RU2758963C1 - Device for monitoring hemodynamics of periodontal tissues - Google Patents

Abstract

FIELD: medical technology.

SUBSTANCE: invention relates to medical technology. The device for monitoring the hemodynamics of periodontal tissues is made monolithic from a dental polymer by the additive method for volumetric printing and is a mouth guard for the upper or lower jaw with a handle in the anterior section for its positioning on the dentition. The mouth guard is made with the possibility of overlapping the teeth and marginal gum to the level of the transitional fold. In the projection of the medial inter-root partitions of the examined teeth there is a through space in the form of a rectangle. On the outer surface of this space in the thickness of the device there are longitudinal back-cone grooves with the possibility of moving cylindrical bushings with a through back-cone hole having an inner diameter corresponding to the diameter of the sensor of the Doppler device, and an outer diameter that is three times larger than the inner diameter of the cone hole. Cylindrical bushings are made with the possibility of moving along the grooves by means of retention elements having a shape that is reflected back to the grooves in the mouth guard. The device is made with the possibility of fixation on teeth in the area of which no research is planned, with the overlap of their clinical equators by 1 mm.

EFFECT: ultrasound Doppler sonography of the vessels of the periodontal complex and the transitional fold is provided using an individual navigation device making it possible to obtain representative data at all stages of the treatment with the possibility of moving the sensor along the alveolar bone in the interdental space.

1 cl, 1 dwg, 1 ex

Description

The invention relates to medicine, namely to dentistry, is intended for an objective assessment of regional blood flow in periodontal tissues using Doppler ultrasound.

A device for assessing intraosseous blood flow in periodontal tissues is known from the prior art, which contains an individual positioner mouthguard, two measuring spherical electrodes and an apparatus for rheoparadontography. These electrodes are made of a cobalt-chromium alloy, are located opposite each other on opposite sides of the alveolar bone in the projection of the interdental bone septum with the possibility of regulating movement in an individual dental aligner-positioner fixed on the teeth. The individual dental aligner-positioner is made by the method of vacuum heat-pressing with a thickness of 4 mm and consists of two combined layers of transparent polymer, an inner soft and an outer hard one. In the area of the study, there is a 2 mm gap between the soft tissues of the gums and the inner surface of the aligner-positioner to avoid pressure on the mucous membrane of the measured area. The electrodes fit snugly to the gums and are connected by soldering to a common flexible cable, into which the current wires of the tetrapolar system are also soldered behind the said wires of the measuring electrodes. The invention makes it possible to create a full-fledged electric field in the area of the investigated area of the inter-root bone septum of the lower and upper jaws with the possibility of monitoring and evaluating the effectiveness of the treatment of periodontitis (RF Patent 2659130 dated 06/28/2018).

The described device refers to rheoparodontography - a functional study of the intraosseous blood flow of deep vessels. The proposed device is applicable for ultrasound Doppler, used both for the study of intraosseous blood flow of the vessels of the interalveolar septum, and for the study of the superficial vessels of the gums.

A device for determining the mobility of a tooth is known, which is a transparent mouthguard, in shape corresponding to the individual characteristics of the anatomy of the dentition and alveolar jaws of the patient, characterized in that the mouthguard is made by computer prototyping, namely 3D printing, is made of a polymer having a thickness of 2 mm, and is modeled with the possibility of forming a gap along the perimeter between the surface of the mouthguard with the test teeth, the size of which is 1.5 times greater than the amplitude of teeth mobility in the vestibulo-oral direction; at the same time, in the projection of the center of the clinical equator of the vestibular surface of the teeth under study, there are through holes in the mouthpiece, in the vestibular direction from which the cones monolithically connected to the mouthpiece depart, the inner diameters of which correspond to the outer diameters of the nozzle of the measuring device sensor, the length of the polymer cones is individual and is determined by the transverse dimensions of the measured teeth (RF patent 2626372 dated July 26, 2017).

The closest to the proposed invention can be attributed to a device for monitoring the hemodynamics of periodontal tissues, made monolithically from a dental polymer by the additive method of 3D printing, which is a two-jaw mouthguard that overlaps the teeth and marginal gum to the level of the transitional fold and has a horizontal platform with imprints of the teeth of the upper and the lower dentition in the position of the central occlusion, separated by 3 mm, while between the teeth 16, 21, 25, 36, 41, 45 on all surfaces of the mucous membrane of the alveolar bone to the level of the transitional fold and the splint there is a gap of 1.5 mm, on the surface of the device at the level of the alveolar bone between the roots of the teeth there are tapered holes with a diameter corresponding to the diameter of the sensor of the Doppler device, and the outer diameter of the tapered hole allows the sensor of the Doppler device to move inside the mouthguard at 60 degrees, while the device has a handle in the anterior section for it on positioning in the oral cavity (RF Patent No. 2734405 dated 15.10.2020).

The task of the solution, which is directed by the invention, is a dynamic representative assessment of regional blood flow in the periodontal tissues using Doppler ultrasound.

The technical result of the invention is to conduct ultrasound Doppler ultrasonography of the vessels of the periodontal complex and the transitional fold using an individual navigation device that allows to obtain representative data at all stages of treatment with the ability to move the sensor along the alveolar bone in the interdental space.

The technical result of the invention is achieved due to the fact that the device for monitoring the hemodynamics of periodontal tissues is made monolithically from a dental polymer by the additive method of three-dimensional printing and is a mouthguard for the upper or lower jaw with a handle in the anterior section for positioning it on the dentition, while the mouthguard overlaps the teeth and the marginal gum to the level of the transitional fold, and in the projection of the medial inter-root septa of the studied teeth there is a through space in the form of a rectangle, on the outer surface of which there are longitudinal back conical grooves in the thickness of the device with the ability to move along these grooves of the bushings with a through back conical hole having the inner diameter corresponding to the diameter of the Doppler device sensor, and the outer diameter of the tapered hole is three times the inner diameter of the tapered hole, these cylinders move along the grooves by means of retention elements named after the shape of the back-reflected grooves in the aligner, at the same time, the device is securely fixed on the teeth in the area of which the study is not planned, overlapping their clinical equators by 1 mm.

The proposed device allows with maximum representativeness to monitor regional blood flow in the periodontal tissues using Doppler ultrasound at various periods of observation of the patient, does not come into contact with the soft tissues of the alveolar process, requires less time and less material for printing.

Tapered holes in the cylinders moving along the grooves in the mouthguard make it possible to conduct a study with high accuracy according to the recommended research protocol with the angles of the sensor movement in the range from 25 to 60 degrees relative to the mucous membrane of the periodontal complex. Also, these tapered holes allow you to deposit a special gel necessary for Doppler imaging.

The main element in the proposed invention is the ability to move the sleeve for the sensor along the alveolar ridge / part, which allows you to conduct a representative vertical survey of the entire surface of the interdental septa and diagnose periodontitis and / or predict its course.

The accuracy of the study is ensured by the method of computer modeling and production used in production technology, namely, obtaining non-contact optical impressions, along with the traditional method of taking an impression, making a working model of the jaw and its subsequent scanning.

A device for monitoring the hemodynamics of periodontal tissues is illustrated by a drawing, where in FIG. 1:

1. Device for monitoring hemodynamics.

2. Slots for moving the sleeve-cylinder in which the sensor of the device is fixed

3. Sleeve-cylinder positioning sensor of the device.

4. Handle for positioning the device for monitoring hemodynamics of periodontal tissues.

Doppler ultrasonography of periodontal tissues using the proposed device is carried out as follows:

1. In the projection of the interdental bony septa of the alveolar bone of the teeth planned for research, using an ultrasonic Doppler sensor, a point with a signal having the greatest graphic and sound amplitude is found.

2. The found point on the mucous membrane of the periodontal complex is marked with a sterile surgical marker (pencil).

3. The dentition and alveolar mucosa are scanned to the level of the transitional fold with a dental intraoral 3D scanner.

4. Based on the obtained 3D scene, a mouthguard (1) for the upper or lower jaw is modeled with a handle (4) in the anterior region for its positioning on the dentition, while the mouthguard (1) overlaps the teeth and the marginal gum to the level of the transitional fold in the study area ...

5. In the projection of the medial interroot septa of the studied teeth, a through space is modeled in the form of a rectangle on the outer surface of which longitudinal reverse-conical grooves (2) are formed in the thickness of the device.

6. Next, a sleeve is modeled in the form of a cylinder (3) with a through reverse-conical hole having an inner diameter corresponding to the sensor diameter of the Doppler instrument, and the outer diameter of the conical hole three times exceeding the inner diameter of the conical hole, the specified cylinder (3) has the ability to move along grooves by means of retention elements having a shape, reflected back to the grooves (2) into devices for monitoring the hemodynamics of periodontal tissues.

7. A digital model of the device (1) is made from a dental polymer using additive 3D printing technology.

8. A device for monitoring the hemodynamics of periodontal tissues is fixed on the patient's dentition and ultrasound Doppler ultrasound is performed in the desired areas by moving the cylinder (3) along the grooves of the mouthguard (2), placing the device sensor in the cylinder (3) and moving it until the maximum sound signal is obtained up to 60 degrees at planned vertical points.

9. Research is carried out the required number of times, guaranteed in the same areas, moving the cylinder (3) along the grooves (2) at different periods of research.

Clinical example

A 39-year-old patient K. came to the clinic with a diagnosis of chronic generalized periodontitis for treatment. The patient underwent clinical and radiological diagnostics in order to clarify the nosology. When performing Doppler sonography in order to determine the state of peripheral blood flow before treatment, in a patient in the projection of the inter-root bone septa of the alveolar bone of teeth 16, between teeth 21 and 22, as well as 25 and 26 of the upper jaw. Using an ultrasound Doppler transducer, we found the loudest signal in terms of graphic amplitude, which characterizes the blood flow in the vessel. The points found on the patient's gingival mucosa were marked with a sterile Tondaus surgical marker. Further, the upper jaw and the marked part of the mucous membrane of the investigated area were scanned with a dental intraoral 3D scanner.

In the EXOCAD computer program, on a digital model of the upper jaw, a mouthguard with a fixation handle was modeled, overlapping the teeth and the marginal gum to the level of the transitional fold. Between the teeth 16, 21, 25, a through space was modeled in the form of a rectangle on the outer surface of which longitudinal reverse conical grooves were formed in the thickness of the device with the possibility of moving along these grooves of the sleeve in the form of a cylinder with a through reverse conical hole having an inner diameter corresponding to the diameter of the device sensor for Doppler ultrasonography, and the outer diameter of the tapered hole is three times the inner diameter of the tapered hole.

A digital model of a device for monitoring hemodynamics in periodontal and peri-periodontal tissues was converted into a physical model on a Frozen printer using additive 3D printing technology from HarzLabs dental polymer. Next, the manufactured device was fixed on the patient's jaw, and Doppler ultrasound was performed in the desired areas, placing the device sensor in the cylinders and moving the cylinder along the grooves in the aligner. The conical holes made it possible to move the sensor of the device in the range of 25-65 degrees until the sound signal was as loud and clear for the researcher as possible, as well as to deposit a special gel necessary for the study. The movement of the sensor inside the device during this procedure is due to the technical principle of the Doppler sonography and is reflected in the instructions for use. Similar studies were conducted on the patient at 1, 6, and 12 months after the treatment of periodontitis, namely, removal of dental deposits above and below the gum, curettage of pathological pockets, drug therapy, and teeth splinting. According to the results of representative (at the same points) studies, there was a positive dynamics of improving blood flow, which characterizes the morphological sign of stabilization of resorption of interalveolar septa.

Claims (1)

A device for monitoring the hemodynamics of periodontal tissues, made monolithically from a dental polymer by the additive method of volumetric printing and representing a mouthguard for the upper or lower jaw with a handle in the anterior region for positioning it on the dentition, while the mouthguard is made with the ability to overlap the teeth and marginal gums to the level transitional fold, and in the projection of the medial inter-root septa of the studied teeth there is a through space in the form of a rectangle, on the outer surface of which in the thickness of the device there are longitudinal back conical grooves with the ability to move along these grooves of cylindrical bushings with a through back conical hole having an inner diameter corresponding to the diameter the sensor of the Doppler device, and the outer diameter, which is three times larger than the inner diameter of the tapered hole, these cylindrical bushings are made with the ability to move along the grooves by means of retention elements, I have the shape, reflected back to the grooves in the mouthguard, while the device is made with the possibility of fixing on the teeth in the area of which the study is not planned, with overlapping of their clinical equators by 1 mm.

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