RU2655198C1 - Intraosseous dental implant - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to surgical dentistry. Intraosseous dental implant contains an element for fixing the prosthesis, a sealing element for the cavity formed inside the implant and the socket, the intra-caudal part in the form of a through hollow cylinder with an internal threaded portion from the side of the crown part. On outer surface of the hollow cylinder, mainly in the middle-apical part, a large thread is made, which is conical with respect to its cavities with longitudinal grooves and transverse through holes in them, and the rest is made of fine threads. Implant is made of titanium VT-1.0. Element for securing the prosthesis is made of a demountable gingival and orthopedic parts in the form of a truncated cone and fastened together by large bases in the crown portion of the threaded portion of the hollow cylinder by means of a screw of the orthopedic part. Sealing element of the cavity formed inside the implant and the well, is made on the end of the internal threaded section of the hollow cylinder in the form of a dense ring connection, an acute shoulder – a conical tapered plug valve made of plastically deformed titanium VT-1.00.

EFFECT: invention can be used for prosthetics on implants, including, with a significant atrophy of the alveolar process of the upper jaw and a decrease in its height in the distal areas.

1 cl, 1 dwg

Description

The invention relates to surgical dentistry and can be used for prosthetics on implants, including with significant atrophy of the alveolar process of the upper jaw and a decrease in its height in the distal sections.

Known for a jaw implant containing a head in the form of a truncated cone and an intraosseous part with lateral openings, which consists of a single and hollow conically tapering part (RF patent for the invention No. 2043086, class A61C 8/00, published on April 27, 2003). The basis of the invention is the task of improving the reliability of fixation of the implant in the bone bed due to a more uniform distribution of pressure under load on the denture. The problem is solved in that in the known maxillary implant containing the head, neck and intraosseous hollow part with lateral openings, there are grooves on the head, the neck is made in the form of an inverted cone, and the intraosseous part consists of a whole and hollow conically tapering part. This design reduces the trauma during implant insertion, since the creation of a truncated cone at the base of the implant allows it to be inserted with less effort through a compact layer of bone tissue. In addition, for less trauma, the edge of the base is pointed and oval.

Known dental maxillary implant containing a sleeve in the form of a hollow cylinder having an external thread for fixation in the bone, with an internal thread for connecting with the screw thread of the distractor, made in the form of a cylindrical rod with thread on the outer surface and a hemispherical base, and the screw -distractor is made with an axial threaded hole for installing a syringe needle, plug or suprastructure, while the axial hole is connected at the base of the screw-distractor with two diametrically located orthogonal holes at the point of their intersection for the passage of the osteoplastic gel into the sinus cavity and subsequent germination of bone tissue into the holes. The axial hole in the screw-distractor is made stepwise, in the upper part - in the form of a mounting recess for the superstructure turning into a threaded hole of a smaller diameter (RF patent for the invention No. 2395349, class A61C 8/00, publ. 07.27.2010).

The technical result of a dental implant is its ability to be fixed in the hole immediately after its installation in the hole. Since the walls of the implant are firmly pressed against the walls of the well, significant stability of the implant is ensured. A significant technical result is the fact that the tightness of the cavity formed inside the implant and the hole is ensured. In addition, the presence of a significant cavity inside a thin-walled implant increases the reliability of its fixation after filling the cavity with regenerated bone tissue.

Titanium - a widespread metal - is lightweight, resistant to corrosion, lends itself well to processing, without losing high strength. A strong oxide layer (predominantly titanium dioxide) spontaneously forms on the titanium surface, which is a stable ceramic compound on which a bone mineralized matrix can be deposited. This initial oxide surface with a thickness of 50-100 nm during the installation of the implant is coated with plasma proteins (mainly fibronectin and vitronectin).

An important requirement for implants - biological tolerance - is ensured by the biological inertness of this oxide surface. Currently, the main materials used for the manufacture of implants are industrially pure titanium, titanium-aluminum-vanadium alloy and hydroxyapatite as a coating for the intraosseous part.

For dental implants, pure industrial titanium is recommended. Industrial grade titanium has excellent corrosion resistance and biocompatibility. In our country, for the production of dental implants using technically pure titanium grades VT-1.0 and VT-1.00 (GOST 19807-91). Abroad, the so-called "commercially pure" titanium of four grades (Grade 1-4 ASTM, ISO) and the titanium alloy Ti-6Al-4V (ASTM, ISO), which is an analogue of the domestic alloy VT-6, are used.

The closest in technical essence to the claimed invention is a dental implant, the intraosseous part of which is made in the form of a hollow cylinder, with a prosthesis attachment element, and a cavity sealing element formed inside the implant and the hole, in the form of a plastically deformable cylindrical head in contact with the edge of the hollow cylinder, the latter is made with several holes in its wall, and grooves are applied on the outer surface of the hollow cylinder. The presence of holes in the wall of the hollow cylinder accelerates the filling of its internal cavity with regenerated bone tissue.

The technical result is to ensure the tightness of the cavity formed inside the implant and the hole, as well as improving the reliability of fixation after filling the cavity with regenerated tissue (see patent RU, No. 2300342, IPC A61C 8/00, published on 06/10/2007 - prototype).

The disadvantages of this design include the lack of necessary retention on the outer surface of the hollow cylinder, which provides the dental implant with sufficient primary fixation at the time of its installation in the bone bed. However, such a technical solution of the sealing element of the cavity formed inside the implant and the hole in the form of an exhaust rod with a plastically deformable cylindrical head does not provide sufficient sealing of the dental hole. Moreover, the design of the implant head, described in the prototype, will not allow to realize its two-stage installation, which is necessary when, for example, performing a closed sinus lift operation.

The objective of the invention is to ensure reliable primary fixation of the dental implant at the time of its installation in the bone bed and the creation of sufficient sealing of the dental hole.

The problem is solved in that in the known dental implant containing the prosthesis attachment element, the sealing element of the cavity formed inside the implant and the hole, the intraosseous part in the form of a through hollow cylinder, the latter is made of VT-1.0 titanium, with an internal threaded portion on the side of its crown parts, moreover, on the outer surface of the hollow cylinder, mainly in the middle apical part, a large thread is made, which is conical relative to its hollows with longitudinal grooves and transverse through holes with grooves in them, and on the rest — small thread is made, the prosthesis attachment element is made of collapsible gingival and orthopedic parts, having the shape of a truncated cone and fastened together by large bases in the crown part of the threaded portion of the hollow cylinder by means of an orthopedic screw, while tightness the cavity formed inside the implant and the hole is made at the end of the internal threaded portion of the hollow cylinder in the form of a tight annular connection sharp ledge - threaded valve plug onic form of plastically deformable titanium VT-1.00.

In FIG. 1 shows a general view, combined with a frontal section of an intraosseous dental implant.

The design of the proposed intraosseous dental implant is made in the form of a through hollow cylinder with an external fine thread 1 and a large thread 2 in the mid-apical part, which is conical relative to its hollows with longitudinal grooves 3 and with transverse through holes in them 4. The internal cavity of the implant contains a cylindrical section 5, and from the side of the crown part - a threaded section 6 at the end of which a tight ring connection is made; a sharp ledge 7 - a threaded plug valve 8 of a conical shape made of plastic eformiruemogo titanium BT-1.00.

The prosthesis attachment element - the abutment - is made collapsible and contains the gingival 9 and orthopedic 10 parts, shaped truncated by a cone and fastened together by large bases in the crown part of the threaded section by means of a screw 11 of the orthopedic part.

The installation of the proposed intraosseous dental implant on the example of the implementation of the closed (soft) sinus lift technique (see, for example, RU patent No. 2239387, IPC АС 8/00, publ. 10.10.2004 g) in combination with simultaneous implantation is carried out as follows.

In the process of implementing closed sinus lift, which includes the procedure of exfoliating the mucoperiosteal trapezoidal flap, opening the compact outer plate of the alveolar process of the upper jaw, forming a bone bed for a screw implant and perforating the bottom of the maxillary sinus, exfoliating the mucous membrane of the bottom of the sinus from the entire volume of the underlying bone, from the underlying bone the resulting cavity with a liquid osteoplastic gel is carried out immediately after installation of the proposed implant that formed in bone bed through the through hole of the hollow cylinder 5 (when the missing elements of the prosthesis attachment - the abutment and the valve stub 8) through a special fitting. Next, install the valve plug 8, screwing it all the way into a sharp ledge 7 with a slight tightness, after which the inlet of the threaded section 6 is closed with a screw plug (not shown in Fig. 1). The operation is completed by hermetically suturing the wounds of the periosteum and mucous membrane.

Then, after 6-9 months, after the successful (radiologically confirmed) osseointegration of the intraosseous dental implant, the second stage of the closed sinus lift operation is performed. Through a small incision above the intraosseous implant, the dummy screw is removed and the healing abutment is screwed in to obtain a tight implant-gingival contact in the form of a circular scar after 1-2 weeks. Then, in place of the gingiva former, a conical gingival 9 and a conical orthopedic 10 part are fixed together with each other in the crown part of the threaded portion by means of a screw 11, and the conical gingival part 9 is finally tightened as a lock nut.

Compared with the known, the proposed dental implant has the following advantages.

Firstly, the presence of coarse thread 2 in the mid-apical part of the hollow cylinder, which is conical relative to its hollows with longitudinal grooves 3, provides more reliable primary fixation of the intraosseous part of the implant at the time of its installation in the bone hole due to the effect of gradual clamping of the coils of conical thread 2 and fixation of the longitudinal grooves 3 in the elastic-pliable structure of the spongy substance of the bone tissue. At the same time, the presence of a small thread 1 on the outer surface of the hollow cylinder provides a significantly larger contact area at the bone - implant border, contributing to the creation of more favorable conditions for biomechanical interaction and a more adequate distribution of the external mechanical load on the supporting tissues.

Secondly, the constructional sealing element of the cavity formed inside the implant and the hole in the form of a tight annular connection with a sharp ledge 7 - a threaded valve plug 8 of a conical shape made of plastically deformable titanium VT-1.00 provides absolute seal of the implant in relation to the microflora of the oral cavity. Since the plug valve 8 is made of VT-1.00, and the sharp shoulder 7 is made of VT-1.0, the yield strength of which is greater than the previous one, then, sealing in this cavity arises, almost at the molecular level due to their difference within the plastic deformations when a significant specific pressure occurs at the boundary of their mechanical interaction.

At the same time, immediately after filling the entire volume of the cavity formed with liquid osteoplastic gel (which hardens 3 minutes after it enters the maxillary cavity), the proposed design allows the laser radiation to be transported for therapeutic purposes directly through the through hole of the hollow cylinder 5 and transverse through holes 4 to supporting tissues of the bone bed, for example, using a monofilament fiber.

Claims (1)

An intraosseous dental implant containing a prosthesis attachment element, a sealing element for a cavity formed inside the implant and a hole, an intraosseous part in the form of a through hollow cylinder, characterized in that the latter is made of titanium BT-1.0, with an internal threaded portion from the side of its crown part, wherein on the outer surface of the hollow cylinder, mainly in the middle apical part, a large thread is made, which is conical relative to its hollows with longitudinal grooves and transverse through holes in them, and on the rest of it, small thread is made, the prosthesis attachment element is made of collapsible gingival and orthopedic parts, having the shape of a truncated cone and fastened together by large bases in the crown part of the threaded section of the hollow cylinder by means of an orthopedic screw, while the sealing element of the cavity formed inside the implant and the hole, made at the end of the internal threaded section of the hollow cylinder in the form of a tight annular connection, a sharp ledge - a threaded plug valve conical form of plastic deformable titanium VT-1.00.

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