WO2013051956A1

WO2013051956A1 - Method for locating an anatomical plane which is parallel to the plane of occlusion

Info

Publication number: WO2013051956A1
Application number: PCT/RU2011/000784
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: 2011-10-06
Filing date: 2011-10-06
Publication date: 2013-04-11
Also published as: RU2471452C1

Abstract

The invention relates to medicine. The method for locating an anatomical plane which is parallel to the plane of occlusion consists in that a plane passing through the interincisal papilla of the maxilla and the tip of the styloid process is used as the plane which is parallel to the plane of occlusion, the position of the base of the styloid process being defined on a line from the Articulare point to the Basion point at a distance of 0.7-0.9 cm from the Articulare point.

Description

The method of finding the anatomical plane that is parallel to the plane of occlusion

Technical field

The invention relates to medicine, namely to orthopedic dentistry. The invention relates to a new method for the exact clinically determined position of the anatomical plane, which is parallel to the plane of occlusion.

The treatment of patients with defects in the dentition presents a complex problem of creating prostheses that meet functional and aesthetic requirements. These prostheses should restore individual occlusion of the dentition and not distort the usual movements of the lower jaw. Thus, when restoring the integrity of the dentition, it is necessary to take into account the individual slope of the restored occlusal plane and the trajectory of the movements of the lower jaw. Properly constructed form of the dentition restores the function of chewing food and the work of the temporomandibular joint.

State of the art

Deformations of the dentition caused by a violation of their integrity, cause various functional displacements of the lower jaw, as well as a decrease in the interalveolar height and lower third of the face. Over time, functional changes are fixed morphologically (Vares E.Ya., 1983, 1993).

Normalization of occlusion of the dentition is aimed at restoring the individual anatomical relationships of the dentition in all 3 planes, taking into account the central position of the heads of the lower jaw. To accomplish this task, it is necessary an integrated approach, including: clinical examination of the patient, x-ray examination of the patient to analyze the position of the heads of the lower jaw and the inclination of the occlusal plane.

In orthopedic dentistry, the restoration of the occlusal plane is carried out through the manufacture of fixed and removable structures. In this case, it is necessary to take into account the individual inclination of the occlusal plane with the help of tele-roentgenography in sagittal and frontal projections or computed tomography of the head, followed by cephalometric analysis. Cephalometric analysis reveals the anthropometric features of the location of the occlusal plane.

To accurately recreate the occlusal (prosthetic) plane, there are cutaneous and bone landmarks; these landmarks form planes parallel to the occlusal.

One of these landmarks is the Camper line. Peter

Camper considered the horizontal plane as part of the front angle, and this anatomical landmark was called the Camper line. This line has been used in dentistry for many years as a relative landmark line (Kazanoglu A., Unger J.W., 1992).

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 painted on the face (RU 2283620, A61 B6 / 00, publ. 20.09.2006 city). Adopted as a prototype. The reconstructed prosthetic plane is constructed in a way that includes determining the parallelism of the occlusal surface of the wax maxillary base along the nasal line in the lateral section using the pupil rulers, the parallelism of the rulers indicates the correct formation of the prosthetic (occlusal) plane, and Larin’s apparatus can also be used to control parallelism (A.I. .Evdokimov, 1974).

E.I. Gavrilov, A.S. Shcherbakov (1984) came to the conclusion that the nasal line should be parallel to the Campus horizontal, which passes through the anterior nasal spine and the lower edge of the external auditory canals on the bone skull.

The presence of a parallel plane passing along the bone landmarks is necessary so that the position of the occlusion plane can be determined.

In 1955, Cooperman H.N., Willard S.B. began a study in which more than 10 thousand skulls of people of the modern era were studied. Studying the maxillary dental arches with erased occlusal surfaces, the researchers tried to find anatomical landmarks that would correspond to the occlusal plane. As a result, 3 anatomical landmarks were found, namely: pterygo-maxillary grooves and interdental papilla. So HIP appeared - a plane anatomically connected with the skull. Rich N. (1982) also studied the relationship between the occlusal and HIP planes. He confirmed the conclusions of Cooperman H.N. and Willard S.B., calculating that in 84% of cases the discrepancy between the HIP plane and the occlusion plane with erased occlusal surfaces did not exceed 4 °.

However, unlike orthopedic dentistry, where the Camper plane is widely used to determine the inclination of the occlusal plane, this plane does not find almost any use in orthodontic and therapeutic dentistry. Disclosure of invention

The present invention is aimed at achieving a technical result, which consists in increasing the accuracy of determining the position of the occlusion plane.

The specified technical result is achieved in that the method of finding the anatomical plane that is parallel to the occlusion plane is characterized in that as a plane that is parallel to the occlusion plane, use a plane passing through the interdental papilla of the upper jaw and the apex of the styloid process, the location of which is determined on the line from Articulare points to the Basion point at a distance of 0.7-0.9 cm from the point of Articulare.

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

Description of the figures of the drawings

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 - shows the real relationship of the Camperian plane with the occlusion plane;

FIG. 2 - shows the relationship of the ΗΙΡ-plane with the occlusal plane; FIG. 3 - shows the ratio of the PSIP plane to the occlusion plane;

FIG. 4 - finding the base of the styloid ridge. The best embodiments of the invention

According to the present invention, a new method is considered, which consists in finding an anatomical plane that is almost parallel to the plane of occlusion.

The authors were tasked to determine the anatomical bone landmarks for the subsequent construction of a plane that is parallel to the occlusal plane or as close as possible to it.

After analyzing the data of cephalometric calculations of tomograms in the sagittal projection, the following parameters were calculated: the ratio of the Camper plane to the occlusion plane, the ratio of the HIP plane to the occlusion plane and the search for a new plane parallel to the occlusion plane.

The Camperian plane has skin and bone landmarks for its construction.

The methodology for finding the Camper plane according to skin landmarks has several drawbacks: there is no unified opinion of doctors regarding the location of the nasal line on the face of a person, skin landmarks are by definition arbitrary and subjectively determined by each doctor, the Camper plane constructed by skin landmarks is more visual than structural landmark that is not associated with the bone structures of the skull, because depends on the structural features of facial tissues (Fig. 1).

1 - point Po, 2 - point Sna, 3 - point on the cutting edge of the central lower incisor, 4 - point on top of the distal buccal tubercle lower first molar, line (1 - 2) - Camber plane, line (3 - 4) - Occlusal plane

The Bone Camperian plane passes through the points Po - Sna.

Our computer tomogram calculations showed that in 88% of cases there are significant differences between the Camperian plane and the occlusal plane, i.e. they are not parallel. In 12% of the examined patients, the discrepancy between the occlusal and Camperian planes was 15-21 °.

HIP - plane (Hamulus - Incisive Papilla) passes through the hook of the pterygoid process and interdental papilla. In 80% of the examined patients, the discrepancy between the HIP plane and the occlusal plane did not exceed 9 ° (Fig. 2),

.1 - Hamulus point, 2 - Incisive Papilla point, 3 - point on the cutting edge of the central lower incisor, 4 - point on top of the distal buccal tubercle of the lower first molar. Line (1 - 2) - HIP plane, line (3 - 4 ) - The occlusal plane.

The plane we found (PSIP) passes through the bone landmarks: the interdental papilla of the upper jaw and the apex of the styloid process.

The cephalometric analysis showed a coincidence in the parallelism of the occlusal plane and the plane we found in

82% with a possible difference of 2 ° -3 ° (Fig. 3).

1 - Hamulus point, 2 - Incisive Papilla point, 3 - point on the cutting edge of the central lower incisor, 4 - point on top of the distal buccal tubercle of the lower first molar, 5 - Po point, 5 - Sna point, 6 - Po point, 7 - point (PS) at the apex of the styloid process, line (1 - 2) - HIP plane, line (3 -4r) - Occlusal plane, line (5 6) - Camber plane, line (2 -7zh) -

If you have difficulty finding the direction of the styloid process, it is necessary to conduct a cephalometric analysis (Fig. 4).

1- point Ar, 2- point Ba, 3- point on the basis of the styloid process

We calculated that the base of the styloid process is on the line from the point Ar (Articulare) to the point Ba (Basion) and averages 0.7-0.9 cm from the point Ar. The direction of the styloid process is on the line from the base of the styloid process to unevenness on the basis of the body of the lower jaw.

Industrial applicability

Thus, we proposed a new technique for finding the anatomical plane, which is the most accurate parallel reference to the occlusal plane with a possible difference of 2 ° -3 °. The PSIP plane is a guideline for restoring dentitions for prosthetics of patients, which greatly facilitates the creation of individual orthopedic structures.

Claims

Claim

A method for finding an anatomical plane that is parallel to the occlusion plane, characterized in that as a plane that is parallel to the occlusion plane, use a plane passing through the interdental papilla of the upper jaw and the apex of the styloid process, the base of which is determined on the line from the point of Articulare to the point of Basion on 0.7-0.9 cm from the point of Articulare.