EA013490B1 - Intraoral instrument for ensuring close fit of dentures - Google Patents

Abstract

The invention relates to medicine, namely to orthopaedic dentistry and can be used in technological stages of manufacturing dentures, in implantology at the stages of implantation of the implants and placing the abutments. The task of the invention is creating very simple, cheap and easy to use intraoral instrument enabling easily, simply and accurately to determine the direction of the introduction way of the denture both at the preparatory stage and during dissection of the bearing teeth. The intraoral instrument for ensuring close fit of the dentures contains a chamber made of the transparent material in the form of a sphere or a truncated sphere and filled with liquid to form an air bubble 0.1-2 mm in diameter. In the particular case of the instrument implementation, for example when dealing with the upper jaw of a patient in a sitting position, when the air bubble may be out of the view, the instrument may contain a steel ball inside the chamber filled with liquid.

Description

The invention relates to medicine, namely to orthopedic dentistry, and can be used at the technological stages of the manufacture of dental prostheses, in implantology at the stages of implantation of implants and setting abutments.

To ensure proper preparation of dentures, it is very important to accurately determine the angle of inclination of the treated tooth surface.

A device for determining the angle of inclination of the walls of the teeth during preparation is known, which includes a TU-microchamber with a lens, a video adapter and a computer (RF Patent No. 2137438, class IPC А61С 13/00, publ. 20.09.1999). This device allows you to measure directly inside the oral cavity and accurately measure the angle of inclination (in degrees) of the walls of the teeth, but it has a complex structure, is expensive and therefore not readily available when using it.

The closest to the proposed is an intraoral device for determining the angle of inclination of the walls of the teeth during preparation, which allows for an accurate fit of the future prosthesis to the supporting teeth. This device contains measurement tools, including a housing with a lid, two side and one middle figured support plates, and monitoring tools, including scales made along an arc of a circle with a symmetric graduation from the zero mark and mounted on the front surfaces of the measurement instrument housing, with the upper part of the middle shaped support plate made or rigidly connected with the arrows in contact with the scales of the control device (RF patent № 2123821, CL. IPC А61С 13/36, publ. 12.27.1998). This device is also difficult to manufacture and inconvenient when used in the oral cavity.

The objective of the invention is the creation of a very simple, cheap and easy-to-use intraoral instrument that allows you to easily, simply and accurately determine the direction of the path of prosthesis introduction both at the preparatory stage and when preparing the abutment teeth.

The technical result is achieved by the fact that an intraoral instrument for ensuring an accurate fit of dentures contains a chamber made of a transparent material in the form of a sphere or a truncated sphere and filled with liquid to form an air bubble with a diameter of 0.1-2.0 mm. In the particular case of a tool, for example, when working with the patient's upper jaw in a sitting position, when the air bubble may be out of view, the device may contain a steel ball inside the chamber filled with liquid.

As a guideline for the preparation of teeth in the manufacture of the bridge, it is most advisable to use the route of its introduction, which allows you to pre-calculate the amount of the forthcoming excision of hard tissue in each of the supporting teeth. Thus, determining the route of prosthesis insertion is extremely important for the effective solution of a complex of tasks both at the preparatory stage and during preparation of the abutment teeth. Determination of the route of administration, which is a guideline for preparation, can most effectively be achieved by determining the bisector of the angle of inclination of the axes of the abutment teeth. In relation to this landmark, the most accurate and gentle preparation of the walls of each abutment tooth is achieved.

The design of the proposed intraoral instrument makes it easy and simple to determine the above average inclination angle of the abutment teeth. An air bubble located in the upper part of a spherical chamber filled with liquid, or a steel ball placed in a chamber used when working with the upper jaw of a sitting patient, are an indication of the inclination of the teeth, implants, abutments. The principle of operation of the proposed tool is similar to the action of the construction level.

The size of the air bubble within the specified limits is optimal to ensure the accuracy of determining the angles of inclination of the teeth and due to considerations of expediency.

The tool in the form of a truncated sphere is glued to the base with a glue, which is harmless to the human body, to a dental handpiece with boron inserted into it. If the instrument chamber is a sphere, then to attach it to the tip, a so-called “adapter” is used, one surface of which repeats the shape of a part of the camera's sphere, and the other is flat for convenient and secure attachment to the dental tip.

FIG. 1 presents a general view of the proposed tool. FIG. 2 illustrates the arrangement of an instrument attached to a dental handpiece with a bur in operation with respect to the abutment teeth and the determination of the bisector of the inclination angle.

The tool contains a camera 1 in the form of a sphere or a truncated sphere, made of a transparent material, for example glass, as transparent plastic as possible, and filled with water 2. Moreover, since the instrument is operated in the oral cavity, the camera must be made of a material that is harmless to the body. In the upper part of the sphere there is an air bubble 3 with a size of 0.1-2.0 mm, and in its lower part (if necessary) there is a steel ball 4. The chamber with the lower base 5 or, if it is spherical, is attached to the dental unit through an adapter. tip 6 with bur 7 and handle 8 (Fig. 2).

The tool is used as follows. Dental tip 6 with inserted boron 7 and glued to the tip of the camera 1 is installed in the oral cavity of the patient and presented to the abutment tooth. The direction of the bur 7 should correspond to the inclination of the axis of the tooth (Fig. 2). WHO

- 1 013490 stuffy bubble 3, deviating from the vertical, depending on the degree of inclination of the tooth will show a point on the camera. This point is marked on the transparent camera 1 with a marker of arbitrary color, for example, red. Similarly, boron 7 is presented to the second abutment tooth, while the direction of the bur should correspond to the inclination of the axis of the second tooth. We mark on the camera 1 in this position the second point, which is fixed by the air bubble 3, also, for example, with a red marker. The middle of the distance between these marks is marked with another color, for example green. Now, when the position of the air bubble coincides with the green point, the direction of the bur will coincide with the direction of the bisector of the angle of inclination of the axes of the abutment teeth and will be the guideline of the prosthesis insertion path. During the whole time of determining the average angle, the patient's jaw should not move. The search for the bisector of the angle of inclination of the axes of the abutment teeth is carried out very quickly (it takes only 1 minute). When preparing the walls of the abutment teeth, the air bubble should always coincide with the green dot. When working with the upper jaw of a patient sitting in an armchair, the air bubble may be out of view, and then a steel ball 4 placed inside the chamber 1 can serve as a pointer instead.

Thus, the use of the proposed device provides a smooth, convenient, quick and easy determination of the bisector of the angle of inclination of the axes of the abutment teeth and, ultimately, in its direction, an accurate fit of the future prosthesis on the abutment teeth.

Claims (2)

1. An intraoral instrument to ensure an accurate fit of dentures, characterized in that it comprises a chamber made of a transparent material in the form of a sphere or a truncated sphere and filled with liquid to form an air bubble inside which a steel ball is placed. 2. An intraoral instrument for ensuring an accurate fit of dentures according to claim 1, characterized in that the air bubble has a diameter of 0.1-2.0 mm.