RU155559U1 - TOOL FOR PROCESSING FURCTION AREA OF MOLARS - Google Patents

Abstract

1. The nozzle of the tool for processing the furcation region of molars, containing an angular body and connected to the angular body flexible working part with shape memory, characterized in that the flexible working part is made in the form of a twisted spring with a rounded end section, the turns of which form pointed cutting edges for direct contact with the treated tooth surface. 2. A nozzle according to claim 1, characterized in that in the angular housing an additional through channel with an outlet for supplying liquid is additionally made. The nozzle according to claim 2, characterized in that the coil spring is cylindrical or conical. 4. The nozzle according to claim 3, characterized in that it is made of titanium or a nickel-titanium alloy.

Description

The utility model relates to the medical field, in particular, to dentistry, and can be used to treat periodontal diseases, which is one of the urgent problems in modern dentistry.

Today, high-quality and thorough surface treatment of the roots of teeth, taking into account their anatomical features, is one of the main conditions for successful periodontal treatment.

The main goals of the non-surgical treatment of periodontal diseases are the removal of bacterial plaque, hard dental deposits and, as a result, delay the progression of the disease. Mechanical removal of deposits from the surface of the roots of the teeth is required to establish and maintain a healthy state of periodontal tissues.

When instrumental processing the surface of the roots of the teeth, the dentist pursues the following goals: thoroughly treating the surface of the roots in order to achieve a clean, even and smooth surface, but at the same time it should be gentle in relation to the tooth tissues in order to further create optimal conditions for the formation new gingival attachment.

A smooth, clean and even surface of the tooth roots is the main prerequisite in the genesis of the formation of a new periodontal attachment and is the main criterion for assessing the quality of the performed manipulation. Therefore, the tools used to process the surface of the roots of the teeth should not injure it, leave traces after itself, damage the structure and excessively remove tooth tissue. The biochemical retention zone of the tooth root surface after treatment is the most significant criterion for assessing the quality of the performed manipulations, since this factor is fundamental for the formation of a new attachment, and the residual roughness of the tooth surface is a favorable factor for the accumulation of bacterial plaque and subsequent formation of hard dental deposits.

Therefore, the main stage in the treatment of periodontal diseases is the removal of supra- and subgingival dental deposits and thorough surface treatment of the roots of the teeth.

Today, the dental market has a wide range of tools for treating the surface of tooth roots, such as sound-, ultrasonic scalers, hand tools, air-abrasive devices and other technical means.

Hand tools are the most widespread when processing the surface of tooth roots, since they are favorably distinguished by such advantages as a wide range of choice of the cutting surface depending on the group of the tooth, the absence of special contraindications to their use, and the relatively high quality of the treated tooth surface.

Particular attention should be paid to the anatomical features of the surface of the treated teeth, such as grooves, intussusception, as well as the furcation of the chewing teeth, the inaccessibility of which is of certain difficulty for doctors. Complicated access to the furcation area often does not allow a high-quality and thorough treatment of this area, but whose quality of processing directly depends on the further favorable prognosis of the tooth.

Furcation curettes are available on the market for processing the furcation region, suitable for processing this complex area in the shape of the working part of the instrument and its width. But there are narrow furcations, the processing of which is difficult for the dentist, due to the fact that the minimum width of the working part of the hand tools (curettes) on the market is 0.9 mm, and the width of the narrowest nozzles for ultrasonic scalers (PS) is 0.8 mm , in some clinical situations, the treatment of furcation areas with a narrower arch (less than 0.8 mm) is difficult, due to the lack of the necessary tool that matches this area with respect to the anatomical features of the tooth structure.

The prior art device for removing dental plaque containing a hollow body and a working element, while it has a working element in the form of a "foot" at the end curved at an obtuse angle and enclosed to the "foot" in a hollow body, perpendicular to the axis of the body is rigidly fixed a platform for supporting the tooth, the second end of the housing is equipped with a flexible cable in the casing, and the working element is connected to the cable using a sliding connection, and at the end of the cable there is a pedal for transmitting reciprocating movement to the working element (see RU 2187280 C2, publ. 08/20/2002).

The disadvantage of the analogue is the complex design, as well as, very importantly, the inability to process the furcational area of the teeth.

A curette for removing tartar is known from the prior art, comprising a rod with angled shanks on both sides, on one shank of which a spoon-shaped spatula with a rounded tip is made, and on the other a continuous sharp edge (see US 6382974 (B1), publ. 2002-05-07).

The prior art curette containing a handle and a curved working part on which the cutting edges are made (see US 4838899 (A), publ. 1989-06-13).

The disadvantage of analogues is the difficult processing of narrow furcational areas, where the minimum width between the roots of the tooth is less than 0.8 mm.

The closest in technical essence to the tool with a nozzle for removing tartar, containing a handle and a curved nozzle with a working part in the form of a needle with a spring on it is known (see CN 102670318 (A), publ. 2012-09-19).

The disadvantage of the prototype is the design complexity and, as a consequence, the inability to self-adapt the tool nozzle for machining a narrow furcational area of the teeth, in particular less than 0.8 mm

The task to which the claimed technical solution is directed is to increase the effectiveness of the treatment of inflammatory periodontal diseases by creating a flexible, self-adaptive tool nozzle for machining a narrow furcation of the teeth, in particular, less than 0.8 mm, which has high functionality, ergonomics and ease of use.

The technical result consists in simplifying the design by eliminating the needle to ensure access of the declared tool nozzle to a narrow furcation region (less than 0.8 mm) of chewing teeth in order to remove microbial biofilm, hard dental deposits, necrotic cement of the root of the tooth.

The technical result is achieved by the fact that the nozzle of the tool for processing the furcational region of the teeth contains an angular body and a flexible working part connected with an angular body with shape memory, while the flexible working part is made in the form of a coil spring with a rounded end section, the turns of which form pointed cutting edges for direct contact with the treated tooth surface.

The implementation of the working part is flexible in the form of a coiled spring with a rounded end portion and a shape memory, the turns of which form pointed cutting edges without a needle inserted into it (as was done in the prototype), which makes it possible to easily adapt to the anatomical due to the simplification of the design, flexibility and elasticity of the coil of the spring tooth features, especially in furcations of various widths.

Due to their properties, the spring coils change in size upon contact with the furcational region of the tooth, which helps to extend the spring in length and reduce its outer diameter or any other deformation, including bending, allowing a rounded end section with spring coils, which are pointed cutting edges, come into direct contact with the treated tooth surface to remove tooth deposits, microbial biofilms, necrotic tooth tissues in hard to reach places. At the same time, the rounded end section of the working part due to roundness provides better penetration into the furcation region of the tooth and does not have a traumatic effect on the gum tissue and periodontal pocket.

The implementation of a through channel with an outlet for fluid supply allows you to use the claimed nozzle in an ultrasonic scaler, which, using ultrasonic vibration with the supply of drugs or just water on the tooth surface, simultaneously with the mechanical action of the sharp cutting edges of the coil spring removes microbial biofilm, hard tooth deposits, necrotic cement of the root of the tooth, i.e. enhances the above technical result, which increases the efficiency of cleaning the furcation of the teeth.

Depending on the various anatomical features of the teeth, the coil spring can be made cylindrical or conical.

The execution of the claimed nozzle of titanium or Nickel-titanium alloy provides flexibility and ductility of the claimed tool.

Thus, the constructive implementation of the inventive tool nozzle for processing the furcational area of the teeth with its structural development allows easy access to the anatomically complex areas of the teeth for tooling in order to achieve a smooth and hard surface.

The claimed utility model is schematically illustrated by the figures. In FIG. 1 shows a general view of the tool with the claimed nozzle, in FIG. 2 - directly nozzle.

The nozzle of the tool for processing the furcation of the tooth area, made of titanium or a nickel-titanium alloy, contains an angular housing 1 with a flexible working part attached to it with a shape memory made in the form of a twisted cylindrical or conical spring 2, the outer diameter of which is 0.7 mm , with a rounded end section 3, the turns of which form pointed cutting edges for direct contact with the treated tooth surface. In the angular housing is additionally made through channel 4 with an outlet 5 for supplying liquid.

A tool with the claimed nozzle for processing the furcational area of the teeth operates as follows.

To perform machining of narrow furcation areas, the dentist picks up a tool with the declared nozzle in the field of knurling 6 according to the principle of a fountain pen, with the middle finger resting for the best control of tool movement. Vertically inserts the working part of the tool nozzle for processing the furcation region of molars into the pathological gingival pocket in the area of narrow root furcation, while due to the structural design disclosed above, the tool nozzle is fully adapted to a narrow machined surface of various sizes. Further, with a light, but at the same time with a slight emphasis movement, the instrument with the declared nozzle is displayed by the doctor in the vertical direction with the spring coils pressed against the tooth walls to remove tooth deposits and microbial plaque. After the work done, the claimed nozzle is removed from the tool and is subjected to antiseptic treatment with subsequent sterilization.

A tool with the declared nozzle for treating the furcational area of the teeth is suitable for use in chewing teeth on the left and right sides, in the area of oral and vestibular furcations.

Claims (4)

1. The nozzle of the tool for processing the furcation region of molars, containing an angular body and connected to an angular body flexible working part with shape memory, characterized in that the flexible working part is made in the form of a twisted spring with a rounded end section, the turns of which form pointed cutting edges for direct contact with the treated tooth surface. 2. The nozzle according to claim 1, characterized in that in the angular housing an additional through channel with an outlet for supplying liquid is additionally made. 3. The nozzle according to claim 2, characterized in that the coil spring is cylindrical or conical. 4. The nozzle according to claim 3, characterized in that it is made of titanium or a nickel-titanium alloy.

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