RU153852U1 - SCREW DENTAL IMPLANT (OPTIONS) - Google Patents

Abstract

1. A screw dental implant, consisting of interconnected interconnected intraosseous part and the implant head, and the entire outer surface of the intraosseous part contains a single or multiple thread with a pitch of 0.7 to 2.0 mm, a circular girdle is made along the outer edge of the intraosseous part - chamfer, inside the intraosseous part contains an internal cavity made in the form of a seating surface, and a threaded channel with an internal thread having a thread diameter from 1.8 to 2.5 mm, and on the walls of the inner the landing surface has grooves or recesses that do not extend beyond the outer edge of the landing cavity for connection with mating protrusions located on the extraosseous part or on the instrument for introducing (screwing) the implant into the bone tissue, characterized in that the intraosseous part is made in the form of a self-tapping screw with the thread stroke is from 0.7 to 2.0 mm, the profile height is from 0.42 to 1.5 mm, and the angle between the sides of adjacent turns (threaded protrusions) is performed in the intervals from 10 ° to 44 °, for bone tissue of low density (type 3-4) and from 47 ° to 58 ° for medium and high density bone tissue, while the external diameter of the thread is from 4 mm to 5.5 mm, and the internal diameter of the thread is from 2.5 to 4.0 mm, in the end part the implant is made with a decrease the thread profile and the reduced inner diameter of the thread compared to the main part of the implant, the tip of the implant-apex is formed by a small part of the body (shaft) of the implant free of thread, the diameter of which is slightly less than the diameter of the main part of the shaft, the implant head contains a truncated landing cone,

Description

The field of technology.

The utility model relates to medical devices, in particular to medical equipment, intended for surgical, orthopedic dentistry and maxillofacial surgery. The utility model can be used in dental implantation and dental prosthetics as a dental implant.

State of the art

The prior art screw dental implants, consisting of an intraosseous part and a head (abutment), which are interconnected by a detachable connection, while the intraosseous part is fully or partially made with an external thread.

The intraosseous part of screw implants may contain a structural element that differs from the rest of the surface of the intraosseous part of the implant. Distinctive features may include: the presence or absence of a thread, the execution of a different profile shape or thread pitch, the presence or absence of a rough surface, etc.

The heads of screw implants usually contain a seating surface in the form of a cone or polyhedron for connection with the implant and an internal thread for fixing the crown.

The thread used in implants usually has a standard profile angle of 60 °. This is due to the ease of production of standard threads and the availability of tools and equipment.

A parameter is known in the art - the thread contour, which determines the dimensions of the thread along the make-up length (thread contour of the bolt at the make-up length with nut). Since the screw implant is in contact with the bone tissue with the entire external surface of the intraosseous part, the contour of the implant thread is the entire external threaded surface of the intraosseous part. Functional loads mainly affect the area of the thread contour of the implant.

Meanwhile, when developing implants, the forces arising in the thread contour are not always taken into account, as a factor affecting the process of osteogenesis and implant osseointegration.

A screw dental implant is known from the prior art (US Patent No. 5588838, A61C 8/00, 1996) having a head (abutment) and an intraosseous part containing an apical part with an optimized rounded profile thread, a standard angle of 60 ° and a thread pitch ~ 0.6 mm, and the cervical part, with micro-roughness, which can be made in the form of micro-threads with a height from 0.02 to 0.2 mm. This design has drawbacks: weak fixation force in the bone tissue and inability to withstand early chewing loads due to the low thread profile height and profile angle of 60 ° on the apical part of the implant, as well as the small fixation force of micro thread in bone tissue

This implant is manufactured by Astra Tech (Sweden) under the designation - ST. The force of fixation of this implant in the hole of the extracted tooth does not exceed 10-12 kgf, which is not enough to counter functional loads.

Prosthetics using this design is carried out after 4-6 months, which delays the treatment time.

The disadvantages of the implant head are that it is a standard head, which does not require grinding, in addition, the seating surface for fixation is made in the form of a landing cone and has an internal hexagon, which reduces the amount of use in various implant systems and clinical situations. This implant is taken as a prototype.

Utility Model Disclosure

The main locking element of a screw implant that can withstand functional loads is thread. Therefore, carving is the main structural element that affects reparative osteogenesis in bone tissue. By dosing and changing the functional stress in the bone tissue with the parameters of the implant thread, a different tissue response to the load can be obtained.

The implant is held in the bone due to the teeth of the bone tissue i.e. formed mating thread in the implant bed. It is the teeth of the bone tissue of the implant bed that perceive and counteract the functional load.

Experimental studies have established that the creation of loads whose vector is directed, mainly to the area of the thread contour in the bone, stimulates the processes of replacement and reparative osteogenesis.

The objective of this utility model is to create an implant, the elements of the intraosseous part of which create loads during functioning, the vector of which is directed mainly to the area of the thread contour, which stimulate osteogenesis (reparative and replacement) in the process of implant engraftment and

Technical result

The technical result is achieved by the fact that a screw dental implant is proposed, consisting of an intraosseous part, moreover, the outer surface of the intraosseous part contains a single or multiple thread with a pitch of 0.7 to 2.0 mm, inside the intraosseous part contains an internal cavity made in the form of a landing surface and a threaded channel with an internal thread, grooves or recesses are made on the walls of the inner landing surface, not extending beyond the outer edge of the landing cavity, while the intraosseous part It is made with a thread stroke from 0.7 to 2.0 mm, a profile height from 0.41 to 1.5 mm, and the angle between the sides of adjacent turns (threaded protrusions) is performed in the intervals from 10 ° to 58 °, while for bone tissue of low density (type 3-4) is usually used an implant with an angle between the sides of adjacent turns from 10 ° to 44 °, and for bone tissue of medium and high density (type 1-2) from 47 ° to 58 °, while the outer diameter of the thread of the implant is from 3 mm to 6.5 mm, and the inner diameter of the thread is from 2.0 mm to 4.0 mm., in the end part the implant is made with a lower the lower the thread profile and the reduced inner diameter of the thread, compared with the main part of the implant, the tip of the implant -pex is formed by a small part (about 0.1-1.0 mm) of the body (shaft) of the implant free from thread, the diameter of which is slightly less than the diameter of the main part rod

The technical result is also achieved by the fact that a screw dental implant is proposed, consisting of interconnected interconnected intraosseous parts and the implant head, and the entire outer surface of the intraosseous part contains single-thread or multi-thread with a pitch of 0.7 to 2.0 mm, on the outer the edge of the intraosseous part is made a circular girdle - a chamfer, inside the intraosseous part contains an internal cavity made in the form of a seating surface and a threaded channel with an internal thread having the diameter of the thread is from 1.8 to 2.5 mm, and grooves or recesses are made on the walls of the inner landing surface that do not extend beyond the outer edge of the landing cavity for connection with mating protrusions located on the extraosseous part or on the instrument for introducing (screwing) the implant into the bone tissue, while the intraosseous part is made in the form of a self-tapping screw, with a thread stroke of 0.7 to 2.0 mm, a profile height of 0.42 to 1.5 mm, and the angle between the sides of adjacent turns (threaded protrusions) is performed in intervals from 10 to 44 gr, for bone tissue of low density (type 3-4) and from 47 to 58 for bone tissue of medium and high density, while the intraosseous part contains at least two types of profile simultaneously on the intraosseous part, differing in profile height and (or) profile angle (angle contour).

A brief description of the drawings.

In FIG. 1 shows a general view of the implant - option 1.

A screw dental implant, consisting of an intraosseous part 1, the entire outer surface of the intraosseous part containing a single or multiple thread 2, a circular girdle 3 is made along the outer edge of the intraosseous part, the intraosseous part contains an internal cavity made in the form of a seating surface 4 and a threaded channel 5 with an internal thread having a thread diameter from 1.8 to 2.5 mm, moreover, grooves or recesses 6 are made on the walls of the inner seating surface for connection with mating protrusions , The insertion tool (screwing) implant into bone tissue. The thread on the intraosseous part is made in the form of a self-tapping screw, with a thread stroke of 0.7 to 2.0 mm, a profile height of 0.42 to 1.5 mm, and an angle of 7 between the sides of adjacent turns (threaded protrusions) is performed at intervals from 10 to 44 g, for bone tissue of low density (type 3-4) and from 47 to 58 for bone tissue of medium and high density. In FIG. 1, the thread is shown as an unshaded part (item 2) and partially shown as threaded protrusions (item 2a).

The intraosseous part can be made in the form of a conical or cylindrical shape (or a combination of conical and cylindrical), while the outer diameter of the thread is from 4 mm to 5.5 mm, and the inner diameter of the thread is from 2.5 to 4.0 mm. For a conical shape, the outer diameter is considered the maximum thread diameter. In the end part, the implant is made with a decrease in the thread profile and a reduced internal diameter of the thread, in comparison with the main part of the implant, the tip of the implant-apex 8 is formed by a small part of the body (rod) of the implant free from thread, the diameter of which is slightly smaller than the diameter of the main part of the rod. The intraosseous part may contain the cervical part 9, on which a single or multiple thread can be made. The cervical part can be performed without thread and can be smooth (polished) or rough (processed by etching and (or) sandblasting.

The implant head contains a truncated landing cone, a shank with an external thread and a tapered or cylindrical seating surface, inside which there is a cavity or a blind hole, at the end of which a polyhedron is made for connection with the head insertion (screwing) tool.

Utility Model Implementation (Industrial Applicability)

We have proposed industrially applicable dental implants produced on lathes, CNC lathes, and also on machining centers.

The implants are made from titanium rods of grades VT1-0, VT6, VT6 ELI, VT7 or their analogues in the international classification.

For implantation operations at low bone density, implants are used mainly with an angle between the sides of adjacent turns, in the interval from 10 to 44 degrees, and for medium and high density bone tissue from 47 to 58. The most preferred angle interval between the sides of adjacent turns is 30-50 degrees.

When performing intraosseous implantation in the toothless area of the alveolar ridge, the formation of the implant bed is performed with peeling of the mucoperiosteal flap. First, a hole is formed with a cylindrical drill in bone tissue, to a depth equal to the length of the implant, successively starting with a smaller diameter and ending with a drill having a diameter equal to the diameter of the implant shaft, a cylindrical hole is created to a depth equal to the length of the implant. Then a conic cutter or a vertical drill having a diameter smaller than the diameter of the implant by the size of the thread profile is drilled to a depth equal to the length of the implant or cervical part of the implant, thus creating a bed for the implant.

An implant is screwed in, having a maximum thread diameter of the apical part equal to or smaller in diameter of the neck thread, and also having a reduced apex free of thread in such a way that the high thread profile freely passes through the cortical layer of bone tissue and begins self-cutting only in the cancellous bone, screwing the implant several times revolutions is included in the work of the thread profile to the full depth of the profile, the implant receives significant resistance from lateral displacements and stall, which allows threading the cervical twist into a cortical dense bone by self-cutting. The presence on the cervical part of the thread with a large profile angle and a lower profile height compared with the apical part facilitates the process of self-cutting, reduces the friction force, increases stability during installation.

The implant is inserted into the bone tissue, cutting the response thread by rotation of the implant, due to which, due to the fixation (stop) of the conical cervical part and the neck of the implant in the cortical bone (in the conical bed of the cortical bone), a metered compression is created in the bone tissue.

Claims (2)

1. A screw dental implant, consisting of interconnected interconnected intraosseous part and the implant head, and the entire outer surface of the intraosseous part contains a single or multiple thread with a pitch of 0.7 to 2.0 mm, a circular girdle is made along the outer edge of the intraosseous part - chamfer, inside the intraosseous part contains an internal cavity made in the form of a seating surface, and a threaded channel with an internal thread having a thread diameter from 1.8 to 2.5 mm, and on the walls of the inner the landing surface has grooves or recesses that do not extend beyond the outer edge of the landing cavity for connection with mating protrusions located on the extraosseous part or on the instrument for introducing (screwing) the implant into the bone tissue, characterized in that the intraosseous part is made in the form of a self-tapping screw with the thread stroke is from 0.7 to 2.0 mm, the profile height is from 0.42 to 1.5 mm, and the angle between the sides of adjacent turns (threaded protrusions) is performed in the intervals from 10 ° to 44 °, for bone tissue of low density (type 3-4) and from 47 ° to 58 ° for medium and high density bone tissue, while the external diameter of the thread is from 4 mm to 5.5 mm, and the internal diameter of the thread is from 2.5 to 4.0 mm, in the end part the implant is made with a decrease the thread profile and the reduced inner diameter of the thread compared to the main part of the implant, the tip of the implant-apex is formed by a small part of the body (shaft) of the implant free of thread, the diameter of which is slightly less than the diameter of the main part of the shaft, the implant head contains a truncated landing cone, tovik with an external thread and sealing surface, conical or cylindrical, inside of which a cavity or a blind hole, the end of which the polyhedron is made to connect to the instrument for introducing (screwing) of the head. 2. A screw dental implant, consisting of interconnected intraosseous parts and the implant head, interconnected by a detachable connection, the entire external surface of the intraosseous part containing a single-thread or multi-thread with a pitch of 0.7 to 2.0 mm, a circular girdle is made along the outer edge of the intraosseous part - chamfer, inside the intraosseous part contains an internal cavity made in the form of a seating surface, and a threaded channel with an internal thread having a thread diameter from 1.8 to 2.5 mm, and on the walls of the inner the landing surface has grooves or recesses that do not extend beyond the outer edge of the landing cavity for connection with mating protrusions located on the extraosseous part or on the instrument for introducing (screwing) the implant into the bone tissue, characterized in that the intraosseous part is made in the form of a self-tapping screw with the thread stroke is from 0.7 to 2.0 mm, the profile height is from 0.42 to 1.5 mm, and the angle between the sides of adjacent turns (threaded protrusions) is performed in the intervals from 10 ° to 58 °, while the intraosseous part contains no less two types of profile simultaneously on the intraosseous part, differing in profile height and profile angle.

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