PL233614B1 - Tools for determining of a drill insertion angle in the dental implantation - Google Patents

Description

Description of the invention

The subject of the invention is a tool for determining the insertion angle of a drill, especially a pilot drill, in dental implantation. The aim of the invention is to provide a tool for determining the correct alignment of the long axis of the implant with respect to the occlusal surface by appropriately setting the angle of the drill, especially the pilot drill.

Properly performed dental implantation requires proper positioning of the titanium screw in relation to the occlusal surface. The long axis of the implant should be perpendicular to the occlusal surface, which enables the correct transmission of the chewing force with the safest load. A different positioning of the implant causes its overload, leading to a fracture of the screw or loss of its connection with the bone. The most difficult stage of the dental implantation procedure is the drilling of a hole in the jaw bone to receive the implant screw, because it requires high precision in determining the location and angle at which the drilling is made.

Many devices for determining the position of the implant are known in the art (as described, for example, in US 5636986 or US 6332775), but these devices do not allow for the assessment of the long axis position of the implant. Other known solutions, e.g. US 20050170311, make it possible to assess the position of the long axis of the implant, but for this it is necessary to use radiological means.

Publication US2008176187 discloses a guide assembly for positioning a drill during a dental implantation procedure, including a mounting element adapted to be mounted on one or more teeth adjacent to the edentulous area, a base connected to the mounting element and dimensioned to extend over the toothless area, a translation element adjustable relative to the base, and a rotatable component adjustable with respect to the translation component. The rotating component is configured to accommodate a radiographic marker or drill. The assembly disclosed therein enables the spatial positioning of the drill, however, determining the correct position of the drill is complex and requires radiological control. Moreover, this assembly, which consists of several elements, is also unfriendly to the operator, who has to unscrew it every time in order to sterilize it.

However, publication US7097451 discloses a thermoplastic matrix for osteotomy for a dental implant consisting of a durable, resin thermoplastic base and attached rigid drill guide attached to the base and means for locating the guide relative to the thermoplastic base. The template is made directly by the operator who adjusts the shape of the heated thermoplastic base to the teeth adjacent to the toothless space. Then the position of the guide is manually adjusted. After the base hardens, the guide position is fixed and the template can be used to position the drill. However, the template design shown there does not allow the actual occlusal area to be determined, and the positioning of the guide must be confirmed radiographically.

There is therefore a great need for tools for setting the drill angle in a dental implantation process that are simple to manufacture and easy to use. There is also a need for tools that can be successfully used on many patients without the need to produce individual templates or the need to use radiological imaging.

The present inventors have developed a tool for setting the insertion angle of a drill, in particular a pilot drill, in dental implantation, which comprises a base provided with two flat and preferably parallel surfaces - proximal and distal, the base being equipped with a sleeve with a through cylindrical bore whose the axis is perpendicular to the proximal surface of the base. The axis of the through cylindrical bore in the sleeve is a line joining the base centers defining the through bore of the cylinder. The proximal surface of the base is the surface on the same side as the sleeve, ie the surface of the base facing the implant site. The distal surface of the base is the surface opposite the proximal surface of the base, i.e. the surface in which the end of the sleeve through-hole is located, from the side of which the drill is inserted into the through-hole. Preferably, the sleeve is a hollow cylinder.

PL 233 614 B1

When the tool according to the invention is used in the mouth of a patient, the proximal surface of the base forms the contact surface of the tool with the occlusal surface of the patient's teeth adjacent to the location of the implant, and thus this surface defines the occlusion surface. The sleeve cylindrical bore, on the other hand, provides a guide for the pilot drill, which is inserted into the bore from the distal surface of the base. After positioning the base on the occlusal surface of the patient's teeth, the proximal edge of the sleeve is positioned near the patient's gingiva. The proximal edge of the sleeve is the edge opposite the base of the tool in which the sleeve is seated. The diameter of the through cylindrical hole in the sleeve corresponds to the diameter of the pilot drill to enable it to be received.

Preferably the posture is oblong in shape. Oblong means that one posture dimension is greater than the other two dimensions. More preferably, the sleeve is located near the longitudinal end of the base. In a preferred embodiment, the base has the shape of a rectangular plate, and most preferably it is a plate, in which a sleeve made of the same material is mounted on the proximal surface with a slight puncture on the distal surface side, i.e. due to the insertion of the sleeve in the base, its fragment protrudes slightly. on the other side.

Preferably, the tool according to the invention is made of stainless steel, but any sterilizable material used in the manufacture of dental instruments, such as Teflon or plastic, can be used for its manufacture. The individual components (i.e. base and sleeve) of the tool according to the invention are made of the same material. Alternatively, the components of the tool according to the invention are made of different materials.

The insertion angle of the drill is set in such a way that the tool according to the invention is placed in the mouth of the patient with the sleeve facing the place where the implant is placed. The proximal surface of the base is then placed in contact with the occlusal surface of the teeth closest to the implant site. In this position, the proximal edge of the sleeve is near the gingiva. Preferably, the base is so long that it rests on at least two teeth close to the implant site. The teeth with which the base of the instrument is in contact with the proximal surface may be on the same side or on opposite sides of the implant site. After determining the occlusal surface through the proximal surface, the through hole of the sleeve determines the correct insertion angle of the drill. Such a drill is placed in the through hole of the sleeve, from the side of the distal surface of the base, and a hole is made in the bone, defining the place and angle of inserting the implant screw.

The tool according to the invention may be used to establish the insertion angle of a drill for both the mandible and maxillary bone since the proximal surface can be used to establish both the upper and lower occlusal surfaces. The tool according to the invention is simple to use and easy to make. Based on the arrangement of adjacent teeth, it enables the determination of the occlusal surface and easily indicates the perpendicular path of the implant insertion.

The tool according to the invention is universal and can be used in different patients. It is therefore a reusable tool that eliminates the need for individual templates for each patient. The tool according to the invention allows for implantation in the interdental defect and in the case of the so-called the absence of a winged jaw in both the upper and lower jaws. The versatility of the tool reduces the costs of implantation and shortens the procedure time resulting from the need to make an individual template. In addition, because it is used during the procedure, it allows you to modify the implantation site while maintaining the long axis of the implant in accordance with the clinical picture. This method is much more accurate than the prior art methods based on radiological imaging. Moreover, the tool according to the invention complements other tools for determining the implantation site, for example the device described in the invention application P.412640.

The tool for setting the angle of insertion of a pilot drill in dental implantation according to the invention is detailed in exemplary embodiments with reference to the accompanying drawing figures, in which:

Fig. 1 shows a perspective side view of a tool according to the invention.

Fig. 2 shows a top perspective view of a tool according to the invention.

PL 233 614 B1

Figures 3a and b illustrate how to place the tool of the invention at the site of a tooth defect to establish the correct angle of the pilot drill.

The tool for setting the angle of insertion of a pilot drill in dental implantation according to the invention comprises a base 1 in the form of a rectangular plate having two flat and parallel surfaces, proximal 11 and distal 12, the base 1 being equipped with a sleeve 2 in the form of a hollow cylinder. The axis AA 'of the through cylindrical hole 21 is perpendicular to the planar proximal surface 11 of the base 1, the axis representing a line joining the centers of the cylinder bases defining the through-hole 21. The cylindrical through-hole (21) is a guide for a drill, in particular a pilot drill, used for drilling hole in the jaw bone. The hole drilled in this way serves to receive the screw of the inserted implant.

The proximal surface 11 of the base 1 is the surface that is on the same side of the base 1 as the sleeve 2. The proximal surface 11 of the base 1 is the surface that faces the implant site. The distal surface 12 of the base is the surface opposite to the proximal surface 11 of the base 1, i.e. the surface in which the through-hole end of the sleeve resides. A pilot drill is inserted into a cylindrical through hole 21 from the side of the distal surface 12 of the base 1.

In the present embodiment, the base 1 and the sleeve 2 mounted therein are made of stainless steel. Moreover, the sleeve 2 is seated on the proximal side of the surface 11 with a slight puncture on the distal side of the surface 12 of the base 1, i.e. due to the insertion of the sleeve 2 in the base 1, a small part of it protrudes on the other side of the base 1.

Figures 3a and b show how the tool according to the invention is used to determine the insertion angle of the drill at the site of implant placement. The tool according to the invention is placed in the patient's mouth directed with the sleeve 2 towards the place of implant placement. In the present embodiment, the location of the implant is in the mandible so that the sleeve 2 and its proximal edge 22, i.e. the edge opposite to the base 1, point downwards.

Then, the proximal surface 12 of the base 1 is placed in contact with the occlusal surface of the teeth closest to the location of the implant. In this position, the proximal edge 22 of the sleeve 2 is close to the gingiva. The base 1 rests on two teeth located near and on the same side of the implant site. In this way, the occlusal surface 11 is fixed by means of the proximal surface 11. When the proximal surface 11 of the base 1 adheres to the patient's occlusal surface, the opening 21 of the sleeve 2 determines the correct insertion angle of the drill. The pilot drill is then inserted into the guided through hole 21 of the sleeve 2 from the distal surface 12, and a pilot drilling is made in the mandibular bone to define where the implant screw is screwed in.

Claims (10)

Patent claims A tool for setting the insertion angle of a drill for dental implantation comprising a base and a drill guide, characterized in that the base (1) comprises two flat surfaces opposite the base (1), a proximal (11) and a distal (12), and it is equipped with a sleeve (2) with a through cylindrical hole (21) acting as a drill guide, the axis of which AA 'is perpendicular to the flat proximal surface (11) of the base (1), the proximal surface (11) being the base surface (1) on the same side as the bushing (2). 2. The tool according to claim The sleeve of claim 1, wherein the sleeve 2 is in the form of a hollow cylinder. 3. The tool according to p. The method of claim 1 or 2, characterized in that the proximal (11) and distal (12) surfaces of the base (1) are parallel to each other. 4. Tool according to any of claims 3. A plate according to any one of claims 1 to 3, characterized in that the base (1) is plate-shaped. Tool according to one of the claims 4. A method according to any one of the preceding claims, characterized in that the base (1) has an oblong shape. PL 233 614 B1 6. Tool according to p. 4. The sleeve of claim 4, characterized in that the sleeve (2) is located near the longitudinal end of the base (1). Tool according to p. 5 or 6, characterized in that the base (1) is a rectangular plate, in which the sleeve (2) is seated near the shorter edge of the rectangular plate, on the side of the proximal surface (11) of the base (1) with a slight puncture on the side of the distal surface ( 12) posture (1). 8. The tool according to p. A device as claimed in claim 7, characterized in that the base plate (1) and the sleeve (2) are made of stainless steel. Tool according to any one of claims The method of any of claims 1 to 6, characterized in that the base (1) and the sleeve (2) are made of the same material or different materials. Tool according to one of claims 1 to 10. The method of any of claims 1 to 6 or 9, characterized in that it is made of a material comprising stainless steel, Teflon or plastic.