RU41606U1 - MILLER FOR DENTAL IMPLANTATION - Google Patents

Abstract

The dental implant cutter belongs to the field of medicine, namely to dental instruments and instruments in surgical dentistry, and can be used for dental implantation. The implant dental implant cutter eliminates the possible deviation of the axis of the formed bed under the implant, reduces bone injury, and improves the effectiveness of the treatment of patients using dental implantation. A dental implant cutter is a whole-made titanium rod containing a shank for fixation in the tip of the physiological desensor and a cone-shaped working part that carries cutting edges. The cone-shaped working part of the cutter is additionally equipped with a guiding element, which is a smooth pin with a rounded end, the cutting faces of the conical working part are located at an angle of 5-7 ° to the longitudinal axis of the tool, the base of the conical working part has a cylindrical shape that does not carry cutting faces, the length of the working part equal to the minimum length of the implant.

Description

The proposed utility model relates to the field of medicine, namely to dental instruments and instruments in surgical dentistry, and can be used for dental implantation.

The formation of the bone bed during dental implantation is one of the most important stages of the operation and the outcome of the operation and treatment as a whole depends on the quality of this manipulation. Atraumatic bone preparation and bed precision remain the basic principles of implantation and are largely determined by the quality of instruments and surgical technique.

Recently, the aesthetic requirements of patients to treatment have been significantly increased, and from this point of view, not only the orthopedist, but also the surgeon, whose task is to install artificial supports in a precisely defined place, is responsible. However, during the operation, the doctor encounters certain difficulties associated with the anatomical features of bone tissue, such as a narrow alveolar ridge, loose bone tissue, severe atrophy of bone tissue. Good clinical conditions are less common than in 25-30%, in other cases, osteotomy is performed at an angle of less than 90 ° to the bone surface.

For the prototype of the present invention, a well-known milling cutter for dental implantation was selected, which is an integral titanium rod containing a shank for fixation in the tip of the physiosensor and a cone-shaped working part that carries cutting faces ("A set of implants for dental intraosseous titanium coated with hydroxyapatite and without coating and tools for their installation KISVT-SGTU-01 ”, catalog, clause 11, designation IN-3).

However, the known cutter is used only for the formation of the cervical part of the bone bed under the implant and is not used to form the bed under the helical and cylindrical implants. As a rule, forming drills are used to perform such work. The disadvantage of using a forming drill is that during osteotomy, the axis of the formed bed can shift, since the tools do not have axial guides. A particularly pronounced deviation during drilling can be with inclined alveolar processes of the jaws, often

found in the frontal region, as well as with included and end defects of the dental arch, when the toothless area has a saddle shape due to atrophy of bone tissue. The same problem is encountered during direct implantation, when a bed under the implant is formed in the hole of the extracted tooth (on one of the walls of the hole) and the axis of the drill is located relative to the bone tissue at an angle of 30-40 °.

The objective of the proposed utility model is to eliminate the possible deviation of the axis of the formed bed under the implant, reduce bone injury, increase the efficiency of treatment of patients using dental implantation.

The task is achieved in that in the known milling cutter for dental implantation, which is a whole-made titanium rod containing a shank for fixation in the tip of the physiosensor and a conical working part that carries cutting faces, the conical working part of the cutter is additionally equipped with a guide element, which is a smooth pin with a rounded pin the end, the cutting faces of the conical working part are located at an angle of 5-7 ° to the longitudinal axis of the tool, the base of the conical work her part is cylindrical in shape, not bearing cutting edges, the length of the working part is equal to the minimum length of the implant.

Figure 1 shows the proposed cutter for dental implantation. The dental implant cutter is an integral titanium rod 1 containing a shank 2 for fastening in the tip of the physiological desensor and a conical working part 3 carrying the cutting faces 4. The conical working part of the cutter is additionally equipped with a guide element 5, which is a smooth pin with a rounded end. The cutting faces of the conical working part are located at an angle of 5-7 ° to the longitudinal axis of the tool. The base 6 of the cone-shaped working part does not bear cutting faces and has a cylindrical shape. The length of the conical working part 8 is equal to the minimum length of the implant.

The proposed utility model meets the criterion of “novelty,” since no information was found in the process of patent information research of materials discrediting the novelty of the invention.

The proposed utility model meets the criterion of “inventive step”, since no solutions with essential features of the proposed were found in the search process.

The proposed utility model allows to obtain the following positive effect: firstly, the guiding element of the cone-shaped working part eliminates the deviation of the tool from a given direction, which ensures the accuracy of making holes in the bone; secondly, cutting faces located at an angle of 5-7 °, ensure non-invasiveness of the preparation and uniform removal of the bone layer around the entire circumference of the hole formed during immersion of the instrument in the bone tissue; thirdly, the base of the cone-shaped working part has a cylindrical shape with a diameter equal to the diameter of the next drill and does not bear cutting faces, which excludes injury to the cortical layer of the bone around the circumference of the hole and an increase in the diameter of the formed hole more than the diameter of the cutter; fourthly, the length of the entire working part, consisting of a guide and cutting elements, is equal to the length of the minimum size of the implant, which allows the use of a mill when installing any size of implants; and, finally, the milling cutter is made of a titanium alloy with its subsequent heat treatment, which ensures good mechanical characteristics and wear resistance.

The proposed device is used as follows.

Before the operation, a template is made of transparent plastic (in a thermo-vacuum apparatus) on which, together with the orthopedic surgeon, the implant placement sites are planned and holes are formed in these places with a diameter of 1 mm.

Under local anesthesia, a mucosal incision is made along the crest of the alveolar ridge in the region of missing teeth. The raspator exfoliates the mucoperiosteal flaps from the vestibular and oral sides. Inspect the alveolar ridge, smooth out all irregularities of the bone tissue with a milling cutter, then, according to the template, with the help of a spherical boron, the implant placement sites are marked. All work on bone tissue is carried out by a physiosensor with obligatory cooling with sterile saline. A pilot drill with a diameter of 1.8 mm sets the direction and depth of the bed under the implant. Then the osteotomy is performed by successive alternation of cutting tools according to the scheme: the proposed mill 2.5 mm - drill 2.5 - the proposed mill 3.0 mm - drill 3.0 mm - the proposed mill 3.5 - drill 3.5. The preparation of the proposed cutter is carried out at 1200-1300 rpm in such a way that the cylindrical base of the cone-shaped working part, which does not bear cutting faces, fully enters the cortical layer and is at the level of the bone surface. The work of the proposed cutter is carried out in the cortical layer of the bone, which excludes its gross mechanical injury during further work with a drill. With a drill of the corresponding diameter, the bed is deepened to a predetermined depth. Drill work is carried out in the spongy layer of the bone at 600-800 rpm.

The diameter of the last drill is selected depending on the quality of the bone tissue. It should be 0.5-1 mm smaller than the implant’s estimated diameter. Next, the cervical part of the bed is formed with a milling cutter for countersinking, the remaining bone shavings are removed from it with a curette spoon and washed with saline. With dense bone tissue, a thread is cut under the implant with a tap. An implant is inserted into the formed bed, its primary stabilization is achieved, and a plug is installed. Mucoperiosteal flaps are put in place and fixed with separate interrupted sutures.

An example of a specific performance is given in the form of an extract from a medical history.

Patient S., born in 1964, turned to the dental clinic complaining of the absence of 36 teeth.

Anamnesis: 36 tooth was removed 2 years ago due to chronic periodontitis.

Concomitant diseases: not notes.

Objectively: 35, 37 teeth are intact, their percussion is painless. The mucous membrane is pale pink, without pathological changes. The oral cavity is sanitized. The alveolar bone in the region of the missing 36 tooth has a saddle shape, 5 mm wide, the distance between the necks 35 and 37-11 mm

Diagnosis: partial loss of teeth of the lower jaw (Kennedy grade 3).

Additional examination methods: on an orthopantomogram, bone tissue in the region of 35-37 teeth corresponds to type 2 according to the Lekholm & Zarb classification, bone height to the lower alveolar nerve is 16 mm.

Clinical blood tests are within normal limits.

Treatment: 1) implantation of 2 screw implants D3.5 L13 in the region. 36 teeth;

2) prosthetics of 36 teeth with a ceramic-metal crown based on implants.

The patient is familiarized with the treatment plan, warned of possible complications.

Consent received for the operation.

07/03/2003. Operation: implantation of 2 screw intraosseous implants (NIITOP)

Under infiltration anesthesia sol. Ultrakaini 1.7 (2 carp.), A mucosal incision was made along the crest of the alveolar ridge between the 35th and 37th teeth, the mucoperiosteal flaps were peeled off, taken on catgut holders. According to a pre-made template, spherical boron outlines the placement of implants. The pilot drill made a distal guide channel 13 mm deep parallel to the medial root 37 of the tooth, a parallelometer (pin) was installed in it, parallel to which a 13 mm medial guide channel was made. With the proposed cutter

the cortical parts of the bed are expanded to a diameter of 2.5 mm; drill holes 2.5 mm deepened to 13 mm; the bed proposed by the mill is expanded to 3.0 mm, with a drill of 3.0 mm, the holes are recessed to 13 mm. A milling cutter for countersinking prepared the cervical parts of the formed holes. A curette spoon was used to revise the formed wells, the chips were removed, and the wells were rinsed abundantly with a sterile 0.9% sodium chloride solution. Implants are introduced into prepared wells, initially stabilized, and plugs are installed.

Clinically and radiologically determined equal gaps between implants and teeth, equal to 1.5 mm.

After antiseptic treatment with a solution of 0.02% furatsilina, the flaps were put in place, Polysorb sutures were laid. Dressing for a wound - solcoseryl dental adhesive paste, locally - cold.

Claims (1)

Dental implant cutter, which is an integral titanium rod containing a shank for fixation in the tip of the physiological desensor and a cone-shaped working part carrying cutting faces, characterized in that the conical working part is additionally equipped with a guide element, which is a smooth pin with a rounded end, cutting cone faces the working parts are located at an angle of 5-7 ° to the longitudinal axis of the tool, the base of the conical working part has a cylindrical shape, not bearing cutting edges, the length of the working part is equal to the minimum length of the implant.