RU2744762C1 - Method for fixing the working end of a fiber optic probe for studying the hemodynamics of periodontal tissues - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to dentistry, and is intended for use in the functional diagnosis of the state of the periodontal microcirculatory tissue system. An impression is made in one step, immediately before the study. To do this, cover the alveolar part of the gums with a silicone mass up to the transitional fold, ensuring the thickness of the vestibular wall is 5 mm, remove the impression from the oral cavity and, taking the imprint of the edge of the marginal gum as a reference, form a hole from the inner surface of the impression, simulating a lock with a diameter corresponding to the diameter of the working end of the probe in the projection of the root of the tooth 3.3, then the working end of the probe is inserted under visual control into the lock, without bringing it to the plane of the impression of 2 mm, while at the same time from the outside, a sleeve is formed from the silicone mass on the gasket, controlling the position of the probe, after the mass has solidified, the probe is removed, fixed imprint, position the probe in the lock.

EFFECT: method allows to provide improved access to the studied area of the oral cavity with an increase in its visibility.

1 cl, 4 dwg, 1 ex

Description

The invention relates to medicine, namely to dentistry, and is intended for fixing the working end of the device of the fiber optic probe of the analyzer for laser Doppler flowmetry in the oral cavity on the alveolar mucosa for functional diagnostics of the state of the periodontal microcirculatory tissue system.

Microcirculatory-tissue systems are the first to be involved in the pathological process and reflect minimal shifts in the sanogenetic direction. This determines the practical importance of early diagnosis of these conditions in dentistry.

A known method of fixing the working end of the device when exposed to physical energy on the tissues of the teeth and periodontium, described in the patent RU for invention No. 2488365. The method consists in installing in the oral cavity a mouthguard made of plastic mass according to individual models of the patient's jaws, cast in a dental laboratory, made according to negative impressions of the oral cavity, with the formation of borders and windows in the mouthguard. At the edges of the mouthguard at the level of the windows, slots are made, and in the area of the lateral group of teeth in the mouthguard, abduction tubes are formed from the material of the mouthguard or from previously prepared tubes, the diameter of which allows the working end of the device to be inserted into them. The abduction tubes are rigidly fixed due to the adhesion of the second layer of thermoplastic mass to the edge of the mouthguard and to the area required for exposure to physical energy.

The disadvantages of this method include the need to manufacture a personalized mouthguard for each patient in a dental laboratory, which increases labor intensity due to the presence of intermediate steps performed by both a doctor and a dental technician. The manufacture of a mouthguard from a thermoplastic mass leads to its rigid fixation on the mucous membrane of the alveolar part of the jaw, squeezing the periodontal tissues, and this causes a distortion of the true results of microcirculation parameters.

There is a known method for fixing fiberglass probes of the apparatus for laser Doppler periodontal flowmetry, described in RU patent for utility model No. 39808. It is characterized by the fact that the fiberglass probe is fixed on a vestibular plate made of hard acrylic plastic, on which 2 or 4 through holes are made to hold the probes, stops are made in the holes for their fixation. Based on the description of the method of making the mouthguard and the quality of the material used in this case, we can highlight the same negative aspects of this method as in the previous analogue. In addition, when performing this method of fixing the working ends of the device when exposed to physical energy in the oral cavity, it is impossible to determine the area of the initial measurement of microcirculation parameters or the effect of a physical factor in the oral cavity during subsequent manipulations.

There is also known a method for fixing the working end of a fiberglass probe, described in RU patent for utility model No. 155186. The essence of this method is the production, after the initial admission of the patient, of an individual mouthguard made of thermoplastic mass, made according to individual models of the patient's jaws, with through holes in the areas of interest, and a removable retainer for a fiberglass probe with an inner diameter corresponding to the diameter of the fiberglass probe and placed in the through holes of the mouthguard. At the same time, when installing the mouthguard at the secondary reception, it does not fit snugly to the investigated vestibular or oral region and has a 2 mm gap between the inner surface and the examined surface of the periodontium or hard tissues of the teeth.

However, when analyzing the method of fixing a fiberglass pin for performing laser Doppler flowmetry of periodontal tissues and hard tissues of teeth, the following disadvantages were revealed: two-stage, duration and laboriousness of manufacturing both the aligner itself from the thermoplastic mass and the removable retainer.

The closest analogue to the claimed invention is a method for fixing a light guide when assessing the functional state of the muscle component of the dentoalveolar apparatus [RU patent for invention No. 2616179]. It is characterized by the fact that in the oral cavity on the dentition of the corresponding jaw, a tooth tray, individually made of flexible silicone plates Eva soft-Borrachoide with a thickness of 4 mm, is placed, repeating the shape of the patient's dentition. The mouthguard is fixed for 20 minutes in the oral cavity to restore the activity of the chewing muscles. To perform laser Doppler flowmetry in the projection of the masticatory muscles on the buccal mucosa in the molar region, a probe is installed perpendicular to the oral mucosa surface (COP) without pressure on the mucous membrane. To ensure repeated contact of the distal part of the probe from the buccal mucosa, a partial impression is preliminarily taken from the dentition in the molar region with a silicone-based impression material. Then, a hole is formed in the wall of the impression, perpendicular to the surface under study. The finished impression with a light probe is placed on the dentition, after which the LDF-gram is registered.

The disadvantages of the prototype are the two-stage preparation for the fixation of the probe for recording the LDF-gram, the difficulty of access to the studied areas of the oral cavity because of the lips and cheeks, which interfere with visual control. Abduction of the angle of the mouth when applying a fiberglass probe when performing this method of fixation in the area of painters leads to tension of the facial muscles surrounding the oral slit at the time of registration of the LDF-gram, which significantly affects the characteristics of the vascular bed of the maxillary artery and leads to a distortion of the true picture, affecting the reliability diagnostic results. In addition, conducting a study after 20 minutes of using a silicone mouthguard in the oral cavity does not allow an accurate assessment of the functional state of microcirculation, because the specified time interval is not sufficiently reliable for unloading the musculo-articular complex and restructuring the periodontomuscular reflex.

The objective of the claimed invention is to develop a one-stage method for reliable fixation of the working end of a fiber optic probe installed on the alveolar part of the lower jaw in order to study the parameters of the microvasculature of the periodontal tissues, while providing improved access to the studied area of the oral cavity with an increase in its visibility.

The essence of the invention lies in the fact that in the method of fixing the working end of the fiber optic probe for studying the hemodynamics of periodontal tissues, including making an impression with a lock for fixing the probe, attaching the impression to the alveolar part of the gum, installing the working end of the fiber optical probe in the lock, the impression is made in one step , immediately before the study, for which the alveolar part of the gum is covered with a silicone mass to the transitional fold to ensure the thickness of the vestibular wall is about 5 mm, the impression is taken from the oral cavity and, taking the imprint of the margin of the marginal gum as a reference, a hole is formed from the inner surface of the impression, simulating a lock with a diameter corresponding to the diameter of the working end of the probe in the projection of the root of the tooth 3.3, then the working end of the probe is inserted under visual control into the lock, without bringing it to the impression plane of 2 mm, while simultaneously from the outside, a sleeve is formed from the silicone mass on p When laying, controlling the position of the probe, after the mass has solidified, remove the probe, fix the impression, position the probe in the lock.

The technical result is achieved by the fact that the method of fixing the working end of the fiber optical probe consists in installing in the oral cavity a partial silicone impression, made individually immediately before the examination by the doctor himself, providing the possibility of conducting the study in one stage during the initial admission. The set of technical features of the claimed method of fixation provides rigid fixation of the working end of the fiber optical probe in the lock and the required right angle on the mucous membrane of the gums of the alveolar part, under conditions of physiological rest, achieved by tight closing of the jaws and the absence of tension of mimic and chewing muscles. When fixing the working end of the fiberglass probe in the area of tooth 3.3, the action of factors that can affect the hemodynamic parameters of the periodontium is excluded. In comparison with the closest analogue, the use of the proposed method makes it possible to significantly simplify the research procedure by providing better access and good visibility of the vestibule of the oral cavity in the area of the studied tooth. Carrying out the proposed research method does not require an assistant, it is performed in a short period of time with minimal financial costs for the preparatory stage.

The inventive one-stage method for fixing a fiber optic probe makes it possible to increase the reliability of diagnostics of indicators of myogenic and neurogenic tone of periodontal tissues, reliably and rigidly fixing its working end in an individual hole - a lock on the sleeve under conditions of physiological rest, achieved by fixing the bite, thereby increasing convenience in work diagnostic equipment.

The claimed invention is illustrated using FIG. 1-4, which depict:

in FIG. 1 - installation of a silicone impression with a lock;

in FIG. 2 - fixation of a silicone impression with an installed working end of a fiber optical probe in the lock;

in FIG. 3 - level of the lock with an optical probe;

in FIG. 4 - taking indicators of microcirculation.

The method of fixing the working end of a fiber optic probe for studying the hemodynamics of periodontal tissues is carried out as follows.

In one step, just before the examination, using a silicone mass, a partial impression is performed to fix the occlusion from tooth 3.2 to tooth 3.5. The alveolar part of the gums is covered with a silicone mass up to the transitional fold, ensuring the thickness of the vestibular wall is about 5 mm. An impression is taken from the oral cavity and, taking the imprint of the edge of the marginal gum as a reference point, a hole is formed from the inner surface of the impression, simulating a lock with a diameter corresponding to the diameter of the optical probe in the projection of the tooth root 3.3. diameter. The working end of the fiber optic probe is inserted under visual control into the lock, without bringing it to the plane of the impression of 2 mm, from the outside, we simultaneously make a sleeve on the gasket from the silicone mass, controlling the position of the probe, after the mass has solidified, we remove the probe. We fix the impression, position the probe in the lock, thanks to the sleeve, the probe is in the optimal position for research.

Example.

Patient N., 20 years old, consulted a doctor in order to conduct a study of microcirculation of periodontal tissues using the "LAZMA-D" apparatus. The patient was made a one-stage silicone impression, fixing the bite from tooth 3.2 to tooth 3.5, the alveolar part of the jaw segment was covered with an impression material up to the transitional fold, the thickness of the vestibular wall was 5 mm. After taking the impression from the oral cavity, a lock with a diameter of 4 mm was formed in the projection of the root of tooth 3.3, ensuring that its diameter corresponded to the diameter of the working end of the fiber optical probe; the reference for the lock was the imprint of the edge of the marginal gum from the inner surface of the impression. After installation in the lock of the working end of the probe, the depth was visually monitored, secured with a sleeve, the gap between the fixed probe and the plane of the impression was 2 mm in the investigated area. The silicone impression was placed in the oral cavity, the working end of the fiber optic probe was fixed in the oral cavity in a lock on the sleeve. The registration of indicators was carried out according to the generally accepted methodology.

The study carried out according to the claimed method was reliable, the results corresponded to those of the intact periodontium.

Thus, the described example of the implementation of the proposed method for fixing the working end of the fiber optic probe in a silicone lock on the sleeve for the study of hemodynamics of periodontal tissues made it possible to significantly reduce the labor intensity of the study due to one-stage production of the impression, as well as the doctor was able to independently carry out all the manipulations. Installation of the probe in a silicone lock on the sleeve provided rigid fixation and the required right angle on the mucous membrane of the gum of the alveolar part. The indicators were assessed in conditions of physiological rest by ensuring a tight closure of the jaws and the absence of tension of the mimic and chewing muscles when fixing the working end in the area of tooth 3.3, excluding the effect of factors that can affect the hemodynamic parameters of the periodontium under the experimental conditions. All this made it possible to achieve reliable indicators of microcirculation.

Claims (1)

A method of fixing the working end of a fiber optic probe for studying the hemodynamics of periodontal tissues, including making an impression with a lock for fixing the probe, attaching the impression to the alveolar part of the gum, installing the working end of the fiber optical probe in the lock, characterized in that the impression is made one-stage, immediately before the study, for which the alveolar part of the gum is covered with a silicone mass to the transitional fold, ensuring the thickness of the vestibular wall is 5 mm, the impression is removed from the oral cavity and, taking the imprint of the edge of the marginal gum as a reference, a hole is formed from the inner surface of the impression, simulating a lock with a diameter corresponding to the diameter of the working end of the probe in the projection of the tooth root 3.3, then insert the working end of the probe under visual control into the lock, without bringing it to the impression plane of 2 mm, while simultaneously forming a sleeve on the gasket from the outside of the silicone mass, controlling the position of the probe, after solidification of the mass, the probe is removed, the impression is fixed, the probe is positioned in the lock.

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