RU2028121C1 - Tooth implant - Google Patents

Abstract

FIELD: medicine; stomatology. SUBSTANCE: tooth implant has crown part 2 and root part 3 made in form of two pins. Crown part is formed by matching rods 1 in top parts by means of opposite inclined planes 4 made onto them and is tightened by open ring 6 made of cast titanium nickel disposed in annular groove 5. Direct end parts of the pins are turned one relatively another for 90 deg. and made in form of plates with longitudinal through slits. Top parts of the rods are made of cast titanium nickel, and body of pins 1 and its end parts are made of porous titanium nickel. EFFECT: improved efficiency. 3 dwg

Description

 The invention relates to medicine, namely to dentistry, and can be used to install dentures as a supporting element and lone teeth.

 Various endo-subperiostal implants (ESI) are known, which are an all-metal structure having a head, neck, subperiosteal plate and endossal legs, which in turn are equipped with spherical thickenings and constrictions. Such designs do not provide reliable fixation in the bone under the action of chewing forces, do not create an intimate connection with the bone, the implant surface structure and its location in the bone increase the likelihood of inflammatory complications due to the constant penetration of the contents of the oral cavity into the bone wound.

 The closest in technical essence to the proposed invention is a dental implant consisting of a head, body and end parts; the body and the end parts are made in the form of two pointed, arched curved rods located at an angle to each other, while the body has supporting protrusions, and the implant is equipped with a support bar for interaction with the body, the implant head is made in the form of a cap for placement on top of the implant body. Such an implant has a number of significant drawbacks: the design provides for forced insertion into the bone, which increases trauma to the jaw tissue, the connection of the implant body to the support bar, and the end parts to the bone does not provide biological engraftment and causes contouring of these elements under the mucous membrane, which additionally injures the mucous membrane periosteal layer, the use of the design also provides for an open bone wound, communicating with the oral cavity, for the entire period of operation of the implant ata.

 The purpose of the invention is to increase the reliability of fixation of the implant and to ensure uniform distribution of the masticatory load.

 This goal is achieved in that the coronal and intraosseous parts consist of two symmetrical split halves, interconnected by flat inclined surfaces made in the crown part, and an annular groove is made along the perimeter of the crown part to accommodate a fixing split ring made of material with memory forms, while the rods of the root section are located relative to each other at right angles, made in the form of plates with a porous surface and have a longitudinal through slot and, and the crown part of the implant is made of cast titanium nickelide.

 Figure 1 shows a General view of the implant; figure 2 - implant in disassembled position; figure 3 - dental implant installed in the lower jaw with a fixed bridge on it.

The dental implant consists of two rods 1 having crown parts 2 and root 3 parts, while the crown part 2 is provided with flat inclined surfaces 4 conjugated with each other, and an annular groove 5 is made around the perimeter of the crown part 2 to accommodate the retaining ring 6 sec shape memory. The root parts 3 are made in the form ^of plates 7 rotated at an angle of 90 °, the plates are provided with through slots 8, the root part 3 is made with a porous surface 9.

 A dental implant is installed and operates as follows. A plastic mouthguard is made, in which metal washers are installed with a hole diameter corresponding to the diameter of the implant rods 1, the washers are installed in the mouthguard by an orthopedic surgeon strictly at a predetermined angle corresponding to the angle between the rods 1. The mouth guard is put on the toothless jaw and after anesthesia is applied through the holes in the washers milling holes in the bone, after which the bone milling holes are washed with antiseptics. The rods 1 are inserted into the prepared bone holes with the end part 3, while the crown parts 2 are connected to each other using flat inclined planes 4, forming a single crown part of the implant. For rigid connection of the crown part 3, an open retaining ring 6, previously cooled in cold water, is inserted into the groove 5. When the ring 6 is heated to the temperature of the oral cavity, it closes in the groove 5 and creates constant compression due to the shape memory, and thereby fixes the crown part and root parts in the bone. A blood clot forms between the porous surface 9 of the root part 3 and the bone wall of the milling canal, as well as in the through-cuts 8, which seals the gap between the implant and the bone by fixing it in the pores, thereby isolating the oral cavity from the bone wound in the first days after surgery , subsequently, the clot is organized into fibrous tissue. An implant installed in this way does not have mobility and implies simultaneous prosthetics according to the usual technique.

Claims (1)

 DENTAL IMPLANT, consisting of coronal and intraosseous parts, while the intraosseous part is made in the form of two rods diverging at an angle to each other, characterized in that, in order to increase the reliability of fixation of the implant in the jaw hole and to ensure uniform distribution of chewing load, the crown and intraosseous parts consist of symmetrical split halves, interconnected by flat inclined surfaces made in the crown part, and an annular groove d is made along the perimeter of the crown part I place in it a fixing split ring made of material with shape memory, while the rods of the intra-root part are located at right angles to each other, made in the form of plates with a porous surface and have longitudinal through slots, and the crown part of the implant is made of cast titanium nickelide .

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