RU57108U1 - DENTAL SCREW IMPLANT - Google Patents

Abstract

The utility model relates to orthopedic and surgical dentistry and can be used to restore the dentition with a single missing tooth, and also serve as a support under the bridge. The technical result of the utility model is that the implant is simple to manufacture and reliable in operation; its installation does not require a highly qualified doctor, the technology of introducing an implant into bone tissue is simplified. A dental implant contains an extraosseous part and an intraosseous part connected with it via the neck and screw with a cervical cavity and an internal screw threaded hole, an apical shank with a thread and flat, while the neck is installed in the cervical cavity by interfacing congruent landing surfaces of many protrusions on the neck of the extraosseous part and, accordingly, many grooves of the cervical cavity. The grooves are made with a length equal to the depth of the cervical cavity, and each with a radius R ₂ with a center diametrically offset from the center of the cervical cavity, made with a radius R ₁ by a value of 0.5 ÷ 5 mm, and selected from a ratio of R ₁ : R ₂ from 1.9 ÷ 1 to 1 ÷ 2.19, where R ₁ is the radius of the cervical cavity, and R ₂ is the radius of the congruent landing surfaces of the protrusion and, accordingly, the groove.

Description

The utility model relates to medicine, namely to orthopedic and surgical dentistry and can be used to restore the dentition as with a single missing tooth, and with multiple included and end defects of the dentition, can serve as a support for a single crown, bridge, removable dentures and other types of orthopedic constructions.

There are many implants for orthopedic and surgical dentistry, containing intraosseous and extraosseous parts, aiming at reliable fixation of the implant in the bone tissue and then providing it as supports for orthopedic construction.

Of the many designs, the most interesting are implants that provide osseointegration, namely:

- cylindrical implants;

- made of metal (bioinert);

- not integral (including the implantable part and the extraosseous part (suprastructure) attached to it by the existing contact surfaces between the indicated parts);

- having a third part - a connecting screw for fixing the suprastructure to the implanted part;

- comprising a part of the contact surface between the implantable part and the superstructure (intended for the antirotational effect of the surfaces) located inside the body of the implant for the internal connection of its parts (for example, patents RU No. 2004102646, 2003117749, 2003117351, 2204357, 2202984, 2199973, etc. according to classification A 61 C 8/00 as of 2005. 07. 10 total of 34 security documents relating to the designs of the mentioned implants in form, structure and manufacturing principles).

Many well-known implant designs do not take into account the various properties and bearing capacity of the thread in the compact and spongy layers of the jaw bone and cannot be used at an early load. Also, the strength of the implant and the suprastructure are not taken into account. If necessary, unscrew the screw to remove the suprastructure from the implant, or they can unscrew the implant from the bone tissue under the influence of varied loads.

A dental implant is known that contains an intraosseous part with internal and external threads, and an extraosseous part interconnected by means of a threaded joint and a congruent landing surface, consisting of a landing cylindrical cavity and a landing neck, respectively, having many semicircular (or other shape) grooves and the like in the form of reciprocal protrusions (US Patent 6733291, class A 61 C 8/00, 05/11/2004). The disadvantages of this design include the technological complexity of its manufacture, the difficulties of introducing a reciprocal extraosseous part into the implant, which makes it necessary for specialists of a high professional level to work with such an implant design.

A known dental screw implant containing an extraosseous part and an intraosseous part with a cervical cavity and an internal threaded hole for a screw, an apical shank with an external thread and flat connected to it via the neck and screw [RF Patent No. 2204357, cl. A 61 C 8/00, 05.20.2003). The cervical part and cervical cavity of the intraosseous part of the implant are made conical, the apical shaft with an external conical thread with a profile angle of 40-50 °. Inside, the implant has a landing surface formed by a conical neck with semicircular (rectangular, triangular) protrusions uniformly located on the lateral surface of the neck and reciprocal slots (grooves) longitudinally offset from the end along the walls forming the cervical cavity of the intraosseous part.

However, such an implant does not provide a tight abutment of the connected parts in various sizes of structures: landing of the neck in the intraosseous part is difficult; fracture of the walls of the cervical cavity is not excluded from the uneven distribution of lateral force loads on them from the extraosseous part and the screw.

This implant is taken as a prototype.

The task to which the proposed utility model is directed is to create a simple and reliable implant design that eliminates the indicated disadvantages of known implants.

The technical result of the utility model is that the implant is easy to manufacture and reliable in operation, it does not require high qualification of a doctor to install it.

The technical result is achieved due to the fact that the dental screw implant contains an extraosseous part and an intraosseous part connected with it via the neck and screw with a cervical cavity and an internal threaded hole for the screw, an apical shank with thread and flat, while the neck is installed in the cervical cavity by mating congruent landing surfaces of a plurality of protrusions on the neck of the extraosseous part and, accordingly, a plurality of grooves of the cervical cavity, in which, according to the proposal, the grooves in Full length equal to the depth of the cervical cavity, and each of radius R ₂ centered diametrically offset from the center of the cervical cavity, the radius R _1, the magnitude 0,5 ÷ 5 mm, and the selected ratio of R _1: R ₂ of 1.9 ÷ 1 to 1 ÷ 2.19, where R ₁ is the radius of the cervical cavity, and R ₂ is the radius of the congruent landing surfaces of the protrusion and, accordingly, the groove.

The implant, according to the proposal, has protrusions on the neck of the extraosseous part made with a length equal to the depth of the cervical cavity of the intraosseous part.

The implant has the number of protrusions on the neck of the extraosseous part and the number of grooves in the cervical cavity is selected from a ratio of 1: 1, or 1: 2, or 1: 3.

The neck of the extraosseous part and, accordingly, the cervical cavity inside the bone part are made cylindrical or conical.

The neck length of the extraosseous part is made equal to the depth of the cervical cavity of the intraosseous part.

The inventive implant is easier to manufacture and install; the design of congruent connecting surfaces ensures their tight fit, eliminating the ingress of food debris and the development of microorganisms in them; the shape of the connecting surfaces, made according to a given size ratio, ensures smooth transitions between the elements that make up the congruent landing surfaces of the interface, eliminates the fracture of the walls of the cervical cavity due to the optimal distribution of the chewing load on the bone tissue and on the walls of the cervical cavity. Such an implant can later be used to support orthopedic structures of various geometric sizes.

The essence of the utility model is illustrated by graphic materials, where figure 1 shows the extraosseous and intraosseous parts of the implant with cylindrical connecting surfaces; figure 2 is the same with conical connecting surfaces and increased by 2 times the number of protrusions on the neck and grooves in the cervical cavity.

A dental screw implant contains an extraosseous part 1 and an intraosseous part 3 with a cervical cavity 4 and an internal threaded hole 5 for a screw, an apical shank 6 with a thread and a flat, connected to it via a neck 2 and a screw (not shown). The neck 2 is installed in the cervical plane 4 by pairing the congruent landing surfaces of a plurality of protrusions 7 on the neck 2 of the extraosseous part 1 and accordingly a plurality of grooves 8 of the cervical cavity 4. The grooves 8 are made with a length of L ₁ equal to the depth L _{2 of the} cervical cavity 4, and each with a radius R ₂

with the center O ¹ diametrically offset from the center O of the cervical cavity 4, made with a radius R ₁ , by a value of 0.5 ÷ 5 mm, and selected from the ratio R ₁ : R ₂ from 1.9: 1 to 1 ÷ 2.19, mainly R ₁ : R ₂ = 1.17, where R ₁ is the radius of the cervical cavity, and R ₂ is the radius of the congruent landing surfaces of the protrusion and, accordingly, of the groove. The grooves and protrusions are evenly spaced around the corresponding circumference, there can be an equal number of them on the inside and outside of the bone part, for example, three (placed at an angle of 120 ° degrees, four (placed at an angle of 90 °), five (at an angle of 72 °), six (at an angle of 60 °), etc., depending on the geometric parameters of the implant.The displacement of the centers of the protrusions and grooves relative to the centers of the neck and cervical cavity by the specified value is due to the geometric dimensions of the implant and the need to ensure smooth transitions between areas of the implant surface displacement during their manufacture: a shift of these centers by less than 0.5 mm reduces the antirotational effect; an increase of more than 5 mm with such small implant diameters used in dentistry (3-6 mm) is technologically impossible (cutting of the walls of the cervical cavity the protrusions 7) on the neck 2 of the extraosseous part 1 are made with a length L ₁ equal to the depth L _{2 of the} cervical cavity 4 of the intraosseous part 3, respectively, with a length equal to the length of the grooves 8, the deviation can be no more than 0.1 mm.

The neck 2 of the extraosseous part 1 and, accordingly, the cervical cavity 4 of the intraosseous part 3 can be made cylindrical (protrusions — grooves — semicircular). The neck and cervical cavity can be made conical with a taper angle, for example, 15-30 ° to the longitudinal axis.

The implant can be made of various sizes both in diameter and length.

To install the implant in the oral cavity under local anesthesia, a channel is formed (drilled) into which the implant is installed (screwed in) using a special key that is attached to the inside by analogy with the superstructure, and then, after installation, it is disconnected.

An implant of the described form allows its introduction even to a novice dentist, evenly distributes chewing pressure, has a large area of support on bone tissue, sufficient resistance to repeated cyclic loads with the exception of violations of the cervical part and the necessary anti-rotation mechanism with a sufficient number of options for positioning the suprastructure relative to the extraosseous part.

Prototypes of the dental implant described above were manufactured and tested in laboratory conditions on models. N.Novgorod. Tests confirmed the simplicity of manufacturing and installation of the product, the reliability of the implant and confirmed the possibility of its use for the rehabilitation of patients with partial or full adentia.

The proposed implant design optimizes the osseointegration process.

Claims (5)

1. A dental implant screw containing an extraosseous part and an intraosseous part with a cervical cavity and an internal threaded hole for a screw, an apical shank with a thread and a flat, connected to it by means of its neck and screw, the neck being installed in the cervical cavity by interfacing congruent landing surfaces of a plurality protrusions on the neck of the extraosseous part and, accordingly, many grooves of the cervical cavity, characterized in that the grooves are made in length equal to the depth of the cervical cavity, and dy radius R ₂ centered diametrically offset from the center of the cervical cavity, the radius R _1, the magnitude 0,5 ÷ 5 mm, and the selected ratio of R _1: R ₂ of 1,9 ÷ 1 to 1 ÷ 2,19, where R ₁ is the radius of the cervical cavity, and R ₂ is the radius of the congruent landing surfaces of the protrusion and, accordingly, the groove. 2. The implant according to claim 1, characterized in that the protrusions on the neck of the extraosseous part are made with a length equal to the depth of the cervical cavity of the intraosseous part. 3. The implant according to claim 2, characterized in that the number of protrusions on the neck of the extraosseous part and the number of grooves in the cervical cavity are selected from a ratio of 1: 1. 4. The implant according to any one of claims 1 or 3, characterized in that the neck of the extraosseous part and, accordingly, the cervical cavity inside the bone part are cylindrical or conical. 5. The implant according to claim 4, characterized in that the neck length of the extraosseous part is made equal to the depth of the cervical cavity of the intraosseous part.