RU30262U1 - DENTAL IMPLANT - Google Patents

Description

The proposed utility model relates to medicine, in

in particular to endosseous dental implants and may

find application in prosthetics.

It is known that certain variants of the anatomical structure of completely toothless jaws, in particular, with a high degree of atrophy of the alveolar process (alveolar part), exclude the full fixation of complete removable dentures, which makes dental prosthetics of this category of patients ineffective with traditional designs.

Solving this problem, specialists strive to create elements that hold the removable prosthesis, fixed on intraosseous implants.

A universal fixing system for a denture 1 is known, which serves to attach a dental implant to a denture. The system comprises an implant insert, a first longitudinal axis and able to reliably engage with a denture, a universal connecting part for interconnecting implant inserts and a prosthesis, a device

For reliable fixation of the universal connecting part for maintaining a given angular arrangement of the nerve and second axes, a ball located at the upper end of the implant insert, a connecting sleeve located at the lower end of the denture insert, into which the ball fits tightly, which ensures interconnection of the implant inserts and the prosthesis and closure of dentition.

The prosthesis insert and the expansion joint are insulated longitudinally into two halves, one from the other, and are connected by a thread to the part. This fastener tightly tightens the halves of the coupling around the ball, which prevents their relative displacement.

A disadvantage of the known system is the presence of a shoulder dislocating force in the form of the supragingival part of the implant, which contributes to its loosening. In addition, there is the possibility of destruction of the implant fastener, the replacement of which requires the removal of the implant from the bone bed.

The closest technical solution to the proposed utility model is the known dental implant 2, consisting of an intraosseous part - a body with an external thread that interacts with the bone tissue of the implant bed, connected by a thread to the supragingival part, which is a spherical head, which is through the neck and transitional

the cylinder (cone) passes into a pin having an external thread, with which it is attached to the axial channel of the intraosseous part of the implant.

This implant, interacting with an elastic sleeve fixed in the base of a removable prosthesis, ensures its stabilization in the oral cavity both at rest and during function.

The implant adopted as a prototype has a number of disadvantages that reduce its functional value, which include: the possibility of loosening the implant due to significant lateral loads on its supra-gingival part, for the same reason, the risk of neck fracture, which can cause the implant to be removed .

The main task, which the utility model aims to solve, is to reduce the risk of peri-implant bone resorption and destruction of the structural elements of the implant by optimizing the distribution of the existing lateral and tangential loads on the implant that arise during chewing.

The task is achieved using a constructive implementation of a dental implant, which, like the prototype, contains interconnected intraosseous part made in the form of a cylinder with an external thread, and a supragingival part consisting of a base, neck and spherical head.

In contrast to the prototype, in the proposed dental implant, the posterior and supra-gingival parts of the connective are interconnected, and in the part of the cylinder facing the oral cavity and located above the level of the gum, an inlet opening is made, passing into a spherical cavity whose diameter exceeds the diameter of the inlet, the base, the neck and the spherical head of the supragingival part are made of damping material with hardness HB 24-40, for example, Teflon.

The essence of the proposed model lies in the fact that the intraosseous part and the supragingival part of the implant are interconnected demountably and resiliently, and not rigidly, as in the prototype, being respectively the patrix and matrix parts of the detachable joint. At the same time, the supra-gingival part, as a separate part, is designed to be fixed in the basis of a removable prosthesis and is made of a material with damping properties and the ability to repeatedly elastic deformation, for example, Teflon. In the part of the implant cylinder facing the oral cavity and located above the gum level, an inlet is made that passes into a spherical cavity whose diameter exceeds the diameter of the inlet. The difference in the diameters of the inlet and the spherical cavity, as well as the elastic properties of the supragingival part, provide both sufficient bond strength and the ability to disconnect the elements with the application

efforts that are safe in terms of trauma to peri-implant tissues and the resolution of interacting parts.

The elevation of the implant above the gingival surface, set within the specified limits, minimizes the shoulder of the dislocating force acting on the implant during chewing movements of the prosthesis.

The implementation of the extra-gingival part of Teflon with a hardness of HB 2440 provides optimal damping properties and increases the service life of the joint, and in case of failure, the supra-gingival part is easily replaced without removing the implant.

The difference in the diameters of the inlet and the spherical matrix cavity made in the cylindrical body of the implant is selected from the conditions of working movements of the supragingival part in the process of connecting and disconnecting the elements, as well as during chewing within the damping and deformation capabilities of the material of the supragingival part.

The symmetric shape of the supragingival part, the implant body, the matrix cavity and the location of the latter on the axis of symmetry of the implant provide an even distribution of the lateral chewing pressure components and a decrease in the specific mechanical loads on the bone tissue.

The invention is illustrated in the drawing, where in Fig.1 - shows a General view of the implant assembly, in Fig.2 - the intraosseous part of the implant, in Fig. 3 - supragingival part of the implant.

The implant contains a housing 1 with a thread 2 on the outer surface and a matrix cavity 3 with an inlet 4 in the end part 5 facing the oral cavity and located above the level of the gums.

The matrix cavity 3 has a spherical shape, the inlet 4 is round in shape with a ratio of sizes, providing them with an excess of the diameter of the spherical cavity 3 of the diameter of the inlet 4, the supragingival part 6 has a spherical head 7, a neck 8 and a base 9 of cylindrical shape. The diameter of the spherical head 7 exceeds the diameter of the inlet 4, the diameter of the neck 8 is less than the diameter of the spherical head 7, while the diameter of the base 9 exceeds the diameter of the spherical head 7.

A dental implant works as a follower; by it.

After anesthesia, the bone of the upper or lower jaw is skeletonized, and a receptive bed is prepared in the bone tissue, into which the implant is placed. After fixing the implant body 1 in the bed, the matrix cavity 3 and the inlet 4 are closed by a plug (not shown in the drawing). Mucocutaneous flaps adapt to the neck 8 of the implant and are fixed with interrupted sutramid sutures. In this case, the end face of the implant remains open and is located in height at the level of the surface and gums. Sutures are removed 7-8 days after surgery. Implant

is in the bone tissue without load for 2-3 months when installed in the lower jaw and 5-6 months - in the upper. After this period of time, a stub is removed from the implant, a removable prosthesis is made with a supragingival part fixed in the base, and the implant subsequently serves as a stabilizer for a complete removable prosthesis.

The implementation of the utility model, due to the design features of the device and additional damping; with its property of the material of the supragingival part due to elastic deformation, allows to reduce the traumatic effect of chewing pressure on peri-implant bone tissue, reduce the rate of bone resorption and extend the life of the implant and denture.

sources of information

1.USA, patent No. 4907969, IPC: A 61C 8/00, 1991

2. Product catalog ANKYLOS-Imhlantat-Systeem from Degussa, August 1997, p. 7 is a prototype.

Claims (1)

A dental implant containing interconnected intraosseous part made in the form of a cylinder with an external thread and an extra-gingival part consisting of a base, neck and spherical head, characterized in that the intraosseous and supra-gingival parts are interconnected detachably, and in the cylinder part facing in the direction of the oral cavity and the gum located above the level, an inlet is made that passes into a spherical cavity, the diameter of which exceeds the diameter of the inlet, with the base, neck and spherical head on the gingival parts of the implant are made of damping material with a hardness of HB 24-4-, for example, Teflon.