RU189689U1 - NAVIGATION BONE MILL - Google Patents

Abstract

The utility model relates to medicine, namely to maxillofacial surgery and dentistry, and can be used during reconstructive restorative operations during dental implantation in order to prepare and form the recipient bone bed for a reconstructive implant of lyophilized allogeneic material and a single-stage bone fragments. tissue. The essence of the utility model is that the navigation bone mill has a shank passing through the bottom of the cylindrical body cuts and coinciding with the central axis, the top of the shank is located at the level of the cutting surface of the bone cutter and is non-aggressive; the bottom of the cutter has a transverse base, which facilitates the extraction of bone material, and the body forming the cylinder has a longitudinal hole that performs the functions of cooling and moistening the bone cutter and bone tissue during the formation of the bone bed and the collection of bone tissue. postoperative complications due to the accurate and correct preparation of the recipient bed of a reconstructive bone implant using the navigation system of the bone mill, increasing the water cooling and moistening of the bone cutter and bone tissue during the formation of the bone bed; reducing the time of surgical intervention by simplifying the evacuation of bone chips from the bone cutter.

Description

The utility model relates to medicine, namely to maxillofacial surgery and dentistry, and can be used during reconstructive restorative operations during dental implantation in order to prepare and form the recipient bone bed for a reconstructive implant of lyophilized allogeneic material and a single-stage bone fragments. tissue.

Known bone cutter containing a cylindrical tubular body, a knife with a cutting edge on the working part, a piston and a limb with a vernier scale, the body is provided with a rotation handle, a knife with a cutting edge on the working part is made of a diamond blade [1].

The disadvantages of this device are: the lack of guarantees of proper preparation of the recipient bed for reconstructive bone implant, accurate calculation of its position and collection of bone tissue chips without the occurrence of perforation of the maxillary sinus or mandibular canal; insufficient water cooling and hydration of the bone cutter and bone tissue during the formation of the recipient bed; difficulty extracting bone chips from the mill.

Known bone cutter containing 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 located along the left-side or right-side rotation of the device; The end part of the cylindrical body has a cutting surface circumferentially parallel to the longitudinal axis of the cylindrical body [2].

The disadvantages of this device are: the lack of guarantees of proper preparation of the recipient bed for reconstructive bone implant, accurate calculation of its position and collection of bone tissue chips without the occurrence of perforation of the maxillary sinus or mandibular canal; insufficient water cooling and hydration of the bone cutter and bone tissue during the formation of the recipient bed; difficulty extracting bone chips from the mill.

This device is taken as a prototype.

The purpose of the utility model is to reduce intra- and postoperative complications, due to accurate and proper preparation of the recipient bed of the reconstructive bone implant using the navigation system of the bone cutter, improving the quality of water cooling and moistening the bone cutter and bone tissue during the formation of the bone bed; reducing the time of surgery, by simplifying the evacuation of bone chips from the bone cutter.

This goal is achieved by the fact that the navigation bone cutter has a shank passing through the bottom of the cylindrical body of the cutter and coinciding with the central axis, the top of the shank is located at the level of the cutting surface of the bone cutter and has a non-aggressive nature; the bottom of the cutter has a transverse base, facilitating the extraction of bone material, and the body forming the cylinder has a longitudinal hole that serves as a cooling and wetting of the bone cutter and bone tissue during the formation of the bone bed and the collection of bone tissue chips.

The utility model is illustrated with graphic material.

FIG. 1., in a longitudinal section depicts a navigation bone cutter consisting of a shank (1), passing through the bottom of the cutter body and coinciding with the central axis; cylindrical bone mill body (2); the cutting surface (3) around the circumference of the end part of the cylindrical body parallel to the central axis of the cylindrical body; the tops of the shank (4), having a non-aggressive nature and located at the level of the cutting surface of the end part of the cylindrical body of the bone cutter; the bottom of the cutter (5), having a form of a transverse base, facilitating the extraction of bone material.

FIG. 2., in cross-section, a navigation bone cutter is shown consisting of a shank (1) passing through the bottom of the cutter body and coinciding with the central axis; cylindrical bone mill body (2); the bottom of the cutter (5), having a form of a transverse base, facilitating the extraction of bone material.

The utility model is used as follows.

During the operation of dental implantation with simultaneous bone grafting using reconstructive implants, digital modeling of a cylindrical reconstructive implant is performed and its production. The incision is made and the mucoperiosteal flap is retracted. Fix the pilot bone mill in the tip. A surgical implant template with a navigation system is installed. Taking into account the anatomical and topographic features in the field of the installation of reconstructive and dental implants, according to a predetermined drilling trajectory of the surgical implant template, an osteotomy of the bone bed is made by a pilot mill with a diameter of 2 mm equal to the diameter of the shank of the navigational bone mill and the length of the reconstructive implant to form the trajectory of the tail bone bone cutter. Fix the navigation bone cutter in the tip. Trepanation and formation of a precise cylindrical recipient bed for a reconstructive implant are performed. Trembling of the jaw bone tissue is carried out at a speed of 10 to 100 rpm. The cutting surface parallel to the central axis of the cylindrical body contributes to the deepening of the navigation bone cutter in the bone tissue, and the shank contributes to the trajectory and length of trepanning and prevents the occurrence of perforation of the maxillary sinus or mandibular canal. In the process of processing the bone bed, bone chips are collected, which is subsequently used for bone grafting. In the bed of a cylindrical shape, formed using the navigation bone cutter, install a reconstructive implant in the form of a cylinder. An osteotomy of the dental implant bone bed and its installation are made using a pre-modeled and milled reconstructive implant guide. The wound is sutured in layers.

The technical result of the utility model is the reduction of intra- and postoperative complications, due to the accurate and proper preparation of the recipient bed of the reconstructive bone implant using the navigation system of the bone cutter, improving the quality of water cooling and moistening of the bone cutter and bone tissue during the formation of the bone bed; reducing the time of surgery, by simplifying the evacuation of bone chips from the bone cutter.

The proposed method can be used in departments of maxillofacial surgery and outpatient dental institutions.

INFORMATION SOURCES:

1. The patent of the Russian Federation for useful model No. 22610, application No. 2001115212/20 of 06.06.2001

2. RF patent for useful model No. 139356, application No. 2013147516/14 dated 10.25.2013

Claims (1)

A bone cutter consisting of a cylindrical hollow body and a cutting surface around the circumference of the end part of the cylindrical body, characterized in that the navigation bone cutter has a shank passing through the bottom of the cylindrical case of the cutter and coincides with the central axis, the top of the shank is located at the level of the cutting surface of the bone cutter and has a non-aggressive nature; the bottom of the cutter has a transverse base, facilitating the extraction of bone material, and the body forming the cylinder has a longitudinal hole that serves as a cooling and wetting of the bone cutter and bone tissue during the formation of the bone bed and the collection of bone tissue chips.

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