RU155186U1 - DEVICE FOR LASER DOPLER FLOWMETRY OF PERIODONTIC FABRIC AND HARD TOOTH FABRIC - Google Patents

Abstract

1. Device for laser Doppler flowmetry of periodontal tissues and hard tissues of teeth, containing an individual mouthguard made of thermoplastic mass, made according to individual models of the jaws of the patient, with through holes in the areas of interest, characterized in that it is equipped with a removable latch for a fiberglass probe with an inner diameter, corresponding to the diameter of the fiberglass probe, kappa with the studied vestibular or oral region has a gap of 2 mm thickness between the inner surface and ssleduemoy surface periodontal or dental hard tissues, and a removable retainer is situated in the through otverstiyah.2. The device according to claim 1, characterized in that the holes are made symmetrically on the affected side and a healthy area of periodontal tissues.

Description

The utility model relates to medicine, namely to dentistry, and can be used in studies using laser Doppler flowmetry (LDF).

A device is known for fixing fiberglass probes of the apparatus during laser Doppler periodontal flowmetry, which is a vestibular plate, which is made integrally with a bite pad located perpendicular to it at a distance 1/3 of its length and made rough, with rounded corners, and the bite pad divides the surface of the plate into 2 parts: smaller - fixing, large - working; on the working surface, 2 or 4 through holes are made for holding the probes, stops are made in the holes for their fixation [patent RU No. 39808, 2004]. From the description it follows that the probes are fixed in through holes made on the working part of the bite pad.

The disadvantages of this fixation device include:

1. The device does not allow to determine hemodynamic parameters in the periodontal area of the lateral groups of teeth, and also distorts the LDF values when recording measurements after surgical procedures, as there is a change in the volume of periodontal tissues (soft tissues).

2. The bite pad influences the performance of LDF due to the additional pressure on the hard tissues of the teeth and periodontal during closure.

3. This device does not have the ability to study the microcirculation of hard tissues of the teeth.

4. The device does not allow to study the hemodynamic parameters of the oral surfaces of the periodontium.

5. The inability to achieve rigid, fixed fixation of the fiberglass probe during the procedure, as for high accuracy the authors propose for fixation the application of a medical adhesive plaster on the surface of the bite pad.

6. In the device, the authors propose using only 2 or 4 holes for recording LDF data, which is not sufficiently informative to assess the microcirculation of hard tissues of teeth and periodontal tissues.

The closest analogue of the utility model is a kappa made of thermoplastic mass and pre-made according to individual models of the jaw of the patient, made from negative casts of the oral cavity, while in the kappa windows are formed according to the size of the working ends of the device in the area determined by the need for exposure to physical energy, followed by fixation of the working end of the device, and in negative impressions the area between the alveolar part of the gum and the inner surface of the lip, reaching the transitional fold, they are completely filled with the impression mass, and the boundaries of the mouthguard are expanded due to the inclusion of areas located on the inner surface of the lip and located at the level of the mouthguards, slots are made on the edges of the mouthguard at the level of the mouthguards to fix the working end of the device in the region of the central group of teeth, and in the region of the lateral group teeth in the mouth tray are formed abduction tubes that are rigidly fixed to the edge of the mouth guard and to the area necessary for exposure to physical energy, and the length of the fixed portion of the tubes is equal to the minimum the melting between the edge of the mouthguard and the area necessary for exposure to physical energy, and in the area of the central teeth the working end of the device is fixed in one of the windows in the area of exposure to physical energy, as well as in the slot made at the level of this window, and in the area of the lateral group of teeth the end is fixed by passing it through the lead tubes [patent RU No. 2488365, 2013].

The disadvantages of this device are:

1. This device distorts the hemodynamic parameters when recording LDF measurements, since it puts pressure on the periodontal tissues surrounding the soft tissues and hard tissues of the teeth when fixing mouthguards in the mouth.

2. The device does not allow to take microcirculation indicators from the oral surfaces of periodontal tissues and hard tissues of teeth.

3. The proposed device does not allow measurements of the lateral portions of the oral cavity in case of a change in the test points during the manipulation, since the lead tubes that fix the fiberglass probe are non-removable.

4. The difficulty of fixing this device in the oral cavity is uncomfortable for patients, since the extended borders of the mouthguard put pressure on the lips, cheeks and hard palate.

5. This device does not allow the study of hemodynamic parameters after surgical manipulation of periodontal tissues, as there is a change in the volume of tissues.

The technical result of the utility model is to expand the technical capabilities of the device by obtaining indicators of regional microcirculation of blood vessels (LDF-grams) additionally from the oral region of periodontal and hard tissues of teeth, increasing the accuracy of measuring indicators by eliminating distortion, simplifying the fixation of the device by eliminating pressure on the tissue tooth and periodontal.

The specified technical result is achieved by the fact that the device for laser Doppler flowmetry of periodontal tissues and hard tissues of teeth, containing an individual mouthguard made of thermoplastic mass, made according to individual models of the jaws of the patient, with through holes in the areas of interest, according to a utility model, is equipped with a removable clamp for a fiberglass probe with an inner diameter corresponding to the diameter of the fiberglass probe, kappa with the studied vestibular or oral region There is a gap of 2 mm thickness between the inner surface and the studied surface of the periodontium or hard tissues of the teeth, and a removable latch is placed in the through holes. In this case, the holes can be made symmetrically on the affected side and a healthy area of periodontal tissues.

The utility model is illustrated by a figure, which shows the fixation pattern of a fiberglass probe during laser Doppler flowmetry of periodontal tissues and hard tissues of teeth using the proposed device.

The proposed device for laser Doppler flowmetry of periodontal tissues and hard tissues of teeth includes: an individual mouthguard 1 made of thermoplastic mass according to the model of the jaw of the patient and having a gap of 2 mm with the studied vestibular or oral region (for the thickness of the base wax) between the inner surface of the individual mouthguard and the examined surface of the periodontium or hard tissues of the teeth, through holes are made in the mouthguard in the regions of interest of the periodontal tissues 3 and hard t cany of 4 teeth during LDF; a separately manufactured removable retainer 5 from a thermoplastic mass with an inner diameter of 4 mm, which corresponds to the diameter of the fiberglass probe 6, and an outer diameter of 7 mm. A removable latch is inserted into the holes on the individual tray (figure).

The proposed device is made as follows.

A cast of the upper, lower, or both jaws of the patient is taken for the study (depending on the task). Super-gypsum models are cast. The investigated surface (vestibular or palatine / lingual) of the area of hard tooth tissues or periodontal tissues, including the transitional fold, is isolated with a base wax to its thickness.

The second step is to make an individual mouthguard from a thermoplastic mass 2 mm thick, taking into account the distance of the thickness of the base wax on the vestibular surface.

Depending on the areas of study of periodontal tissues or hard tooth tissues, openings with a spherical boron with a diameter of 7 mm are formed on the studied surface of the mouthguard. It is advisable to form holes symmetrically on the affected side, and a healthy area of periodontal tissue, for the convenience of conducting a comparative analysis of the performance of LDF-grams.

A removable clamp for the fiberglass probe of the apparatus is inserted into the obtained holes.

An individual mouthguard is placed on the dentition and periodontal tissues of the corresponding jaw of the patient.

The registration of hemodynamic parameters is performed using the LAKK-01 device, the working end of which is a fiberglass probe inserted into a removable latch and laser Doppler flowmetry is manipulated according to the generally accepted technique.

The advantages of the proposed device for laser Doppler flowmetry of periodontal tissues and hard tissues of the teeth are:

1. Individual kappa with a removable latch does not affect the change in hemodynamic parameters due to the exclusion of pressure on the tooth tissue and periodontium.

2. The presence of a removable retainer greatly simplifies the procedure for conducting LDF, allowing you to take microcirculation indicators from any area of periodontal tissue and dental hard tissue that interests us, namely in the periodontal area of the front and side teeth groups simultaneously in the same patient.

3. The device for conducting LDF allows you to measure hemodynamic showed periodontal tissues, both from oral and vestibular surfaces.

4. The proposed device allows you to rigidly fix the fiberglass probe, due to the presence of a removable latch, which makes it possible to obtain undistorted LDF values, and allows dynamic monitoring under comparable conditions.

5. It is possible to sterilize the proposed device, which simplifies its use in the same patient to obtain indicators of microcirculation of periodontal tissues and hard tissues of teeth during treatment, as well as to evaluate the results of treatment.

6. An individual mouthguard with a removable latch is convenient to use, since it can be used without the help of an assistant to study periodontal tissues and hard tissues of teeth before treatment, as well as to evaluate the results of treatment.

An example is the clinical use of the device.

Patient K., 30 years old, I / B No. 2861.

In order to measure the hemodynamics of periodontal tissues in the area of the transition fold in the projection of the tooth root 2.2, an individual mouthguard with a 2 mm gap between the mouthguard wall and the mucous membrane of the study area was made to the patient with the LAKK-01 laser Doppler flowmetry device. Using a removable lock, the fiberglass probe of this device was fixed in the oral cavity. Registration of indicators was carried out according to the generally accepted methodology.

To observe the dynamics of microcirculation, after surgical treatment of periodontal tissues in the area of the tooth 2.2, repeated examinations were performed for this patient with the original mouthguard.

In order to study the hemodynamic parameters of tooth hard tissues 1.5, this patient used this individual mouthguard and, using a removable clamp, the fiberglass probe of this device was fixed in the oral cavity according to the claimed method. Registration of indicators was carried out according to the generally accepted methodology.

This clinical example demonstrates the possibility of repeated use of this device for laser Doppler flowmetry in any area of periodontal tissue and dental hard tissue that interests us.

Thus, the proposed device for fixing a fiberglass probe during laser Doppler flowmetry of periodontal tissues and hard tissues of teeth can greatly simplify the procedure for conducting LDF, to achieve the accuracy of the obtained LDF-gram parameters without complicating the procedure, due to design features. The device is easy to use, since it is possible to perform manipulations without involving an assistant, and without holding the fiberglass probe of the device with your hand. The device due to the possibility of sterilization, can be used repeatedly.

Claims (2)

1. Device for laser Doppler flowmetry of periodontal tissues and hard tissues of teeth, containing an individual mouthguard made of thermoplastic mass, made according to individual models of the jaws of the patient, with through holes in the areas of interest, characterized in that it is equipped with a removable latch for a fiberglass probe with an inner diameter, corresponding to the diameter of the fiberglass probe, kappa with the studied vestibular or oral region has a gap of 2 mm thickness between the inner surface and ssleduemoy surface periodontal or dental hard tissues, and a removable retainer disposed in the through holes. 2. The device according to p. 1, characterized in that the holes are made symmetrically on the affected side and a healthy area of periodontal tissues.

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