RU2581263C1 - Implants to replace incomplete mandible and alveolar bone - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to a dental surgery, and can be used to replace the incomplete bone defects of the jaws and alveolar bone after removal of benign tumors, with osteomyelitis processes gunshot injuries. Implant to replace the incomplete mandible and alveolar bone made of powdered titanium brand PTOM-100 microns or stainless steel AISI 316L, has a honeycomb structure, conforms to the shape of the postoperative defect repeats the anatomical structure of the body of the mandible and the alveolar bone, bordered by solid titanium or steel semi-frame the letter "U". On top of the steel semi-frame stationary fixed support element for any types of dentures, on the sides semi-frame fixedly arranged two fixing plate with holes for screws, and the third retainer plate positioned and fixedly secured to the lower portion of the outer surface of the cell structure of the implant.

EFFECT: invention allows the prevention of complications, and increase the strength of fixation of the implant to reduce the time of surgical intervention due to lack of modeling the implant during surgery.

1 cl, 2 dwg

Description

The invention relates to medicine, namely to surgical dentistry, and can be used to replace incomplete bone defects in the jaw (resection block) and alveolar bone after removal of benign tumors, in osteomyelitis processes, gunshot lesions.

A known implant for replacing defects of the lower jaw is made of carbon material, called "Carbon-M", consisting of carbon fiber and pyrocarbon, which is attached to the bone using a bone suture made of tantalum wire (GI Straube. "The use of carbon implants in of maxillofacial surgery. "Doct. diss., Perm. 2001.280 p.).

The disadvantages were the presence of complications: perforation of the oral mucosa, rejection of the carbon implant, staining of soft tissues in the area of the implant, difficulties associated with the Uglekon-M treatment during surgery, insufficient fixation of the implant, lack of supporting elements for the bridge.

Effect: prevention of complications and increase the strength of fixation of the implant, reducing the time of surgical intervention due to the lack of modeling of the implant during surgery.

The indicated result is carried out using an implant consisting of cells of the correct geometric shape, corresponding to the shape of the postoperative defect, repeating the anatomical structure of the body of the lower jaw and the alveolar process, bordered by a solid metal half-frame in the form of the letter “P”, on which there is a supporting element under the bridge and two plates with holes for screws for fixation, and the third fixing plate is placed and rigidly bonded to the lower part of the outer surface of the cellular structure implant. The implant is made using the technology of visualization of three-dimensional computer-aided design systems (CAD system, Georgia Institute of Technology, USA) from PTOM-100 micron powder titanium or AISI 316L stainless steel.

The device is shown in the drawing, where in FIG. 1 shows an implant to replace incomplete defects of the lower jaw and alveolar process, corresponding to the shape of the postoperative defect and repeating the anatomical structure of the body of the lower jaw and alveolar process; in FIG. 2 - the implant is placed in a postoperative defect and fixed.

The implant is a cellular structure 1, which corresponds to the resulting postoperative defect (Fig. 1), repeats the anatomical structure of the body of the lower jaw and alveolar bone. The cellular structure is bordered with a solid metal half-frame 2 in the form of the letter "P", on the upper part of which the supporting element 3 is fixedly fixed for any kind of prosthesis, and three fixed plates 4 with holes 5 for screws for fixing the implant. The implant is made using the technology of visualization of three-dimensional systems (3D diagnostics) of computer design from powdered titanium of the PTOM-100 micron grade or AISI 316L stainless steel and has a cellular structure with cell sizes from 0.5 mm to 1 mm, corresponds to the shape of the postoperative defect, repeats anatomical structure of the body of the lower jaw and alveolar process.

The implant 1 is implanted as follows: after block resection of the alveolar process and the lower jaw body while removing a benign tumor, the implant is inserted into the resulting defect in the bone of the lower jaw so that the half frame 2 is located on the buccal side, then future holes for screws are marked on the jaw bone according to the projection holes 5 on the fixing plates 4, using a drill to form them and fix the implant with screws made of the same material.

The supporting element 3 under the prosthesis through the incision in the mucosa is removed into the oral cavity and the mucosa is sutured using triangular flaps (Fig. 2).

The positive effect of this type of implantation is to prevent complications and increase the strength of fixation of the implant, reduce the time of surgical intervention due to the lack of modeling of the implant during surgery, the presence of a support element for any types of prostheses.

Claims (1)

An implant for replacing incomplete defects of the lower jaw and alveolar ridge, made of a biocompatible material, characterized in that it is made of PTOM-100 micron powder titanium or AISI 316L stainless steel, has a cellular structure, corresponds to the shape of the postoperative defect, repeats the anatomical structure of the body lower jaw and alveolar ridge, bordered by a solid titanium or steel half-frame in the form of the letter "P", on the upper part of which the supporting element is fixedly fixed for any kind prostheses, on the sides of Half Frame fixedly arranged two fixing plate with holes for screws, and the third locking plate arranged and rigidly fastened to the lower part of the outer surface of the honeycomb structure of the implant.

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