RU182769U1 - Dental boron - Google Patents

Abstract

Dental boron refers to dentistry and can be used to increase the effectiveness of caries treatment by sparing, controlled preparation of hard tissues in the treatment of dental caries in the fissure area. The boron contains a shank and a working part with a rounded head, which is covered with diamond chips, characterized in that between the cutting surface and the shank there is a passive stopper in the form of a truncated cone with a height of 2-3 mm, with a diameter of 6 mm at the base. Boron allows gentle, controlled preparation of hard tissues in the treatment of dental caries by introducing a passive restrictor in the form of a truncated cone located between the cutting surface and the shank and corresponding to the length of the working part to the possible depth of demineralization of hard tissues in the fissure area.

Description

The utility model relates to dentistry and is intended to increase the effectiveness of caries treatment by sparing, controlled preparation of hard tissues in the treatment of dental caries in the fissure area.

Fissures are natural depressions located on the chewing surfaces of teeth and look like small grooves and grooves located between elevations - tubercles of the tooth.

One of the most important principles of tooth preparation is minimization of tissue removal in compliance with safety zones - the “method of biological expediency”. The method of "biological expediency" provides for a gentle attitude to unaffected tissues. And I. Nikolaev, L.M. Tsepov Practical therapeutic dentistry Moscow MEDpress-inform 2016 p. 106.

The first stage of the preparation of the cavity is to open it, which removes the overhanging edges of the enamel that does not have dentin underneath. Disclosure is carried out with diamond or carbide burs with a rotation speed of up to 400,000 rpm. For excision of enamel, it is better to use spherical or fissure burs. Yu.M. Maksimovsky, L.N. Maksimovskaya, L.Yu. Orekhova Therapeutic Dentistry Moscow "Medicine" 2002 p.188.

Fissure sealing can be preceded by a fissurotomy: opening or widening of narrow or deep grooves and / or fissures, including those where caries is supposed, the so-called preventive grinding. Typically, carbide or diamond truncated boron is used to open fissures. You can use the Fissurotomy system, SS White company (USA) consisting of special carbide burs that can open furrows and fissures in a minimum volume sufficient to fix the filling material. Burs are in the form of a probe. The length of the cutting surface is 2.5 mm, the diameter of the tip of the boron is 0.33 mm. The set includes burs of three types:

original fissure boron for conservative study of cavities and fissures on molars;

fissure boron for narrow microcone structures;

fissure boron for the ultra-conservative study of cavities and fissures on temporary teeth. Dmitrieva L.A., Maksimovsky Yu.M. Therapeutic dentistry: national guidelines / ed. L.A. Dmitrieva, Yu.M. Maksimovsky - M.: GEOTAR - Media, 2009 .-- p.341.

Dia – Tessin, (Switzerland) produces a line of fissure burs: fissure cylindrical burs, fissure burs with a rounded surface, fissure burs with a truncated end http://www.medicus.ru/stomatology/specialist/osobennosti -primeneniya-fissurnogo-cilindricheskogo-bora-26722.phtml.

Known cone-shaped boron company Komet 6859.314.018. “Ordering Tools for Diamond Tools” p. 5, containing a shank and a working part with a rounded head, which is covered with coarse diamond chips, which allows to open the fissures and, changing the inclination of the axis of the tip and boron relative to the axis of the tooth, to form a rebate. This boron is taken as a prototype.

The disadvantage of the prototype, as well as the above tools is the lack of the possibility of gentle, controlled formation of the depth and surface profile of the bottom of the cavity due to the fact that the length of the working part exceeds the necessary depth of preparation of the tooth in the fissure area. In this case, a departure from the biological principle of the preparation of the carious cavity is possible, since the doctor, in the process of preparation of the carious cavity, arbitrarily loads the dental tip, which retains the optimal, according to the doctor, sizes of rotating burs, which can lead to unreasonable removal of hard tissues from the walls and bottom of the carious cavities.

The technical task of the utility model is to eliminate the disadvantage of the prototype.

The technical result is a gentle, controlled preparation of hard tissues in the treatment of dental caries due to the introduction of a passive limiter in the form of a truncated cone located between the cutting surface and the shank and corresponding to the length of the working part to the possible depth of demineralization of hard tissues in the fissure area.

The technical result was achieved by the proposed dental cone-shaped bur for the treatment of caries in the fissure area, containing a shank and a working part with a rounded head, which is covered with diamond chips, while the length of the cutting surface is 2.5 or 4.0 or 6.0 mm, and between the cutting the surface and the shank is a passive limiter in the form of a truncated cone with a height of 2-3 mm, a base diameter of 6 mm, the sliding of which on the occlusal surface of the tooth ensures the formation of the corresponding relief of the bottom of the carious oh cavity.

The figure 1 shows a view of the fissure bur with a rounded head and a passive limiter in the form of a truncated cone.

The boron contains a shank 1, a passive stop 2 and a cutting surface 3, while the passive stop 2 is made in the form of a truncated cone with a base diameter of 6 mm and a height of 2-3 mm.

Application example.

In the treatment of dental caries in the fissure area with the proposed boron with a cutting surface length of 2.5 or 4.0 or 6.0 mm, the occlusal surface of the tooth is first probed, then the area that impedes the movement of the probe is determined and the demineralized tooth tissue is removed with a minimum suitable size of boron with passive limiter. Then the occlusal surface is re-probed, and, if necessary, treatment is carried out with a large size of boron with a passive limiter. Sliding a passive limiter along the occlusal surface of the tooth contributes to the gentle controlled formation of the geometry of the bottom of the carious cavity of the corresponding geometry of the fissure. Processing stops when hard surfaces are reached.

Thus, the proposed boron provides the opportunity for gentle, controlled formation of the depth and profile of the surface of the bottom of the carious cavity in the fissure region.

Claims (1)

Dental boron for the treatment of caries in the fissure area, containing a shank and a working part with a rounded head, which is covered with diamond chips, characterized in that between the cutting surface and the shank there is a passive stopper in the form of a truncated cone with a height of 2-3 mm, with a diameter of 6 at the base mm

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