RU2199973C1 - Dental implant - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has extra-osseous and intra-osseous parts connected by means of threaded connection member directed along implant axis and having contact area for receiving instrument. The connection member is designed as threaded pin having ring-shaped region separating it into two parts and contact area for receiving instrument at the other end. Irregular shape base of the extraosseous part and fitting surface of the intra-osseous part are designed as polyhedral belt and truncated cone attached to the polyhedral belt with its greater base. Extra-osseous part has irregular shape base engageable to congruent fitting surface of the intra-osseous part. EFFECT: accuracy of connection; reliability in joining parts. 6 cl, 2 dwg

Description

 The invention relates to medicine, in particular to orthopedic dentistry, and can be used both for fixing fixed dentures and for improving the fixation of removable dentures.

 A number of implants are known for fixing dentures containing intraosseous and extraosseous parts. All implant systems have as their goal not only the reliable integration of the implant into the bone tissue, but also the stable fixation of the denture on the implants.

 Despite the large assortment of manufactured implants in practical dentistry, systems have not yet been proposed that would make it possible to replace both partial dentition defects and be used in the complete absence of teeth, ensure reliable fixation of the denture with guaranteed resistance to short-term dynamic loads, and would be affordable for the patient and cost-effective for the doctor.

 Dental implants are widely used, comprising interconnected by means of a threaded connection that passes into a congruent landing surface, an intraosseous part made in the form of a cylinder with a thread on the outer surface, and an extraosseous part including a coronal part and a connecting threaded element through which the crown part is connected with the intraosseous part (US patent 5195892, class A 61 C 8/00, 03/23/93).

 The known design, although it allows a two-stage implantation technique, has an insufficient contact surface, and the presence of eight slots on the congruent landing surface of the extraosseous part into the intraosseous part prevents the support element from turning around its axis, but does not provide a snug fit of the parts.

 A dental implant is known that allows to install the extraosseous part with reliable fixation by performing the extraosseous part in the form of a whole rod and performing a congruent landing surface of the extraosseous part in the form of a truncated cone, thereby providing a wedging effect and protecting the fastening elements of the extraosseous part from a fracture (Russian patent 2118136 C1, Cl. A 61 C 8/00, 11/06/97).

 However, the disadvantage of this design is the lack of angular orientation of the element supporting relative to the intraosseous part of the implant, which affects during prosthetics.

 A dental implant is known that contains interconnected by means of a threaded connecting element located along the axis of the implant and having at one end a contact place for an instrument, an intraosseous part and an extraosseous part, configured to interact with a congruent landing surface of the intraosseous part (Russian patent 2026030 C1, cl A 61 C 8/00, 01/10/95).

 A known implant is the closest analogue of the claimed.

 A disadvantage of the known implant is that the articulation of the extraosseous part of the implant with the intraosseous cannot be performed with sufficient strength due to the fact that the articulation is carried out on the end flat surfaces. With this articulation, the implant connecting screw will experience significant radial loads, which can lead to fracture of the connecting screw and failure of the implant. In the known implant, it is impossible to pull together the necessary parts of it with each other, since a connecting screw with the same thread along the entire length is used, which also impairs the design of the implant.

 The objective of the invention is to create such an implant design that can be used to fix fixed and removable dentures, as well as reduce the risk of postoperative complications.

 The problem is solved by the implementation of a dental implant, consisting of two detachable parts, interconnected by means of a threaded connecting element (stud) and the landing surface of a complex configuration.

 EFFECT: invention allows precise connection and reliable fixation of extraosseous and intraosseous parts.

 The technical result is achieved due to the fact that the connecting element is made in the form of a threaded rod with a belt separating it into two parts, and a contact place for the tool at the other end, and the curved base of the extraosseous part and the seating surface of the intraosseous part are made in the form of a polyhedral belt and a truncated cone connected to a polyhedral belt with a large base. The outer surface of the intraosseous part can be made in the form of a cylinder with a thread and retention cavities for bone tissue at the end. The intraosseous part can also be made in the form of a self-tapping screw conical or cylindrical in shape or a combination thereof. On one part of the stud, a start-up thread can be made, and on the other a left-hand thread, or on both parts, single-start threads with different pitch. All parts of the implant can be made of zirconium alloy.

 These differences provide the possibility of fixation and orientation on one or several implants of a fixed structure of dentures using both a screw and cement, namely: the extraosseous part serves as an artificial stump for supporting structures of the prosthesis.

 In FIG. 1 schematically shows the implant in assembled form: the intraosseous part of the implant 1, the extraosseous part 2, the crown screw 3 and the threaded rod 4.

 The intraosseous part 1 and the extraosseous part 2 have congruent curly landing surfaces.

 The intraosseous part 1 of the dental implant has the shape of a cone or cylinder 5 with an external thread, passing from one end to a cone 6, connected to a cylindrical girdle 7, and from the opposite to the end 8 in the form of a hemisphere, cone, or a combination thereof.

 The inner surface of the intraosseous part has a landing truncated cone 9 with a threaded hole 10 and an internal polyhedral hole 11 in the upper part of the landing cone for fixing and orienting the extraosseous part 2.

 The extraosseous part 2 is made in the form of a rod with an internal thread 12 for tightening by means of a threaded rod 4 with an intraosseous part of the implant at one end and an internal thread 13 for fixing the artificial crown with a crown screw 3 at the other end.

 The outer surface of the extraosseous part 2 is a series of successively interconnected sections: a truncated landing cone 14, a multifaceted girdle 15, a gingival truncated cone 16, a cylindrical girdle 17, a truncated cone of the crown part 18.

 The multifaceted girdle 15 is connected to the large base of the landing truncated cone 14 and the smaller base of the gingival truncated cone 16.

 The cylindrical girdle 17 is connected to the large bases of the gingival truncated cone 16 and the truncated cone of the crown portion 18 with the formation of a support platform 19 for a crown or bridge.

 On the truncated cone of the crown portion 18, a threaded hole 13 for the crown screw 3 is made.

 The landing surface of the intraosseous part formed by the connection of the truncated cone 9 and the polyhedron 11 is congruent to the landing surface of the extraosseous part formed by the connection of the truncated landing cone 14 and the hexagonal band 15.

 The connecting element is a threaded rod 4 with contact points 20 and 21 for the tool at both ends. On the one side of the stud 4, a start-up thread is made, on the other hand, a left-hand thread or on both parts of the stud 4, single-thread with different pitch is made. Between themselves, the threaded parts of the stud are separated by a technological belt 22.

 When articulating the intraosseous part with the extraosseous part of the implant, turning the hairpin 4 clockwise (i.e., turning the hairpin into the intraosseous part of the implant like a normal screw), we simultaneously move the intraosseous and extraosseous parts of the implant until they are fully closed.

 The crown screw 3 has an external thread 23, a conical head 24 and a slot 25 for the tool.

 Given the physiological characteristics of patients: the degree of atrophy of the alveolar processes of the jaw, the thickness of the gums, as well as the requirements for the strength and reliability of the fixing elements, the intraosseous part of the implant 1 has an external thread diameter of 5 within 4-6 mm and a length of 8-20 mm. The height of the gingival truncated cone 16 of the extraosseous part 2 is 0-5 mm; the height of the truncated cone of the coronal part 18 of the extraosseous part 2 has a size of 3-7 mm. All parts of the implant are made of zirconium alloy.

 In FIG. 2 shows the relative position of the implant, the bone of the alveolar bone of the jaw and the artificial crown.

 Intraosseous part 1 with fixed extraosseous part 2 is installed in bone tissue 26 so that the upper part of the cylindrical girdle 7 of the intraosseous part is at the level of the edge of the bone tissue. In this case, the gingival truncated cone 16 of the extraosseous part 2 is located in the thickness of the gums so that the supporting platform 19 of the extraosseous part is located 0.5-1.0 mm below the level of the alveolar ridge.

 The artificial crown 27 is fixed with a crown screw 3. The extraosseous parts of the implant today have two designs: hollow, tightened with the intraosseous part using screws with heads or studs, while their orientation is carried out using four, six, eight, etc. grannikov, spline systems, slots, etc., which brings convenience at the stage of orthopedics, but reduces the strength of the implant due to the increased sensitivity of such a system to dynamic loads during chewing, because the head of the screw is “cut off” or the screw and stud break; integral, screwed into the intraosseous part and tightly pressed to the landing surface, for example, in the form of a cone.

 The proposed system combines these designs: orientation occurs using a polyhedral belt 15 in the upper part of the landing cone 14, and the landing on the cone is preserved, i.e. the load from the connecting element is redistributed to the cone, jamming occurs and the risk of fracture of the connecting element is removed.

Claims (6)

 1. A dental implant comprising interconnected by means of a threaded connecting element located along the axis of the implant and having at one end a contact place for an instrument, an intraosseous part and an extraosseous part made with a figured base with the possibility of interaction with a congruent landing surface of the intraosseous part, characterized in that the connecting element is made in the form of a threaded rod with a belt dividing it into two parts, and a contact place for the tool on another nce, and the figured base of the extraosseous part and the landing surface of the intraosseous part are made in the form of a polyhedral girdle and a truncated cone connected to a polyhedral girdle with a large base.  2. The dental implant according to claim 1, characterized in that the outer surface of the intraosseous part is made in the form of a cylinder with a thread and retention cavities for bone tissue at the end.  3. The dental implant according to claim 1, characterized in that the intraosseous part is made in the form of a self-tapping screw of a conical or cylindrical shape or a combination thereof.  4. Dental implant according to any one of the preceding paragraphs, characterized in that on one part of the stud a right-hand thread is made, and on the other a left-hand thread.  5. Dental implant according to paragraphs. 1-3, characterized in that on both parts of the studs are made single thread with different pitch.  6. Dental implant according to any one of the preceding paragraphs, characterized in that all parts of the implant are made of zirconium alloy.

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