RU2488365C1 - Method of fixation of device working end in conditions of impact by physical energy on dental tissues and parodentium - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to field of medicine, namely to dentistry, and is intended for application in durative fixation of device working end in oral cavity. Mouthguard, made from thermoplastic mass, preliminarily made by individual models of patient's jaws, with formation in it of borders and windows, is installed in oral cavity. In negative moulds area between alveolar part of gum and internal surface of lip, which reaches frond folder, is totally filled with mould mass. Borders of mouthguard are extended. In the area of central teeth device working end is fixed in window in the area of impact by means of physical energy and in slot, made at the level of said window. In the area of side group of teeth working end is fixed by passing it through diversion tubes, which are rigidly fixed to mouthguard edge and to the area necessary for impact by physical energy, the length of fixed part of tubes being equal to minimal distance between mouthguard edge and the area necessary for impact by physical energy.

EFFECT: method makes it possible to increase reliability of fixation of working end of device installed in mouthguard and increase convenience in device operation due to rigidity of device work end fixation in window and in mouthguard slot, made at the level of said window.

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Description

The invention relates to medicine, in particular dentistry, and can be used for long-term fixation of the working end of a laser or other emitter, for the purpose of both irradiating a specific area of the oral cavity and taking parameters, for example, taking microcirculation parameters using laser Doppler flowmetry.

A device is known for fixing fiberglass probes of the apparatus during laser Doppler periodontal flowmetry, protected by a utility model patent [RU No. 39808, 2004]. The device is a vestibular plate made of hard acrylic plastic. The plate is made integrally with a bite pad located perpendicular to it at a distance of 1/3 of the length from one of its ends and is made rough, with rounded corners. The bite pad divides the surface of the plate into 2 parts: the smaller one is the fixing one, the larger one is the working one. On the working part of the bite pad, 2 or 4 through holes for holding the probes are made, stops are made in the holes for their fixation. Based on the description of the device, it is obvious that the probes are fixed in through holes made on the working part of the bite pad.

The disadvantages of this method of fixing the working ends of the device when exposed to physical energy in the oral cavity include the inability to determine the area of the initial measurement of microcirculation parameters or exposure to a physical factor in the oral cavity during subsequent manipulations.

Known methods for fixing the electrodes in studies of the periododynamics, 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 [Loginova N.K. Functional diagnostics in dentistry. - M .: Partner, 1994, s.31-57]. However, this fastening has significant drawbacks that affect the results of practical research, namely: 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 periodontal hemodynamics of the studied a tooth. Impression masses are not transparent and the installed electrode is not visible and can take the wrong position on the mucous membrane.

According to the closest technical essence, as a prototype, we have chosen a method for fixing electrodes in the oral cavity when determining the hemodynamics of periodontal teeth. [RF Patent No. 2117458, 1998]. The method consists in placing a mouthguard prefabricated according to individual casts from the upper and / or lower jaw of a model from super gypsum in the oral cavity on the dentition of the corresponding jaw. 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 of the lower jaw: distally - the middle of the retromolar tubercle, on the lingual surface - the place of attachment of the muscles of the bottom of the oral cavity. Kappa is made of a transparent plastic mass. In the mouthguard in the area determined by the need for periodographic studies of the periodontium, holes are made according to the size of the electrodes and the electrodes are placed in the holes made, after which the electrodes are fixed on the mouthguard using plastic impression masses or with adhesive plaster.

The disadvantage of the method chosen by us as a prototype is the fixation of the working ends of the device using plastic impression masses or with adhesive plaster.

The fixation of the working ends of the device with an adhesive plaster is not reliable enough, since it is impossible to achieve a rigid fixation that provides the necessary right angle between the mucous membrane and the sensor, especially when the patient moves his lip during the study, for example, during prolonged recording or with nervous diseases accompanied by involuntary muscle contractions.

The disadvantages of fixing the working ends of the device, both with plastic impression masses and with an adhesive plaster, include the inconvenience of the need to quickly change the position of the sensor electrodes in the mouthguard, since this requires either removing the mouthguard or changing the wires in the mouth unapproved kappa, which is possible only when fixing the working ends of the device with an adhesive plaster, which can cause excessive pressure on the mucous membrane of the oral cavity, which, in turn, can affect the change in blood flow in it.

The disadvantages of the prototype are also the difficulty of access to the studied areas of the oral cavity due to the lips and cheeks, behind which there are lateral teeth that interfere with visual control and can displace the sensor.

The technical result achieved by the invention is to increase the reliability of fixation of the working end of the device installed in the tray, increasing the convenience of the device when it is necessary to quickly change the position of the working end of the device in the tray, as well as improving access to the studied areas of the oral cavity and improving their visibility.

The technical result is achieved by the fact that the method of fixing the working end of the device when exposed to physical energy on the tissues of the teeth and periodontium consists in installing a mouthguard made of thermoplastic mass and pre-made according to individual models of the patient's jaws, made from negative casts of the oral cavity, with the formation of a drop of borders and windows. In negative casts, the area between the alveolar part of the gum and the inner surface of the lip, reaching the transitional fold, is completely filled with the impression mass. The boundaries of the mouthguard are expanded by the inclusion of areas located on the inner surface of the lip and located at the level of the mouthguards. On the edges of the mouthguard at the level of the windows, slots are made 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 of teeth, drop tubes are formed in the drop, which are rigidly fixed to the edge of the stool and to the area necessary for exposure to physical energy, and the length the fixed part of the tubes is equal to the minimum distance between the edge of the mouthguard and the area necessary for exposure to physical energy, and in the region of the central teeth the working end of the device is fixed in one of the windows in the region 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 working end is fixed by passing it through the lead tubes.

The method of fixing the working end of the device when exposed to physical energy in the oral cavity is implemented, for example, as follows.

Impressions are taken with the introduction of an additional volume of the impression mass at the time of the transitional fold, without the use of functional tests, which are usually used by a doctor to reduce the amount of impression mass remaining in the region of the transitional fold. An impression is obtained with the displayed vestibule space, including the inner surface of the lip, due to which the space from the alveolar bone is transferred to the impression and then, when casting the model and forming the mouthguard with the drop on, the mucous membrane of the alveolar bone is located at a distance from the inner surface of the lip, supported by kappa walls.

With a deep vestibule of the oral cavity of more than 3 cm, perpendicular tubes are inserted in the area of the transitional fold at the moment of filling the cast with gypsum to obtain a gypsum model with holes in the area of the transitional fold, for better air passage during the suction of the plastic mass when forming its molds in a vacuum moulder. Otherwise, due to the thick layer of the obtained gypsum masses, the air in the moulder does not pass well and the vacuum ensuring the formation of the mouthguard cannot exert sufficient pressure on the plastic material, and the mouthguard itself will not repeat all the contours of the gypsum model.

On models of super gypsum cast according to individual impressions 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: below the transitional fold along the entire inner surface of the lip to the height of the windows, distally around the maxillary tubercles and on the palatine surface to the edge of the entire hard palate. The boundaries of the mouthguard on the lower jaw: above the transitional fold along the entire inner surface of the lip, to the windows,

distally ends with the distal surface of the last tooth or in the retro-molar region, on the lingual surface - the mucous membrane in the area of attachment of the muscles of the bottom of the oral cavity.

The prepared model of super gypsum is placed in the apparatus by a vacuum moulder P7 Plastvac P7 Brazil plasticizer, where a sheet of thermoplastic plastic (thickness - 3 mm) of a colorless plastic mass (for example, “Bioplast”) is also placed. The billet is heated for 60 seconds, at a temperature of 220 ° C and under a pressure of 4 atmospheres, packaged on a jaw model.

After the packaging process is over, excess plastic is cut with scissors along the boundary previously outlined on the gypsum model.

Slots are made along the edges of the mouthguard at the level of the windows, and in the region of the lateral group of teeth in the mouthguard, abduction tubes are formed from the mouthguard material or from previously prepared tubules, the diameter of which allows the working end of the device to be inserted into them.

Lead tubes are rigidly fixed due to the adhesion of the second layer of thermoplastic mass to the edge of the mouthpiece and to the area necessary for exposure to physical energy. The length of the fixed part of the tubes is equal to the minimum distance between the edge of the mouthguard and the area necessary for exposure to physical energy. In this case, additional force is not produced to bring the edge of the mouthguard closer to the mucous membrane, but leave the distance obtained by introducing an additional portion of the impression mass.

We present Figure 1, which schematically shows a device for fixing the working end of the device installed in the mouthguard when exposed to physical energy in the oral cavity, where:

1 - kappa windows;

2 - the edges of the mouthguard;

3 - cuts along the edges of the mouthguard;

4 - ducts of assignment;

We also present Figure 2, where:

5 - teeth;

6 - gums;

7- lips;

8 - cheeks;

9 - alveolar bone;

10 - a lateral group of teeth;

11 - the inner surface of the lip;

12 - transitional fold;

13 - the device;

14 - the working end of the device.

Kappa is placed on the dentition and gum tissue (6) of the corresponding jaw of the patient. In the area of the central teeth, the working end (14) of the device (13) is fixed in one of the windows (1) of the mouthguard in the area of exposure to physical energy, as well as in the slot (3) made at the level of this window. In the case when it is necessary to apply physical energy at several points, the working end of the device is sequentially fixed in the windows (1) of the tray and in the slots (3). made along the edges of the tray (2). In the region of the lateral tooth group (10), the working end (14) of the device (13) is carried out along one of the lead tubes (4), while the lead tubes (4) move and hold the soft tissues of the lips (7) and cheeks (8). In the central part of the dentition, fixing on the teeth (5), the edges of the mouthguard (2), located above the transition fold (12) and reaching the level of the windows (1), move the inner surface of the lip (11) from the alveolar process (9).

As a device that acts with physical energy on the tissues of the teeth and periodontium, use the LAKK-01 device, the working end of which is fixed - a light guide. In order to irradiate a certain area of the oral mucosa or to take parameters, it is also possible to use other radiation, for example, laser radiation, electromagnetic, ultrasound. The invention can also be used to fix the sensor electrodes in the study of periodontal hemodynamics.

Distinctive essential features of the invention and a causal relationship between distinctive essential features and the achieved result

- In negative impressions, the area between the alveolar part of the gum and the inner surface of the lip, reaching the transitional fold, is completely filled with the impression mass.

Due to the implementation of the impression by the proposed method, that is, by completely filling the impression mass of the area between the alveolar part of the gum and the inner surface of the lip, reaching the transitional fold, an impression is obtained with the displayed vestibule space, including the inner surface of the lip, due to which the space from the alveolar process is transferred to the impression and then, when casting the model, the alveolar part of the gum and the inner surface of the lip are at a greater distance from each other. Due to this distance transferred to the mouthguard between the movable (lips, cheeks) and motionless (alveolar bone, marginal gum) soft tissues, and due to the stiffness of the mouthguard edge, it pushes the soft tissues away, which contributes to:

- a more uniform load distribution when attaching the working end of the device, which increases the reliability of their fixation;

- elimination of interference, for example, during prolonged recording or in case of nervous diseases accompanied by involuntary muscle contractions;

- simplifying access to the studied areas of the oral cavity and improving their visual control.

- The boundaries of the mouthguard are expanded by the inclusion of areas located on the inner surface of the lip and located at the level of the mouthguards.

The expansion of the mouthguard due to the inclusion of areas located on the inner surface of the lip and located at the level of the mouthguard, allows you to move a larger volume of soft tissue from the teeth and alveolar bone.

- On the edges of the mouthguards at the level of the windows, cuts are made to fix the working end of the device in the region of the central group of teeth.

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 a slot made at the level of this window. Additional fixation of the working end of the device in the slots, in contrast to the prototype, increases the reliability of its fixation in the tray, and also increases the convenience of the device when you need to quickly change the position of the working end of the device in the tray, because the device, unlike the prototype, is ready for fixation at any time.

- In the area of the lateral group of teeth in the mouthguard, abduction tubes are formed that are rigidly fixed to the edge of the mouthguard 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 distance between the mouthguard edge and the area necessary for exposure to physical energy.

The working end of the device in the area of the lateral group of teeth is passed through one of the abduction tubes.

Rigid fixation of the ducts leading to the edge of the mouthpiece and to the area necessary for exposure to physical energy provides additional fixation of the inserted working end of the device, and also prevents the impact of soft tissues on the fixation of the device in the mouthguard by moving and holding soft tissues of the lips and cheeks from the lateral group of teeth . Lead tubes, along one of which the working end of the device is carried out in the area of the lateral group of teeth, holding the tissue at the level of its passage due to its stiffness, provides visual access and does not allow the device to be displaced during spontaneous or accidental movement of the lips or cheeks by the patient.

- The length of the fixed part of the abduction tubes is equal to the minimum distance between the edge of the mouthguard and the area necessary for exposure to physical energy.

Only in this position is a right angle between the mucous membrane exposed to physical energy and the end of the optical fiber ensured, and when observing the shortest distance, greater rigidity and resistance to load are ensured.

The set of distinctive essential features is new and allows to increase the reliability of fixation of the working end of the device installed in the mouthguard and the convenience of the device when it is necessary to quickly change the position of the working end of the device in the mouthguard, as well as improve access to the examined areas of the oral cavity and their visibility.

An example of clinical use of the method:

Example 1. And / b No. 2341, patient A., 40 years old.

When examining the blood flow of the oral mucosa, the working end of the fiber of the device for laser Doppler flowmetry LACC 01 was fixed in the oral cavity by the present method. The working end of the device was fixed in the mouthguard located in a given area of the study - a free gum between 31 and 32 teeth. Additionally, the working end of the fiber was fixed in a slot located at the level of the window along the edge of the tray.

In order to determine the microcirculation of blood in the area of the free gum 46 of the tooth, the light guide was placed in the lead tube holding the cheek in the same position of the corresponding area. This clinical example illustrates the ability to quickly change the position of the working end of the device in the tray.

Thus, the inventive method of fixing the working end of the device when exposed to physical energy in the oral cavity allows to increase, compared with the prototype method, the reliability of fixing installed in the mouth of the working end of the device and the convenience of the device used in the method, if necessary, quickly change the position of the working end the device in the tray, as the device does not have temporary disposable mounts, and is ready to be fixed at any time, and also to improve access to the examined areas of the oral cavity and their visibility.

Claims (1)

The method of fixing the working end of the device when physical energy is applied to the tissues of the teeth and periodontium, which consists in installing mouthguards made of plastic mass and pre-made according to individual models of the patient's jaws using negative casts of the oral cavity with the formation of borders and windows in the mouthguard moreover, the windows form according to the size of the working ends of the device in the area determined by the need for exposure to physical energy, with subsequent fixation of the working end of the device, characterized in that o in negative impressions, the area between the alveolar part of the gum and the inner surface of the lip, reaching the transitional fold, is completely filled with the impression mass, and the borders of the mouthguard are expanded by including areas located on the inner surface of the lip and located at the level of the mouthguards, along the edges of the mouthguard at Slots are made for the windows 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 of teeth in the mouthguard, lead tubes are formed that are rigidly fixed to the edge of the mouthguard and to the region the length necessary for exposure to physical energy, the length of the fixed part of the tubes equal to the minimum distance between the edge of the mouthguard and the area necessary for exposure to physical energy, and in the region 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 the slots made at the level of this window, and in the region of the lateral group of teeth the working end is fixed by passing it through the abduction tubes.

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