RU139356U1 - Bone Milling Cutter - Google Patents

Abstract

A bone cutter for collecting bone tissue with the simultaneous formation of a bone bed for a dental implant, consisting of a cylindrical hollow body, a knife with a cutting edge, characterized in that it has 1 or 2 knives located perpendicular to the longitudinal axis of the cylindrical body and radially to the diameter of the cylindrical body, fixing to the wall in the end part; cutting edges of 1 or 2 knives are mutually arranged along the left-side or right-hand rotation of the device; the end part of the cylindrical body has a circumference of a cutting surface parallel to the longitudinal axis of the cylindrical body.

Description

The utility model relates to surgery, and in particular to devices for collecting bone tissue with simultaneous formation of a bone bed under a dental implant.

Known bone cutter cylindrical with a pointed apical cutting edge, and a hollow part [1].

The disadvantages of this device are the low cutting efficiency, the inability to obtain a small bone autoshrap.

Known bone cutter cylindrical with a cutting edge, and a bone trap [2].

The disadvantages of this device are the inability to form a bone bed under the dental implant, low cutting efficiency, the inability to obtain small bone autograys.

Known bone cutter for the collection of bone chips consisting of a needle with a trocar, a feather drill, metering screw [3].

The disadvantages of this device are the inability to form a bone bed under the dental implant, low cutting efficiency, the inability to obtain small bone autograys.

Known bone cutter containing a cylindrical tubular body, a knife with a cutting edge on the working part, a piston and a dial with a vernier scale, the body is equipped with a rotation handle, the knife with a cutting edge on the working part is made of a diamond blade [4].

The disadvantages of this device are the inability to form a bone bed under the dental implant, low cutting efficiency, the inability to obtain small bone autograys.

This device is taken as a prototype.

The purpose of creating a utility model is to enable the formation of a bone bed for a dental implant to produce small bone autograps, and to increase cutting efficiency.

This goal is achieved by the fact that the bone cutter has 1 or 2 knives located perpendicular to the longitudinal axis of the cylindrical body and radially to the diameter of the cylindrical body being fixed to the wall in the end part; cutting edges of 1 or 2 knives are mutually arranged along the left-side or right-hand rotation of the device; the end part of the cylindrical body has a circumferential cutting surface parallel to the longitudinal axis of the cylindrical body.

Comparison of the proposed device with others known in the field of medicine showed its compliance with the criteria of a utility model.

A useful device is illustrated in graphic material.

The figure 1, in a section shows a bone cutter consisting of a shank (1), a cylindrical hollow body (2), 1 knife (3) with a cutting edge located perpendicular to the longitudinal axis of the cylindrical body (2) and radially to the diameter of the cylindrical body (2) fixing to the wall in the end part (4); the end part (4) of the cylindrical body (2) has a circumferential cutting surface (5) parallel to the longitudinal axis of the cylindrical body.

In figure 2, a sectional view shows a bone cutter consisting of a shank (1), a cylindrical hollow body (2), 2 knives (3) with a cutting edge located perpendicular to the longitudinal axis of the cylindrical body (2) and radially to the diameter of the cylindrical body ( 2) fixing to the wall in the end part (4); the end part (4) of the cylindrical body (2) has a circumferential cutting surface (5) parallel to the longitudinal axis of the cylindrical body.

The device is used as follows.

When performing an operation of simultaneous dental implantation with a fence of autologous bone material, an incision and exfoliation of the mucosal - periosteal flap are performed. Fix the bone cutter in the tip. Trepanation of the jaw bone is performed at revolutions from 10 to 100 rpm. When bone tissue is prepared by a bone cutter, bone autostructure is cut with 1 or 2 knives during their horizontal rotation and bone autostructure is collected into a cylindrical hollow body. The cutting surface parallel to the longitudinal axis of the cylindrical body helps to deepen the bone cutter into the bone tissue. In the process of preparation of the bone bed, bone chips are collected, which are subsequently used for bone grafting and for the installation of dental implants. In the formed bone bed, dental implants are installed, and cap screws. The wound is sutured in layers. Apply an aseptic dressing.

Achievements of the technical result are confirmed by clinical examples of the use of the proposed device in the clinic of maxillofacial surgery of Samara State Medical University.

Clinical example 1. Patient S., 64 years old. The diagnosis is a partial absence of teeth in the lower jaw, Kennedy Grade 2. The patient underwent surgery. Under local anesthesia Sol. Ultracaini D.S. - 1.8 ml., An incision was made in the oral mucosa, the alveolar process of the lower jaw was skeletonized.

The bone cutter is fixed to the tip. Trepanation of the jaw bone was performed at revolutions of 10 rpm. When preparing bone tissue with a bone cutter, bone autostructure was cut with 1 knife during its horizontal rotation and bone autostructure was collected in a cylindrical hollow body. The cutting surface parallel to the longitudinal axis of the cylindrical body contributed to the deepening of the bone cutter into the bone tissue. During the preparation of the bone bed, bone chips were collected, which were subsequently used for bone grafting and for the installation of dental implants. A dental implant is installed in the formed bone bed using a torque wrench. The healing abutment of the wound is sutured. After the implant osseointegration is completed, a tooth prosthesis is installed on the implant.

Clinical example 2. Patient K., 32 years old. The diagnosis is a partial absence of teeth in the upper jaw, Kennedy Grade 1. The patient underwent surgery. Under local anesthesia Sol. Ultracaini D.S. - 1.8 ml., An incision was made in the oral mucosa, the alveolar process of the lower jaw was skeletonized.

The bone cutter is fixed to the tip. Produced trepanation of the jaw bone at revolutions from 100 rpm. When preparing bone tissue with a bone cutter, the bone autostructure was cut with 2 knives during their horizontal rotation and the bone autostructure was collected into a cylindrical hollow body. The cutting surface parallel to the longitudinal axis of the cylindrical body contributed to the deepening of the bone cutter into the bone tissue. During the preparation of the bone bed, bone chips were collected, which were subsequently used for bone grafting and for the installation of dental implants. A dental implant is installed in the formed bone bed using a torque wrench. The healing abutment of the wound is sutured. After the implant osseointegration is completed, a tooth prosthesis is installed on the implant.

The technical result of the utility model is to enable the formation of a bone bed under a dental implant to produce small bone autograp, increasing cutting efficiency, and facilitating the preparation of a bone bed.

The proposed model can be used in dental practice in the departments of maxillofacial surgery.

INFORMATION SOURCES

1.http: //mis-implants.ru/katalog/mis/nabory_instrumentov/nabor_dlya_sbora_kosti_mkbh 26 / # bigImg

2. http://www.arthrex.com/knee/bone-graft-harvester-technique/products

3. Pankratov A.S., Lekishvili M.V., Kopeckiy I.S. Bone grafting in dentistry and maxillofacial surgery. Osteoplastic materials. - M .: Publishing house BINOM, 2011 .-- p.46.

4. RF patent for utility model No. 22610, application No. 20011115212/20 of 06.06.2001

Claims (1)

A bone cutter for collecting bone tissue with the simultaneous formation of a bone bed for a dental implant, consisting of a cylindrical hollow body, a knife with a cutting edge, characterized in that it has 1 or 2 knives located perpendicular to the longitudinal axis of the cylindrical body and radially to the diameter of the cylindrical body, fixing to the wall in the end part; cutting edges of 1 or 2 knives are mutually arranged along the left-side or right-hand rotation of the device; the end part of the cylindrical body has a circumference of a cutting surface parallel to the longitudinal axis of the cylindrical body.

Images