RU2708979C1 - Method for assessment of chewing efficiency of tooth-jaw system using computer - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, particularly to dentistry and is intended for use in dentistry in diagnosing for determination of chewing efficiency of tooth-jaw system. Total area of occlusal contacts of dentures is determined by digital method. Imprints of the antagonizing teeth of the occlusal contacts are obtained by an extraoral indirect method by closing the mounted in the individually tuned articulator of the jaw gypsum models in the position of habitual occlusion of the dental arches with 8–20 mcm of articulation paper laid between them and tracing paper. Further, the obtained image of the occlusal contact prints is scanned, and then the total area of the occlusal contacts impressions is calculated by means of the computer software.

EFFECT: method enables accurate and objective determination of chewing efficiency of the tooth-jaw system at the diagnostic stage and after the treatment, by obtaining impressions of occlusal contacts on plaster models of jaws mounted in the articulator in the position of habitual occlusion.

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Description

The invention relates to medicine, in particular to dentistry and can be used in dentistry at the diagnostic stage and after treatment in patients with partial and complete absence of teeth, with dentoalveolar anomalies and deformations, tooth injuries of carious and non-carious origin to evaluate chewing effectiveness.

Currently, in dentistry, static methods are used (calculation of masticatory efficacy according to Agapov, Oksman, Kurlandsky), which do not take into account the presence of dentoalveolar anomalies and deformations, they do not allow to evaluate masticatory effectiveness during functional activity, in particular during chewing, giving an assessment of only potential possibilities of the dentition in relation to the function of chewing. Dynamic methods (chewing tests) allow us to evaluate chewing effectiveness during the chewing function, which brings these methods much closer to determining the true value of chewing effectiveness in comparison with static tests. When performing chewing samples, arbitrary average control numbers are used to analyze the results, which makes it difficult to individualize these samples. These methods of evaluating masticatory effectiveness are laborious both in their implementation and in processing the results. In addition, their implementation requires the use of additional material and equipment (food material, special sieves, high-precision scales, etc.). [I.Yu. Lebedenko, T.I. Ibragimov, A.N. Ryakhovsky. Functional and apparatus research methods in orthopedic dentistry - M .: MIA, 2003].

A known method for determining the area of occlusal contacts using computer software [Dolgalev A.A. The methodology for determining the area of occlusal contacts using the software Adobe Photoshop and Universal Desktop Ruler // Dentistry. - 2007, No. 2]. In order to improve the accuracy and objectivity of the study, a modified method for assessing chewing effectiveness was proposed by determining the area of occlusal contacts using thinner grades of articulation paper and thinner grades of fingerprints of occlusal contacts [Beinarovich S.V. A modified technique for assessing chewing effectiveness by determining the area of occlusal contacts using computer software / S.V. Beinarovich // Materials of the I international (VIII final) scientific-practical conference of young scientists. Chelyabinsk: Publishing House "Chelyabinsk State Medical Academy", 2010. - S. 22-25]. This method is used in medicine, but has limited use due to the fact that imprints of occlusal contacts are obtained directly in the oral cavity. This leads to distortion and incomplete or deformed prints due to the presence of saliva; to the displacement of articulation paper and / or the carrier of prints in the oral cavity due to the fact that the doctor is not able to completely control their correct location, as well as to control the correct closing of the patient’s mouth, which also leads to displacements of the lower jaw and inaccurate, uninformative results . This method is taken as a prototype.

The claimed method differs from the known one mentioned above in that imprints of occlusal contacts are obtained on gypsum models of jaws mounted in an articulator in the position of usual occlusion using articulating paper of fine grades (8-20 μm), which allows more accurate assessment of chewing effectiveness.

In the methods known from the prior art [SU 1082394 A, 03/30/1984; RU 2502494 C1, 12/27/2013] gypsum models of jaws mounted in an occluder or articulator are also used. In these methods, carbon paper or articulation paper / foil is used as a means of checking the density of occlusal contacts by the imprints left on the gypsum model of the antagonizing jaw, without taking into account the size of the contact areas of the gypsum model of the jaw. That is, the fingerprints only indicate the presence of an occlusal contact and its localization. In the claimed method, articulation paper is used to transfer fingerprints of antagonizing teeth onto a paper carrier (tracing paper) without losing information about the area of the contacting areas of the gypsum models of the jaws, which allows not only to evaluate the position of the available prints, but also to visualize their actual sizes depending on the area of the contacting areas dentition models.

The basis of the invention is the task of creating a method that allows you to more accurately assess chewing effectiveness.

This problem is solved by the fact that in the method of chewing effectiveness is estimated by the total area of the patient's occlusal contacts, because there is a direct proportional relationship between them.

The inventive method allows to evaluate the masticatory effectiveness both at the diagnostic stages and after the therapeutic, orthodontic or orthopedic dental treatment, allows you to compare the results to assess the restoration of the lost chewing function of the dentition.

In practical medicine, the use of static and dynamic methods for determining chewing effectiveness is known. However, they have flaws and inaccuracies.

In the proposed method, the determination of chewing effectiveness by the total area of occlusal contacts outside the oral cavity is used for the first time.

To solve the above problem, patients with intact dentition, patients with partial absence of teeth, patients with dentoalveolar anomalies and deformations, with carious and non-carious lesions of the teeth, as well as patients after dental treatment were examined.

The application of the method in dentistry allows you to have a positive impact on the diagnosis and assessment of the quality of the dental treatment for the restoration of masticatory function.

The method is illustrated by photographs:

Photo 1 - gypsum models of the upper and lower jaws cast from class 4 gypsum (super gypsum);

Photo 2 - installation of a gypsum model of the upper jaw in the articulator using the front arch in order to accurately transfer the position of the upper jaw in space;

Photo 3 - obtaining fingerprints of occlusal contacts on thin tracing paper with articulating paper in an articulator with gypsum models of the upper and lower jaws mounted in the position of the usual occlusion;

Photo 4 - obtained prints of occlusal contacts on a thin medium (tracing paper);

Photo 5 - scanned image of occlusal contacts;

Photo 6 - scanned image of occlusal contacts in the program window for calculating the total area of occlusal contacts and the resulting summation.

The method of evaluating the chewing effectiveness of the dentofacial system using computer software is as follows. Accurate gypsum models of the upper and lower jaws of the patient are made of class 4 gypsum (super gypsum) (photo 1). A gypsum model of the upper jaw is mounted in the articulator using the front arc in order to accurately transfer the position of the upper jaw in space (photo 2). After mounting the plaster model of the lower jaw in the articulator in the position of the usual occlusion, imprints of occlusal contacts on a thin medium (tracing paper) are obtained using mild articulating paper grades (8-20 μm) (photo 3, 4). Then scan the resulting prints on tracing paper, translating into digital format (photo 5). The resulting scan is opened in a graphical editor, the fingerprints of the contacts are selected, and with the help of programs that allow calculating the area of geometric shapes of irregular shapes, the total area of occlusal contacts is determined (photo 6).

The proposed method differs from the existing ones in that it allows one to obtain more accurate and objective results for evaluating the masticatory effectiveness of the dentofacial system using computer processing of fingerprints of occlusal contacts due to the fact that fingerprints of occlusal contacts are obtained outside the oral cavity. This allows you to maintain the integrity of the prints. The method allows the operator (in this case, the doctor) to produce controlled prints of occlusal contacts by using accurate plaster models and an articulator taking into account the individual position of the jaws in space.

Example 1

Patient N., 35 years old, went to the clinic with complaints of multiple carious lesions of the teeth. Diagnosis: dentin caries.

During the examination, the total area of occlusal contacts was determined - 156 mm ² . Therapeutic readjustment was carried out, the teeth were restored with direct restorations. When re-determining the total area of the occlusal contacts received a value of 210 mm ² . This indicates an increase in the chewing effectiveness of the patient's dento-maxillary system.

Example 2

Patient V., 34 years old, turned to the university clinic with complaints of aesthetic defects, improper position and crowded teeth. Diagnosis: tooth loss due to an accident, removal or local periodontal disease, complicated by deformation of the dentition.

During the examination, the total area of occlusal contacts was determined - 130 mm ² . A comprehensive dental orthodontic and orthopedic dental treatment was carried out. When re-determining the total area of occlusal contacts received 210 mm ² . This indicates an increase in the chewing effectiveness of the patient's dento-maxillary system.

Example 3

Patient A., 50 years old, went to the clinic complaining of a partial lack of teeth. Diagnosis: tooth loss due to an accident, removal or local periodontal disease.

During the examination, the total area of occlusal contacts was determined - 85 mm ² . Rational prosthetics with fixed orthopedic constructions (bridge prosthetics) was carried out. By re-determining the total area of occlusal contacts, a value of 260 mm ^{2 was} obtained. This indicates an increase in the masticatory effectiveness of the dento-maxillary system in the patient, and the restoration of masticatory function.

Thus, the claimed method provides a more accurate, objective assessment of the masticatory effectiveness of the dentofacial system of the patient.

The invention is used in medicine, in particular in dentistry, at the diagnostic stage and after treatment in patients with partial and complete absence of teeth, with dentofacial anomalies and deformations, tooth injuries of carious and non-carious origin to evaluate the chewing effectiveness of the dentofacial system.

Claims (1)

A method for evaluating the masticatory effectiveness of the dentofacial system using computer software, including determining the total area of occlusal contacts of the dentition using the digital method, characterized in that the imprints of the occlusal contacts of the antagonizing teeth are obtained by an extraoral indirect method by closing the plaster models of the jaws mounted in the individually configured articulator in the usual position occlusion of the dentition with the help of 8-20 microns articulating paper laid between them and tracing paper; obtained traces of occlusal contacts on tracing paper were digitized by computer image scanning; Using the obtained image scan and computer software, the total area of the imprints of the occlusal contacts, expressed in mm ² , was calculated.

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