RU2011106453A - METHOD FOR INCREASING DURABILITY OF THE DENTAL PROSTHESIS USING IMPLANTS AND MICRO-IMPORTATION ELEMENTS AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

 1. A method of increasing the durability of a denture using implants and microamortization elements, which is a two-stage procedure, consisting first of the surgical and then orthopedic stages, including the installation of implants at the surgical stage in the patient’s jaw bone, screwing screw plugs through their outer ends and suturing over them of gingival tissue, and after implant engraftment, the number of which from one or more corresponds to the specific task of prosthetics of this patient, to orthop at the unloading stage, opening the gingival tissue over the implants, unscrewing the screw plugs from them, screwing in the superstructure elements instead of screw plugs, and making an impression of the patient’s jaw with projections of the patient’s suprastructure and healthy teeth of the patient, on the basis of which a removable denture of this patient is made, which, after manufacturing, is installed on elements of suprastructure, characterized in that as elements of suprastructure, prepared for the start of the orthopedic stage, use microamo ratification elements (MEs) with their originally detachable bodies and cylindrical bases, while each ME during its assembly includes the installation of a micro shock absorber in the form of a spring made of medical stainless steel in its upper supragingival part inside the cavity of the ME body coaxially with the implant and with emphasis on the cylindrical base the gingival part of the ME, with the first end of each spring being fixed under the dome of the cavity of the body of the ME, and the second on the basis of the gingival part of the ME, then fill the cavity with a medical sealant

Claims (8)

1. A method of increasing the durability of a denture using implants and microamortization elements, which is a two-stage procedure, consisting first of the surgical and then orthopedic stages, including the installation of implants at the surgical stage in the patient’s jaw bone, screwing screw plugs through their outer ends and suturing over them of gingival tissue, and after implant engraftment, the number of which from one or more corresponds to the specific task of prosthetics of this patient, to orthop at the unloading stage, opening the gingival tissue over the implants, unscrewing the screw plugs from them, screwing in the superstructure elements instead of screw plugs, and making an impression of the patient’s jaw with projections of the patient’s suprastructure and healthy teeth of the patient, on the basis of which a removable denture of this patient is made, which, after manufacturing, is installed on elements of suprastructure, characterized in that as elements of suprastructure, prepared for the start of the orthopedic stage, use microamo ratification elements (MEs) with their originally detachable bodies and cylindrical bases, while each ME during its assembly includes the installation of a micro shock absorber in the form of a spring made of medical stainless steel in its upper supragingival part inside the cavity of the ME body coaxially with the implant and with emphasis on the cylindrical base the gingival part of the ME, with the first end of each spring being fixed under the dome of the cavity of the body of the ME, and the second on the basis of the gingival part of the ME, then fill the cavity with a medical sealant whisker ME together with the spring and the mating housing DOE with its cylindrical base, providing a sealant after curing one-piece construction with the ME damping force effects on her body up to 20 microns. 2. The method according to claim 1, characterized in that the first and second ends of the spring are mechanically fixed before pouring the sealant by hooking them with the corresponding holes in the ME or by inserting the ends into the corresponding grooves in the ME or using a thread cut at the indicated ends and grooves. 3. A device for increasing the durability of a denture using implants and micro-depreciation elements, containing implants with a cylindrical outer part, screw external thread, an internal seating cone, a landing cylinder and thread, and superstructure elements corresponding to the number of implants, each of which contains a housing, a hexagon, a groove, a cylindrical base, a landing cone, a landing cylinder and a fixing thread, while the screw external thread of each implant is screwed onto an appropriate place in the jaw bone of the patient, and the fixing thread of the suprastructure element (ES) is screwed into the implant by its internal thread until the landing cone and the cylinder of the ES are in tight contact with the internal landing cone and the implant cylinder, the hexagon for screwing the ES in the upper part is located on its outside into the implant, and in its lower part there is a groove for fixing a removable denture, characterized in that each ES additionally contains a micro shock absorber in the form of a spring made of medical stainless steel, times placed vertically and coaxially with the implant and the ES, which in this case is a microamortization element (ME), at point-blank range without compression between the cylindrical base of the ME and the dome inside the cavity of the ME case, and a medical sealant that fills all the voids inside the cavity of the ME after installing the spring without mechanical fastening of its ends in the ME body, cover the lower part of the ME body into the upper part of the ME cylindrical base without grinding the sealant between them. 4. The device according to claim 3, characterized in that the ends of the spring are rings of extreme turns located orthogonal to the axis of the spring. 5. The device according to PP.3 and 4, characterized in that the spring has a cylindrical shape. 6. The device according to claims 3 and 4, characterized in that the spring has a conical shape with a vertex inside under the dome of the ME case. 7. A device for increasing the durability of a denture using implants and microamortization elements, containing implants with a cylindrical outer part, a screw external thread, an internal seating cone, a seating cylinder and thread, and superstructure elements corresponding to the number of implants, each of which contains a housing, a hexagon, a groove, a cylindrical base, a landing cone, a landing cylinder and a fixing thread, while the screw external thread of each implant is screwed onto an appropriate place in the jaw bone of the patient, and the fixing thread of the suprastructure element (ES) is screwed into the implant by its internal thread until the landing cone and the cylinder of the ES are in tight contact with the internal landing cone and the implant cylinder, the hexagon for screwing the ES in the upper part is located on its outside in the implant, and in its lower part there is an ES groove for fixation of a removable denture, characterized in that each ES additionally contains a micro shock absorber in the form of a spring made of medical stainless steel, positioned vertically and coaxially with the implant and ES, which in this case is a micro-depreciation element (ME), at point-blank range without compression between the cylindrical base of the ME and the dome inside the cavity of the ME case, and a medical sealant that fills all the voids inside the ME case after installing the spring with a mechanical by fixing its ends in the ME case, inside the upper part of the ME cylindrical base there is a circular recess where fluid sealant flows when pouring, as a result of which, after the sealant hardens, the ME case is firmly with articulates with the cylindrical base of the ME. 8. The device according to claim 7, characterized in that the mechanical fastening of the coaxially oriented first and second ends of the spring is carried out respectively with the inner surface of the dome of the ME housing and the surface of the cylindrical base of ME by hooking, screwing or inserting into the groove.