and then on the recorded signal Alam are judged on the functional condition of the periodontium, as well as by the fact that the electrodes are fixed to the mouthguard using plastic impression masses, and also by the fact that the electrodes are fixed to the mouthguard using an adhesive plaster.

 Implemented the above method for determining the hemodynamics of periodontal teeth can be, for example, as follows.

 On models of super gypsum cast according to individual casts from the upper and lower jaws of the patient, the boundaries of the mouthguard are marked with a pencil. The boundaries of the mouthguard on the upper jaw: transitional fold along the entire vestibular surface, distally around the maxillary tubercles and on the palatine surface along the line "A". The boundary of the mouthguard on the vestibular surface, distally is the middle of the retro-molar tubercle, on the lingual surface is the place of attachment of the muscles of the bottom of the oral cavity.

The prepared model of super gypsum is placed in the Biostar apparatus of Scheu-Dental (Germany), where a round billet (diameter - 12.5 cm, thickness - 2 mm) of colorless plastic mass ("Bioplast") is also placed. The blank from "Bioplast" is heated for 60 seconds at a temperature of 220 ^o and under pressure of 4 atmospheres is packaged on a model of the jaw.

 After the packaging process is over, the surplus of the Bioplast is trimmed with scissors along the border previously drawn on the gypsum model.

 Holes are cut out on a soft mouthguard covering the gypsum model of the jaw in the area of planned reoperodontographic studies around the perimeter of the electrodes with a heated spatula.

 Kappa is installed in the patient's oral cavity on the dentition of the corresponding jaw. Electrodes are installed in the holes, strengthened with a band-aid on top, and a study is made of the hemodynamics of periodontal teeth. Synchronous recording is possible with reoperodontographic studies. To carry out functionally dosed loads with 2, 3, 4 teeth with a gnatodynamometer, holes are also cut out on the cutting edge or occlusal surface of the corresponding teeth in a soft mouthguard.

Claims (3)

 1. A 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 are used to judge the functional state of the periodontium, characterized in that the models made of super gypsum are also placed on pre-fabricated individual impressions from the upper and / or lower jaw 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, holes are made in size py electrodes and place it in the mouth for a tooth number corresponding jaw, wherein the electrodes are placed in the holes and secured on Kappa.  2. The method according to p. 1, characterized in that the electrodes are fixed to the mouthguard using plastic impression masses.  3. The method according to p. 1, characterized in that the electrodes are fixed to the mouthguard using adhesive tape.