RU2689860C1 - Method of making position of maxilla - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to orthopedic dentistry and beam diagnostics, and can be used for determination of upper jaw position. Computed tomography of brain and skull is performed to patient. Tomograms are processed in the Anatomage program to obtain 3D cephalograms. On 3D-cephalograms, the ANS point corresponding to the apex of the front nasal spine and the point Pt-M corresponding to the lower point of the wing of the super-maxillary fissure are marked. Point Pt-M is marked to the right and to the left. ANS-Pt-M plane corresponding to the true position of the upper jaw is constructed through the points ANS and Pt-M.EFFECT: method enables personification of 3D images of skull of true size and true position of upper jaw when making prosthetic structures by dental technician, reduced risk of development of temporomandibular joint dysfunction in patients and allows eliminating repetition measures by constructing an ANS-Pt-M plane on 3D cephalogram.1 cl, 3 dwg, 1 ex

Description

The invention relates to medicine, namely to prosthetic dentistry, and is intended to accurately determine the position of the upper jaw on the skull.

Knowledge of the exact position of the upper jaw is necessary when planning the shape of the teeth to be restored to ensure the correct occlusion between the upper and lower jaws, as well as the possibility of movement of the lower jaw along a trajectory that does not cause tension, masticatory muscles. Violation of these parameters over time leads to dysfunction of the temporomandibular joint, giving the patient considerable discomfort and reduced quality of life. When the pathological process spreads to the muscles of the neck and back due to their spasm, pathology develops in the cervical spine.

The plane of the upper jaw is static in relation to the base of the skull [1]. The known method, when to determine the position of the upper jaw of the patient perform teleroentgenography (TRG) of the skull in the front and side projections. The ANS (spina nasalis anterior) point corresponding to the top of the anterior nasal spine, which coincides with the front display of the bottom of the nasal cavity and the PNS point (spina nasalis posterior) corresponding to the posterior border of the base of the upper jaw that coincides with the apex of the posterior nasal spine [2]. An ANS-PNS plane is constructed through these two points, which determines the position of the upper jaw.

The position of the upper jaw can be determined by finding the lowest point of the maxillary fissure (fissura pterygomaxillaris) - the Pt-M point with a tangent along the sky contour. Thus, the palatal plane, the plane ANS-Pt-M, can be defined, according to which the position of the patient's upper jaw is judged [2].

Also, the position of the upper jaw can be determined on the TRG in a lateral projection by the Kamper line drawn through the ANS point corresponding to the top of the anterior nasal spine and the Po point (porion) corresponding to the lower edge of the external auditory canal on the patient's skin [3].

The disadvantages of these methods are the necessity of constructing the examined planes on the TLG, the image of the skull on which is on average 10% more relative to its true size and the poor visibility of the PNS point due to the layering of the shadows of the buds of the constant molars. The Kamper line is not a structurally stable and accurately reproducible guideline in determining the position of the upper jaw due to the subjectivity of finding points located on the skin, lack of communication with the bony structures of the skull, discrepancy of the external auditory canals of the patient with the hinge axis of the articular heads of the temporomandibular joint [4].

One of the components of the Hasund (Bergen) analysis [5] is the construction of the palatal plane through ANS points and Pt-M points on the right or left, marked on the LEG in lateral projection. The disadvantages of the method are similar to the above. This method is taken as a prototype.

The aim of the invention is to determine the true position of the upper jaw in patients with a dental profile.

This goal is achieved by performing a computed tomography of the skull of the patient; tomograms are processed in the Anatomage program, obtaining 3D cephalograms on which the ANS point and the Pt-M points are marked on the right and left, through which the ANS-Pt-M plane is built, corresponding to the true position of the upper jaw.

The technical result of the proposed method is the ability to obtain 3D images of the skull of true size, quick identification of all the necessary points on the skull without binding soft tissues and building a plane ANS-Pt-M plane, coinciding with the plane of the true position of the upper jaw on the skull, which allows the personification of data in the manufacture of prosthetic structures by a dental technician, reduces the risk of dysfunction of the temporomandibular joint in patients and in most cases allows for remove reprosthetic measures

The method of determining the position of the upper jaw involves performing a computed tomography of the skull to the patient. Computer tomograms are pre-processed in the “Anatomage” program, obtaining 3D cephalograms on which the ANS point and the Pt-M points on the right and left are marked, through which the ANS-Pt-M plane, corresponding to the true position of the upper jaw, is constructed.

The method is illustrated with graphic material. Figure 1 shows a 3D computed tomogram image of a patient's skull in the right lateral projection, on which the ANS and Pt-M (R) points are marked. Figure 2 shows a 3D computed tomogram image of the patient's skull in the left lateral projection, on which the ANS and Pt-M (L) points are marked. Figure 3 is a 3D image of a computed tomogram of the patient's skull in the frontal plane, on which the ANS-Pt-M plane was constructed through the ANS, Pt-M (R) and Pt-M (L) points.

The application of the method is illustrated by a clinical example.

Patient A. went to the clinic with complaints of pain in the area of the right temporomandibular joint, which appeared 6 months after prosthetics of partially missing teeth on the upper and lower jaws, 3 Kennedy class.

According to the anamnesis, it was established that for the purpose of examining and planning treatment at the previous stage, the patient was subjected to a lateral projection of the TRG, in which the position of the upper jaw was determined by constructing the Camper line. The transfer of the position of the upper jaw in the form of its plaster model was carried out in the traditional way using the facial arch and articulator. After completion of all dental prosthetics measures, after 6 months the patient developed a clinical picture of dysfunction of the temporomandibular joint.

In the clinic, the patient underwent computed tomography of the skull with the processing of computerized tomograms in the Anatomage program and the subsequent construction of the ANS-Pt-M plane, corresponding to the position of the upper jaw. A comparative 3D cephalometric analysis showed that the position of the upper jaw, as well as other structures, is significantly different from the position previously determined by the TRG. Defects in the previous planning and implementation of prosthetic teeth, which resulted in dysfunction of the temporomandibular joint, were revealed.

Taking into account a certain true position of the upper jaw, the planning and reprosthetics of the teeth was carried out. The patient was observed for two years - there was no manifestation of dysfunction of the right temporomandibular joint. The patient was satisfied with the result of the treatment.

The method can be applied in orthodontics, prosthetic dentistry, maxillofacial surgery during planning, at the stage of treatment, in the analysis of immediate and long-term results of treatment.

Information sources

1. Igaku-Shoin F.K. Schsuttaner Large Atlas of Human Anatomy - 1997 - Publ. Comp. - 468 c.

2. Doroshenko S.I., Kulginsky E.A. Basics of telegenography. Kiev, - 2007. - Health. - 72 s.

3. Fadeev R.A., Kuzakova A.V. Clinical cephalometry - 2009 - 64 p.

4. Athanasiou A.E. Ortodontic Cephalometry. - 1995. - Mosby Wolf. - 293 p.

5. An Atlas on Cephalometric Landmarks. - 2013 - Jaypee Brothers Medical Publishers. - 223 p.

Claims (1)

The method of determining the position of the upper jaw, including the patient performing an x-ray examination followed by marking the ANS point corresponding to the top of the anterior nasal spine and the Pt-M point corresponding to the lower point of the maxillary-maxillary wing, characterized in that the patient performs a CT scan of the skull, tomograms are processed in the program " Anatomage ”, receiving 3D cephalograms on which the ANS point and the Pt-M points on the right and left are marked, through which the ANS-Pt-M plane is constructed, corresponding to the true position of the faith her jaw.

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