RU80335U1 - DENTAL IMPLANT - Google Patents

Abstract

The utility model relates to the field of dental implantology.

A screw dental implant contains a housing 1, a head 2 and a screw connecting them 3. The housing 1 has a mating seating surface in the form of a regular twelve-pointed truncated pyramid, and head 2 has a mating seating surface in the form of a regular hexagonal truncated pyramid, forming an anti-rotation assembly that eliminates the angular rotation and increases the reliability of a screw dental implant. Self-tapping or trapezoidal carving optimizes the ingrowth of new bone tissue between the thread and the surrounding bone tissue.

Description

The utility model relates to the field of dental implantology, namely to the design of a prefabricated screw dental implant and is intended for use in surgical and orthopedic dentistry.

The closest to the technical solution of the problem is the design of a screw dental implant containing a body and a head made with a central hole and paired landing surfaces in the form of a regular n-angular truncated pyramid connecting their screw and a thread on the outer surface of the case (RF Patent No. 26325 publ. 10/20/2005).

The disadvantages of this design of a screw dental implant are:

- the use as a mating landing surface in the form of a truncated elliptical cone is insufficient to create a reliable fixation of the housing and head;

- the use as regular n - angular truncated pyramids as the mating surfaces with the same number of corners of the body and head does not exclude the angular rotation of the dental screw implant at various loads on its head.

The technical task, utility model, is to create a new design of a dental screw implant in order to exclude its angular rotation, increasing load capacity and reliability.

The technical result, according to the utility model, is the exclusion of rotation of the dental screw implant, due to the implementation of the conjugate landing surface of the body in the form of a regular twelve-pointed truncated pyramid, and the mating landing surface of the head is made in the form of a regular hexagonal truncated pyramid; while on the outer surface of the body is made self-tapping or trapezoidal thread; the outer surface of the body is made rough.

The utility model is illustrated by drawings:

figure 1 is a General view of the design of a screw dental implant;

figure 2 is a cross-section along aa, conjugation in the form of regular truncated pyramids with a base in the form of a dodecahedron of the body and with a base in the form of a hexagon of the head;

figure 3 is a view of the I trapezoidal thread, antirotational element of the head pair in the form of a truncated cone with a base in the form of a 6-sided;

The screw implant contains a housing 1, a head 2 and a screw 3 connecting them (Fig. 1). The case has an opening in the form of a regular twelve-pointed truncated pyramid (not shown in Fig. 1), and the conjugate landing surface of the head 2 is made in the form of a regular hexagonal truncated pyramid 5, when assembled, they form an anti-rotation assembly, which eliminates the loosening of the preliminary tightening of screw 3, i.e. increases the reliability of a screw dental implant.

A trapezoidal thread is made on the outer surface of the body 1, which allows optimizing the growth of new bone tissue between the threads on the outer surface of the body 1.

The outer surface of the body 1 is made rough, which allows to increase the area of interaction of bone tissue and the body 1.

A screw dental implant is implanted as follows.

After local anesthesia, the gums are cut and the periosteum is peeled off, a hole with a diameter of 3.5 mm and a depth of up to 50.0 mm is made with a special dental bur and with a torque wrench, and in the course of a self-cutting or trapezoidal thread, screw the body of a 1 dental dental implant with a plug (conjugate landing surface case 1 is made in the form of a regular twelve-pointed truncated pyramid). The wound is sutured tightly.

3-6 months after the operation and x-ray control, under local anesthesia, the plug is removed and the implant head 2 is installed (the conjugate seating surface of the head is made in the form of a regular hexagonal truncated pyramid), after which the necessary orthopedic measures are carried out.

According to a utility model, a screw dental implant was implanted in 10 patients (a total of 12 implants) with the achievement of positive results: not a single patient had angular rotation with a follow-up period of 1 year to 2 years.

Claims (1)

A screw dental implant comprising a housing and a head made with a central hole for the screw and mating seating surfaces in the form of a regular n-angular truncated pyramid connecting the screw and thread on the outer surface of the housing, characterized in that the mating landing surface of the housing is made in the form of a regular a twelve-pointed truncated pyramid, and the conjugate landing surface of the head is made in the form of a regular hexagonal truncated pyramid; at the same time, a self-tapping or trapezoidal thread is made on the outer surface of the housing, the outer surface of the housing is roughened.