RU2711546C1 - Basal implant - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: declared group of inventions refers to medicine, namely to a basal implant and a method for installing the declared basal implant. Implant comprises implant body (A). On the body there provided is surface section of support head (B) having the shape of truncated cone with height of 7.5 mm and having two splines for fixing the setting key. Upper diameter of support head (D4) has size of 2.1 mm. Lower diameter of the support head of the basal implant (D5) has a size determined by the specified taper of the support head. On the body there is neck section (E). Width of neck (E) is 2–5 mm, and neck diameter (D3) is less than inner diameter of implant body (D2) by 0.1–0.2 mm. Body has a middle part of the body of the implant (F) having a helical or cylindrical thread with an outer diameter (D1) and an inner diameter (D2). Length of the middle part of the body of the implant (F) changes from 0 mm in increments of 2 mm to the required size. External diameter (D1) of the middle part of the body of the implant (F) is less than the diameter (DO) of the following main thread (C) by 0.6–1 mm. Body contains the main threaded part of the implant (C). Diameter of main thread (C) varies from 4 to 6 mm, wherein length of main thread (C) is constant and is 5–7 mm. Body has a section of the body diameter of the implant (D2) having size of 2 to 2.5 mm. End portion of the implant (G) is provided on the body, which enters the basal bone, and if necessary, into the cortical layer of bone and is fixed therein. Length of end part (G) is not more than 2 mm, and upper diameter (D6) of end part of thread is less than diameter (DO) of main thread. Method for installing the declared basal implant involves performing a diagnostic procedure, selecting optimum sizes of the basal implant in accordance with the process parameters and bone structure, as well as setting in the required position in accordance with the diagnostic procedure results.EFFECT: simple technique of implant installation, reduced risks for patients and higher safety for doctor and patient, as well as higher stability of fastening and maximum effective use of patient's bone.12 cl, 6 dwg

Description

The claimed group of inventions relates to medicine, namely to dentistry, namely to the field of dental implants.

A significant number of dental implants are known from the prior art (see patent RU 2426516 C2, publ. 08/20/2011, patent RU 2612487 C2, publ. 09.03.2017). So, for example, from the patent DE 3735378 C2, a dental implant with an anchoring device is known, which consists of an elongated cylindrical main body, the thread of which ends slightly on the cone in the lower part. From WO 2004/098442, a screw implant is known in which groove-like cutouts are driven into threads with a relatively large pitch; while the cuts expand in the direction of rotation of the thread and create the so-called "micro-thread" in order to increase the contact area between the implant and bone tissue. The threaded pin itself is mostly cylindrical and the thread on it is not expandable.

The aim of the development of this basal implant is to create a basal implant design that eliminates the disadvantages of known implants and facilitates its installation. The proposed implant design greatly simplifies the implant placement technique, reducing the risk for patients, while ensuring the most efficient use of the patient’s bone.

Moreover, the basal implant (see Fig. 1) contains the implant body (A), and the following surface sections are provided on the body: a support head (B), having the shape of a truncated cone 7.5 mm high with two longitudinal slots or with a square part for fixing the installation key, and the upper diameter of the support head (D4) has a size of 2.1 mm, and the lower diameter of the support head of the basal implant (D5) has a size determined by the specified taper of the support head;

a neck (E), designed to facilitate, if necessary, bending the support head relative to the axis of the body of the implant (A) when installing it; moreover, the size of the neck E is 2-5 mm, and the diameter of the neck (D3) is 0.1-0.2 mm smaller than the inner diameter of the middle part (D2);

auxiliary thread (F) on the middle part of the implant body with an external diameter (D1) and internal diameter (D2), designed to improve bone tissue growth on the implant after its installation, and the length of the auxiliary thread (F) can vary from 0 mm in 2 mm increments to the required size, and the outer diameter D1 of the middle part of the implant body (F) is less than the diameter D0 of the next main thread (C) by 0.6-1 mm;

the main threaded part of the implant (C), designed to screw the implant into the jaw bone when it is installed, the diameter of the main thread (C) has a number of sizes from 4 to 6 mm used depending on the nature and condition of the jaw bone of the patient, and the length of the main thread ( C) is constant for a given implant size and can be 5-7 mm;

implant body diameter (D2) having a size of 2 to 2.5 mm depending on the diameter (D0);

the end part of the implant (G), which enters the basal bone and then, if necessary, into the cortical layer of the bone and is fixed there, and the length of the end part (G) is not more than 2 mm to avoid deep or through penetration of the implant into the cortical layer, with the upper diameter D6 of the end of the thread is smaller than the diameter D0 of the main thread to stop the penetration of the end of the implant (G) into the cortical layer.

In this case, the upper part of the support head can take the form of a square conditionally inscribed in a circle with a diameter (D4) (see Fig. 2) or a circle with a diameter of (D4) (see Fig. 3).

The shape of the main thread (C) can be made with sharp flanges according to the type of thread of the spongy screw or have a type of thread with rounded flanges.

The end part of the implant (G) can be made in the form of a smooth cone or in the form of a tapered thread or in the form of a drill according to the type of self-tapping drill. In this case, the main thread (C) can be single-thread or double-thread. In this case, the lower diameter of the support head of the basal implant (D5) may have a size determined by the specified taper 1: 7 of the support head.

The installation method of the basal implant according to paragraphs. 1-11 of the formula provides for the use of the entire bone architectonics of the jaw (alveolar bone, basal bone and cortical layer). The method allows to avoid the bone tissue transplantation procedure for building it up at the implant placement site, as is done with traditional methods of implant placement, and thereby makes it possible to install the implant and crown on it, and as a result, the finished tooth, for one visit to the dentist. Features of the control of implant penetration into the bone architectonics of the jaw make the claimed implant easily and safely applicable even to inexperienced dentists. The installation method of the claimed basal implant includes a diagnostic procedure, experimental selection of the optimal size of the basal implant in accordance with the technological parameters and bone structure, as well as installing the implant in the desired position relative to the jaw bone in accordance with the results of the diagnostic procedure.

Thus, the first of the introduced structural changes is the presence of the end part of the implant with a sharp tip and a sufficiently small diameter, which facilitates puncture of the cortical layer of the bone, since the small diameter and pointedness of the tip reduces resistance when screwing the implant and reduces the risk of bone damage compared to larger threads diameter. In addition, the end part of the implant with a sharp tip and small diameter is the only element of the implant design that can remain in the cortical layer of the bone, relieving the patient of large deformations of the skeletal tissue, causing intraosseous edema and postoperative pain. This difference is extremely important, since for the correct use of basal implants it is always necessary to strive to ensure that their end part is fixed in the cortical layer of the bone. Since the diameter of the end portion is very small and its length is 2 mm, doctors are not afraid to penetrate the cortical layer of the bone with this implant. The second difference, which is the difference in the diameters of the end part and the main thread, makes the entire implant installation process safer for the doctor and patient, because the diameter of the main thread located in front of the end part is larger than the diameter of the end part, which allows you to safely stop the end part of the implant in the cortical a layer of bone, excluding its through piercing. This was confirmed by tests conducted on the jaw bone of a pig: the end part of the implant in the form of a small conical thread when it was screwed in easily entered the bone without causing its destruction, and stopped when the main thread (C) abut against the bone. A large axial force was required to screw the main thread further into the bone. Thus, the fixation of the implant in the jawbone becomes much more stable. The third design difference with respect to other implants that already exist on the market is the availability of auxiliary screw or cylindrical threading. Some manufacturers make threads the entire length of the implant, leaving only a small part of the body smooth, while for other manufacturers, threads are only at the end of the implant, leaving most of the surface smooth. In the claimed basal implant, auxiliary cutting reaches almost to the support head, leaving no part of the implant body smooth. Moreover, the auxiliary threaded or cylindrical thread, having a diameter less than the main thread, does not complicate the process of screwing the implant into the jaw bone. The presence of auxiliary cutting makes the connection of the implant with the bone mechanically stronger initially, while the implant has not yet overgrown with bone tissue, and even more so when this part of the implant is covered with bone tissue. Thus, as this cut is fouled with bone tissue, the fixation of the implant will be enhanced due to the increased surface of its contact with the bone. If the surface is smooth, as with some well-known analogues, then this effect cannot be achieved.

The fourth design feature of the proposed technical solution is the presence of a neck in the form of a groove between the implant body and its support head. In the process of implant placement, the neck facilitates the bending of the support head relative to the axis of the implant while adjusting its orientation relative to the jaw bone and other teeth of the patient.

Thus, the technical result achieved from the implementation of the claimed group of inventions is to simplify the installation of the implant, to reduce risks for patients and increase safety for the doctor and patient, as well as to increase the stability of fixation and the most efficient use of the patient’s bone.

Claims (18)

1. A basal implant comprising an implant body (A), the following surface areas being provided on the body: a support head (B) having the shape of a truncated cone 7.5 mm high with two slots expanding to the bottom for fixing the installation key, the upper diameter of the support head (D4) having a size of 2.1 mm, the lower diameter of the supporting head of the basal implant (D5 ) has a size determined by a given taper of the support head; the neck (E), and the width of the neck E is 2-5 mm, and the diameter of the neck (D3) is 0.1-0.2 mm less than the internal diameter of the body of the implant (D2); the middle part of the body of the implant (F), having a helical or cylindrical thread with an outer diameter (D1) and an inner diameter (D2), the length of the middle part of the body of the implant (F) changing from 0 mm in 2 mm increments to the required size, the outer diameter ( D1) the middle part of the body of the implant (F) is less than the diameter (DO) of the next main thread (C) by 0.6-1 mm; the main threaded part of the implant (C), and the diameter of the main thread (C) varies from 4 to 6 mm, and the length of the main thread (C) is constant and is 5-7 mm; implant body diameter (D2) having a size of from 2 to 2.5 mm; the end part of the implant (G), which enters the basal bone and then, if necessary, into the cortical bone layer and is fixed there, and the length of the end part (G) is no more than 2 mm, and the upper diameter (D6) of the end part of the thread is less than the diameter (DO ) main thread. 2. The basal implant according to claim 1, characterized in that the shape of the upper part of the support head has the form of a square conditionally inscribed in a circle with a diameter (D4). 3. The basal implant according to claim 1, characterized in that the shape of the upper part of the support head has the form of a circle with a diameter (D4). 4. The basal implant according to paragraphs. 1-3, characterized in that the shape of the main thread (C) is made with sharp ridges in the type of thread spongy screw. 5. The basal implant according to paragraphs. 1-3, characterized in that the shape of the main thread (C) has a type of thread with rounded ridges. 6. The basal implant according to paragraphs. 1-5, characterized in that the end part of the implant (G) is made in the form of a smooth cone. 7. The basal implant according to paragraphs. 1-5, characterized in that the end part of the implant (G) is made in the form of a tapered thread. 8. The basal implant according to paragraphs. 1-5, characterized in that the end part of the implant (G) is made in the form of a drill according to the type of self-tapping drill. 9. The basal implant according to paragraphs. 1-8, characterized in that the main thread (C) is a single start. 10. The basal implant according to paragraphs. 1-8, characterized in that the main thread (C) is two-way. 11. The basal implant according to paragraphs. 1-10, characterized in that the lower diameter of the support head of the basal implant (D5) has a size determined by the specified taper 1: 7 of the support head. 12. The installation method of the claimed basal implant according to paragraphs. 1-11, which consists in carrying out a diagnostic procedure, selecting the optimal size of the basal implant in accordance with the technological parameters and bone structure, as well as installing it in the required position in accordance with the results of the diagnostic procedure.

Images