RU75567U1 - DENTAL IMPLANT - Google Patents

Abstract

"Dental implant" refers to medicine and can be used in dentistry, mainly for restoring dentitions using prostheses based on implants. The dental implant contains an intra-maxillary rod coated with calcium hydroxyapatite, and an intraoral head connected inseparably or detachably, by means of a thread, to the intra-maxillary shaft, and also a spacer screw, wherein the intra-maxillary shaft is made with an external groove, dividing it about half in length, one part of which inside it is made cylindrical and threaded for an expansion screw, and its other part has a conical inner surface and is cut in planes coinciding with the axis of the rod. The use of an implant with an adjustable memory element in orthopedics increases the contact area of the rod with the bone tissue and increases the strength of its fixation in the jaw while minimizing the impact on the jaw bone, as well as time and labor costs.

Description

The useful model “Dental implant” refers to medicine and can be used in dentistry, mainly for restoring dentitions using dentures based on implants.

Known "Intracostal root osteoconductive dental implant and material for its manufacture" [1], containing the root porous, internal, and coronal parts, made as a unit on a single osteoconductive silicate matrix with a porosity gradient differentiated by the height of the implant 5 ÷ 60% due to distribution of calcium phosphates, while the porosity gradient of the coronal part is 5 ÷ 10%, internal - 20 ÷ 50% and root 40 ÷ 60%. The configuration of the extracted tooth or its root, which is installed directly into the hole of the extracted tooth without its destruction, is provided by the periodontal type of fusion of the implant material with the walls of the dental alveoli. Composite material for the manufacture of the implant includes hydroxyapatite, tricalcium phosphate, fluorapatite and osteoconductive silicate matrix with a total content of components in the matrix of 40 ÷ 60% by weight, including: hydroxyapatite - 15 ÷ 20%; tricalcium phosphate - 15 ÷ 20%; fluorapatite 10 ÷ 15%. Italicized - features common to the subject of a utility model.

The disadvantages of the known implant is the weak mechanical connection of the implant with the bone tissue at the site of its landing, which is associated with limited splicing of the implant material with the walls of the dental alveoli and bone tissue.

Known as being closer to the subject of the claimed utility model, a “Dental implant” [2], containing an intra-maxillary rod, mainly from BT 1-0, and an intraoral head, both elements are connected by thread. The shape of the intraoral support provides the installation of an artificial tooth with an arbitrary inclination, and the shape of the intra-maxillary shaft - reducing tissue trauma in the well of the alveolar process. This dental implant also provides replacement of the orthopedic structure mounted on the intraoral support without using composite

materials in cases of failure or functional unsuitability of the implant. Application of a coating of calcium hydroxyapatite to the surface of the titanium intra-maxillary rod increases the biocompatibility of the implant with the bone tissue of the alveolar bone of the jaw. Italicized - features common to the subject of a utility model.

The disadvantages of the known implant are the weak mechanical connection of the implant with the bone tissue at the site of its landing and the limited surface of the fusion of the implant material with the walls of the dental alveoli and bone tissue.

A common disadvantage of the above implants is the limited mechanical bond strength of the implant with bone tissue.

The objective of the utility model is to increase the contact area and the strength of the mechanical connection of the implant with bone tissue.

The technical solution to the problem is to increase the area of contact of the implant with the bone tissue, by increasing the outer diameter of the part embedded in the bone, and accelerate the coalescence of the material of the implant with the bone tissue, for which a dental implant containing an intra-maxillary rod made in the form close to the cylinder ( with thread on the surface or without it), and an intraoral head with a one-piece or detachable threaded connection with an intra-maxillary rod, an additional screw is inserted, and the intra-maxillary erased The shaft has an annular external groove dividing the mandibular shaft approximately in half, the inner cavity of the upper part of which is cylindrical and with a thread in diameter and pitch coinciding with the thread of the expansion screw, and the lower part is made with a cut extending beyond the annular external groove, and the inner surface of the lower part the mandibular rod is made conical.

Figure 1 shows the design of the dental implant, and figure 2. - its view in section AA.

The dental implant contains an intra-maxillary shaft 1, coated with calcium hydroxyapatite, and an expansion screw 2 in contact with a threaded connection with the inner surface of the part of the maxillary shaft, the mandibular shaft on the outer surface has a groove 3, the inner

the surface of its part is cylindrical and with thread 4, the inner surface 5 of the other part of the intraosseous rod is conical and with a cut 6 to the groove 3, and the spacer screw has a spherical stop 7 at one end and a slot 8 at the other end, and an external surface 9 of the maxillary rod initially cylindrical and with or without thread.

The dental implant, by the intra-maxillary shaft 1, is inserted or screwed, along the thread 9, into the jawbone, and by the spacer screw 2, by screwing it into the shaft, along the thread 4, and the divergence of the incision 6, is fixed in the jawbone. This increases the diameter D _to (relative to the original D _and ), the area of contact of the rod with bone tissue and increases the strength of the mechanical connection of the implant with the jawbone, and the pressure of the implant on the bone remains stable. In the future, due to the coating of calcium hydroxyapatite, additional strengthening of the connection of the intra-maxillary part of the implant with the jaw bone is provided. The spacer screw 2, moving along the thread 4, provides a gentle effect on the jaw bone.

The use of an implant with an expanding memory element in orthopedics increases the strength of its fixation in the jaw while minimizing trauma to the jaw bone and reducing time and labor costs.

Information sources:

1. Patents EP 0438048 and US 4960381;

2. Patent RU 2182817, A61C 8/00, A61K 6/00, 2002.05.27;

3. Patent RU 2140227, А61С 8/00, 1999.10.27.

Claims (1)

A dental implant comprising an intra-maxillary shaft, made in a shape close to the cylinder, and an intraoral head with a one-piece or detachable threaded connection with an intra-maxillary shaft, characterized in that an expansion screw is additionally inserted into it, and the intra-maxillary shaft has an annular external groove separating the mandibular shaft approximately in half, the inner cavity of one part of which is cylindrical and with a thread in diameter and pitch that matches the thread of the spacer screw, and the other part with erzhnya formed with a slit to the ring groove, wherein the inner surface of this part of the rod is conical.