WO2013025119A1

WO2013025119A1 - Method for determining the position of a prosthetic upper plane in patients

Info

Publication number: WO2013025119A1
Application number: PCT/RU2011/000629
Authority: WO
Inventors: Евгений Михайлович РОЩИН; Валентин Дмитриевич ПАНТЕЛЕЕВ; Александра Владимировна РОЩИНА
Original assignee: Roschin Evgeniy Mikhailovich; Panteleev Vanlentin Dmitrievich; Roschina Aleksandra Vladimirovna
Priority date: 2011-08-18
Filing date: 2011-08-18
Publication date: 2013-02-21
Also published as: RU2470587C1

Abstract

The method for determining the position of a prosthetic plane in patients in whom the integrity of the dental arch is impaired is characterized in that a projection of the Camper's line is determined on the patient's face by transferring the points Po (the upper edge of the ear canal) and Sna (the anterior nasal spine), obtained by a computed tomography scan in the saggital plane, onto the patient's face, and the position of the prosthetic plane is determined as a plane parallel to the Camper's line, wherein the position of a wax maxillary base plate is determined on the basis of the interpupillary line in the frontal projection, and the base plate is aligned on the basis of the interpupillary line obtained by a computed tomography scan of the patient's head in the frontal projection.

Description

METHOD FOR DETERMINING THE PROTHETIC UPPER LOCATION

PATIENT PLANES

The invention relates to medicine, namely to orthopedic dentistry, and can be used in the manufacture of full and partial removable laminar dentures. The invention relates to a new method for the exact clinically determined position of the prosthetic plane in patients with an unfixed height of the lower face.

To improve the quality of orthopedic treatment of patients with violation of the integrity of the dentition, it is necessary to conduct a comprehensive diagnosis aimed at studying the nature of the deformation of the prosthetic plane (occlusal plane). Loss of teeth leads to deformations of the prosthetic plane (Fig.

one).

In most cases, the orthopedic treatment of such patients consists in the restoration of dentition defects due to fixed and removable constructions, while in all cases the correct reconstruction of the prosthetic and occlusal planes is not achieved. These errors result from the lack of additional diagnostics.

A known method for determining the projection of the Camperov horizontal on the patient’s face, including drawing points on the face for the formation of the nasal line, for which on the patient’s face in the area of the ear tragus and nose wing, radiopaque beads are attached balls in the vertical direction, mark the location of the beads of balls with paint on the face skin , conduct a lateral tele-radiography of the head and in the resulting image through the front nasal spine and the base of the external auditory canal determine the location of the Camperian horizontal, to toruyu then projected onto the skin of the face with respect to the beads, beads, through which passed Kamperovskaya horizontal, according to their marks on the paint facial skin (RU 2283620, A6166 / 00, publ. September 20, 2006). Adopted as a prototype.

A disadvantage of the known solution is that the known method makes it possible to laboriously, but still, to obtain the exact position of the line in the sagittal projection related to the Camper plane, but does not give the exact position of this plane in the frontal projection. The lack of correction for the patient’s deformations leads to serious inaccuracies in the prosthetics of patients with removable prostheses.

In addition, in the known method, the diagnosis of patients is carried out due to TRG (tele-roentgenography): this technique has an error, most often the head size shown on the x-ray film is on average 10% larger than the true value. In this regard, it is also necessary to carry out similarity correction to accurately determine the points through which the Kamer horizontal passes, especially in the ear zone.

The present invention is aimed at achieving a technical result, which consists in increasing the accuracy of determining the prosthetic (occlusal) plane relative to a precisely defined individual for the patient Camper horizontal on its projection on the patient's face.

The indicated technical result is achieved by the fact that the method for determining the location of the prosthetic plane in patients with violations of the integrity of the dentition is to determine the projection of the Camper horizontal on the patient's face by transferring the Po (upper edge of the ear canal) and Sna (anterior nasal spine) obtained by computed tomography in the sagittal projection, on the patient’s face and determining the position of the prosthetic plane in the sagittal projection as a plane parallel to the Camper plane, after o on the patient’s face, the position of the wax basis is determined by the pupil line in the frontal projection and align it along the pupil line obtained on computed tomography of the patient’s head in frontal projection.

These signs are significant and interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The invention is illustrated by a specific example of execution, which, however, is not the only possible, but clearly demonstrates the possibility of achieving the desired technical result.

In FIG. 1 - deformation of the prosthetic plane;

FIG. 2 - the relative position of the Camper and prosthetic planes;

FIG. 3 - alignment of the wax base on the upper jaw;

FIG. 4 - x-ray control;

FIG. 5 - alignment of the wax base on the upper jaw in the frontal projection;

FIG. 6 - position of the wax basis in frontal projection on computed tomography of the head;

FIG. 7 - device for articulator;

FIG. 8 is the same as in FIG. 7, view from the other side.

According to the present invention, a new method for restoring the prosthetic plane in patients with violations of the integrity of the dentition is considered. The inventors believe that patients with violations of the integrity of the dentition, complicated by deformations of the dentition, it is necessary to conduct a computed tomography of the head, followed by cephalometric calculation of the identified deformations. From the available literature it is known that the prosthetic plane is parallel to the Camper plane (Fig. 2). On computed tomography in the sagittal projection, the Camper plane passes through the points Po (upper edge of the auditory meatus) and Sna (anterior nasal spine). According to the present invention, in the sagittal projection, the Camper plane is determined through nasal spine and through the upper midpoint of the external auditory meatus (Po point).

For patients with complete absence of teeth, computed tomography allows you to accurately calculate the slope and location of the restored prosthetic plane in the sagittal and frontal projections of the head.

In orthopedic dentistry, the Camper plane is widely used to determine the occlusion plane and is the main method for forming a wax base on the upper jaw, at the intermediate stage of prosthetics for patients with complete absence of teeth on the upper and lower jaws (Fig. 3).

However, clinically it is not always possible to accurately align the maxillary wax base (Fig. 4). The method of using the skin points of the Camper plane in real clinical practice to determine the occlusion plane is not reliable. Dermal landmarks are, by definition, arbitrary. The Camper’s plane is a visual rather than a structural landmark, which is not connected with the bone structures of the skull.

We consider it necessary to control this clinical stage of the formation of the prosthetic plane using computed tomography of the head in lateral projection. This technique will eliminate the mistakes made. The Camperian plane, traditionally identified by skin landmarks, is not a structurally stable and accurately reproducible landmark.

In the frontal projection, the wax base is aligned along the pupil line (Fig. 5). We consider it necessary to control this clinical stage due to computed tomography of the head in frontal projection (Fig. 6.)

The present method is to control the location of the prosthetic plane, determined clinically. The proposed method consists in the following: clinically determined position of the prosthetic plane in patients with unfixed the height of the lower part of the face is leveled due to the maxillary wax base, according to the previously described skin landmarks, at a doctor's appointment. Subsequently, the position of the maxillary wax base must be monitored using computed tomography of the head in sagittal and frontal projections. The examination is carried out on a dental dental tomograph, this device does not give distortion does not change the size of the bones of the patient’s head and the same bones in the picture. Computed tomography measures the error of the position of the prosthetic plane on the maxillary wax basis, it also measures how much the angle of inclination of the prosthetic plane needs to be changed (if an error is detected), so that it becomes parallel to the Camper plane (drawn along bone landmarks). To correct the situation, application of cutaneous points from a radiopaque substance to the patient’s skin is used. Subsequently, this inclination of the prosthetic plane is taken into account in our invention (programmable occlusal plane), i.e. the inclination of the table on which the model of the upper jaw is located will be parallel to the Camperian plane, determined radiologically.

To use the results of this method, a device is used to set the prosthetic plane after computed tomography of the head in sagittal and frontal projections. This device is designed to position the restored prosthetic plane of the upper jaw in the articulator.

A gypsum model of the upper jaw (wax basis of the upper jaw) is installed on table 1 (Figs. 7 and 8). To ensure coordination of the upper jaw relative to the lower jaw installed in the articulator, table 1 with the upper jaw has five degrees of freedom: linear displacements along the X, Υ, Z axes, rotation around the Z axis by an angle a, and rotation around the Y axis by an angle φ. The device consists of the following parts. The table 1 is mounted on the stand 2, and is fastened with a screw 3, which allows the table to be rotated through an angle a around the Z axis. The angle of rotation a is determined on the limb 4. The stand 2 is articulated with the body 5. The stand 2 has the ability to move linearly in the body along the Y axis and rotate around the Y axis by the angle φ. The rack is fixed in the casing with the set screw 6. The casing 5 is linearly moved along the X axis relative to the base 7. The casing position is fixed with the set screw 8. The base 7 is fixedly mounted on the upper plate 9, which linearly moves along the оси axis relative to the lower plate 10. Fixing the upper the plate relative to the bottom is carried out using the clamp 11. The device is installed in the articulator on the lower or upper table and is attached with the screw 12 and clamp 13.

The device allows you to align the clinically determined prosthetic plane for subsequent treatment of the patient. This is made possible by adjusting the inclination of the occlusal table on which the upper jaw model is located. The position of the table of the occlusal plane is parallel to the Camper plane, determined on computed tomography of the head in a sagittal projection.

The method for determining the projection of the Campanerian horizontal on the patient’s face allows us to build an individual prosthetic plane necessary for the precise placement of artificial teeth and, therefore, significantly improve the quality of prosthetics with full and partial removable laminar dentures.

The method for determining the projection of the Campanerian horizontal on the patient's face was tested on patients with complete absence of teeth. The results of prosthetics are good.

Claims

Claim

A method for determining the location of the prosthetic upper plane in patients with violations of the integrity of the dentition, characterized in that they determine the projection of the Camper horizontal on the patient’s face by transferring the point corresponding to the midpoint of the external auditory canal and the point corresponding to the anterior nasal spine obtained by computed tomography in sagittal projection onto the patient’s face and determine the position of the prosthetic plane in the sagittal projection as a plane parallel to Camper’s plane This is presented in the sagittal projection in the form of a line passing through these points, after which the position of the maxillary wax base is determined on the patient’s face in the frontal projection and aligned with the pupil line obtained on computed tomography of the patient’s head in the frontal projection.