RU2310420C1 - Method for evaluating dental row anomaly in transverse direction - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves carrying out clinical examination of patient, taking mandible and maxillary imprints, manufacturing plaster control and diagnostic models. Actual dental row width is measured on the mandible and maxillary imprints in the first premolars level as distance between Pon points. Individual dental row width optimum is measured in the first premolars region. Distance from the left to the right zygion point and the values are substituted into relationship of b₁=r_zy-zy/k₁, where b₁ is the individual dental row width optimum in the first premolars region, r_zy-zy is the distance between the zygion points; k₁=3.5 is the adjustment index. The value is compared to the actual dental row width in the first premolars region. The difference value is interpreted in terms of anomaly expression. Adjustment index k₂=2.7 in the second version.

EFFECT: enhanced effectiveness in estimating orthodontic disorders degree.

2 cl, 4 dwg, 1tbl

Description

The invention relates to medicine, namely to orthodontic dentistry, and can be used to evaluate and diagnose dentoalveolar anomalies, which are necessary for the correct substantiated dentoalveolar correction.

Known methods for assessing anomalies of the dentition in the transverse direction. Among them, a method for the diagnosis of dentofacial anomalies - patent SU No. 1727784. Depending on the field of study and specific diagnostic tasks, it uses various methods for obtaining initial measurement information, including photographic stereotypes of the face and jaws. X-ray diffraction patterns, CT scans of the head, and plaster models of the jaws can also be used. Anthropological landmarks are points of a single occlusal curve, points of the median palatine suture and others. Prepare the patient for shooting, marking the anthropometric points, determine their coordinates. "Measure and introduce corrections to computed tomograms or other types of tomograms for large-scale or affine transformation, as well as for the type of projection." Modulate a single geometric model of all areas of the external and internal structures of the face and skull. The inventors use the defining concepts of “ideal face”, “personal biomorphological norm and pathology of dentofacial anomalies”, “an aesthetic factor taking into account the facial index”, “proportionality of individual parts along the golden section”, “shape of dental arches projected onto the gnatic plane in in the form of an ellipse, projected onto the median plane in the form of an arc of a circle. ” These terms and expressions are necessary criteria for the numerous mathematical transformations of the authors in this invention, with the help of which medical personnel must evaluate the dentoalveolar anomaly of the patient.

However, in this method, second-order equations, matrices of higher algebra, and other complex concepts for use in medical practice by the staff in medical practice are used, such as, for example, “application points, direction and magnitude of force (module) are calculated on a medical device based on a mathematical analysis of vectors ... ".

There is also a method of determining the severity of sagittal and transverse occlusal curves and a device for its implementation - patent RU No. 2218127. This method determines the severity of transverse occlusal curves in the development of orthopedic dental structures and in planning treatment. It includes measurements of the characterizing parameters of these curves with respect to the reference frame. The difference of this method lies in the fact that they choose the Frankfurt horizontal, which is fixed with the help of an arc, the distance from the points of the central fissure and the apex of the tubercles to the facial arch, as well as the angle of inclination with respect to the facial arch, are measured successively for each tooth. Using the data of these measurements, they are mathematically processed using the rules of the right triangle and trigonometric functions, the true distance from the point under study to the Frankfurt horizontal is determined, and through the combination of these indicators for all the teeth studied they characterize the individual severity of transverse occlusion curves.

However, this method is not intended to measure all parameters in a transverse direction.

There is also a method of measuring the transverse dimensions of the dentition of A. Pona [p.70-72. Persia L.S. Orthodontics. Diagnosis and treatment of dentofacial anomalies: a guide for doctors. - M .: OJSC Izd "Medicine"; 2004 .-- 360 s. ill.], which is based on the relationship between the sum of the mesiodistal sizes of the 4 upper incisors and the distance between the first premolar on the upper and lower jaws. In the area of the first premolars, the width of the dentition is measured on the upper jaw - between the points in the middle of the inter-tubercle fissure - and on the lower jaw - between the distal contact points on the slope of the buccal tubercles. Next, calculate the premolar index

There is also a known method for measuring the transversal dimensions of A. Pon's dentition [ibid.], Which is based on the relationship between the sum of the mesio-distal sizes of the 4 upper incisors and the distance between the first permanent molars on the upper and lower jaws. According to this method, the width of the dentition is measured on the upper jaw - between the points in the front recesses of the longitudinal fissure, and the lower jaw - between the posterior buccal tubercles. Next, calculate the molar index

Closest to the claimed method (option No. 1) is the method of Linder and Hart [p.72. Persia L.S. Orthodontics. Diagnosis and treatment of dentofacial anomalies: a guide for doctors. - M .: OJSC Izd "Medicine"; 2004 .-- 360 s. ill.], which amended the index number in the aforementioned classical method A. Pona - a method for measuring the transverse dimensions of the dentition by parameters in the area of the first premolars. According to these authors, the premolar index = 85.

However, the use of this diagnostic method in clinical cases in which there is a congenital or acquired edentia of the incisors, anomalies of their form of different genesis, is significantly difficult.

Closest to the claimed method (option No. 2) is the method of measuring the size of the dentition N. Snagina, which amended the index characterizing the relationship between the width of the face and the width of the dental arches in the region of the first permanent molars. According to Snagina N.G. in children aged 11-15 years with an orthognathic bite, the width of the face of the zygomatic arch region is 2.5 times the width of the dental arch in the region of molars [p.130. Guide to Orthodontics / Ed. F.Ya. Khoroshilkina. - 2nd ed., Rev. and add. - M.: Medicine, 1999. - 800 p.: Ill.].

The objective of the proposed method is to assess the deviations of the transverse dimensions of the upper and lower dentition from the optimal and possible for this patient, based on the transverse dimensions of the maxillofacial complex that he has.

The essence of the claimed invention lies in the fact that in the method for evaluating dentition anomalies in the transverse direction (option 1), in which a clinical examination is carried out, impressions are taken from the upper and lower jaws, gypsum control and diagnostic models are made, the actual width of the dentition is measured on them in the area of the first premolars as the distance between the Pont points, determine the optimal individual width of the dentition in the area of the first premolars, compare it with the actual width of the dentitions and their times awns judged normal or severity of abnormalities, for determining an optimum width of individual dentition in the region of the first premolars measure the distance from the left point to the right zygion, substitute values obtained in relation

where b ₁ is the optimal individual width of the dentition in the region of the first premolar,

r _zy-zy - distance between points zygion,

k ₁ = 3,5 - correction index.

The essence of the claimed invention according to option 2 lies in the fact that in the method for evaluating dentition anomalies in the transverse direction, during which a clinical examination is carried out, impressions are removed from the upper and lower jaws, gypsum test and diagnostic models are made, and the actual width of the upper and lower ones is measured on them the dentition in the region of the first permanent molars as the distance between the Pont points, determine the optimal individual width of the dentition in the region of the first permanent molars as the distance between t chkami zygion considering correction code, it is compared with the actual width of the dentition in the region of the first permanent molars and their difference is judged on the rate or severity of abnormalities, the optimum width of individual dentition in the region of the first permanent molars determined by the relation

where b ₂ is the optimal individual width of the dentition in the region of the first permanent molars,

r _zy-zy - distance between points zygion,

k ₂ = 2.7 - correction index.

The technical result of the proposed method consists in the possibility of a medical assessment of orthodontic disorders by technical methods and means, and some technical methods have not been used previously to draw conclusions about the degree of discrepancy with the optimal anatomical proportions, namely, the width of the upper and lower dentitions. This discrepancy has a negative effect on the aesthetics of the patient’s face, and mainly on the aesthetics of his smile, which can lead to a decrease in the patient’s social activity, complicates his self-realization in society, forming a psychological complex of personality, which, of course, affects the quality of life. In addition, a deviation of this parameter from the norm can lead in some patients to a violation of the vital functions of the body: in particular, chewing and swallowing, which leads to disruption of the gastrointestinal tract, the state of which affects the health of the whole human body. The originality of the technical method of the proposed method consists in measuring to assess the width of the dentition of the external parameter of the face - the width of the patient's face - the distance between the right and left points of the zygion (the most protruding points of the zygomatic arch of the patient). By this parameter, measured from the outside of the patient’s face, they judge the value of the parameters inside - in the oral cavity. This technique has not yet received sufficient fame due to the insufficient study of the relationship between the size of the patient's face and the parameters of the dentition. This also explains the receipt of new parameters - correction indices. This found ratio, obtained and verified, confirmed in hundreds of patients with orthognathic bite, by the employees of the departments of dental faculties of the Volgograd and Saratov medical universities under the guidance of the authors of this invention, at the testing stage, it was possible to more accurately evaluate the severity of dentoalveolar anomalies of patients.

The inventors have already proved the established value of the ratio between the width of the patient’s face and the parameters of the width of the dental arches in people with orthognathic bite in the age of 15 to 18 years, regardless of cranial and facial indices. The ratio values are 3.5 for the width of the dental arches in the premolar region and 2.7 for the width in the molar region. These values are confirmed in the vast majority of patients and are recommended for practical accounting in the work of orthodontists.

The following table fragment characterizes the measurements taken by the authors for groups of examined patients.

Morphometric parameters The sizes of the head, face and sky (in mm) in individuals: male female p M ± m M ± m zy-zy 123.31 0.31 118.14 0.65 <0.05 Width of dental arches in the area of premolars 35.23 0.09 33.75 0.19 <0.05 The width of the dental arches in the molar region 45.67 0.11 43.76 0.24 <0.05

where M is the arithmetic mean value;

m is the average error of representativeness;

p is the probability of a possible error.

The method is illustrated using figures 1-4, which indicate significant points between which measure the distance included in the claims in the form of distinctive features. Figure 1 shows the control and diagnostic models and photographs of the patient, figure 2 - a mechanism for measuring the actual width of the dentition in the area of premolars at the Pont points, figure 3 - the mechanism for measuring the actual width of the dentition in the region of the first permanent molars between the Pont points , Fig.4 - a mechanism for measuring the width of the face between the points zygion

The method is as follows. During the examination of the patient determine the width of the face between the points of zygion. To determine this parameter, it is recommended to obtain a radiological image of the patient’s head in direct projection. In this picture, the width of the patient’s face is determined by the distance between the most protruding outward points of the patient's zygomatic arches. Measure the value in mm and record the result. According to option 1 of the invention, it is divided into a correction index of 3.5 and the optimal value of the width of the dental arches in the region of the first premolars for this patient is obtained. According to option 2 of the invention, the value of the width of the face is divided by a correction index of 2.7 and get the optimal width of the dental arches in the region of the first permanent molars. An impression is taken from the upper and lower jaws with the obligatory obtaining of a clear imprint of the dentition, according to which gypsum control and diagnostic models of the upper and lower jaws are made, on which the actual value of the width of the dental arches in the area of premolars and molars at Pont points is measured according to standard rules. The obtained actual values of the width of the dental arches are compared with similar ones obtained at the beginning of the method and the difference in their values, if any, judges the severity of the pathology and then, based on the received assessment, selects recommendations for correction of the dentition of the patient’s dentition depending on the degree and nature of violations.

Example No. 1. Patient D., 18 years old, was admitted to the clinic of the Department of Pediatric Dentistry of the Volgograd Medical University with complaints about the uneven position of the upper and lower teeth. During the clinical examination, the diagnosis was made: "left-sided occlusion, direct incisive occlusion, palatine position of 12 and 22 teeth, crowding of the front teeth of the lower dentition, microdentium of 12 and 22 teeth, secondary adentia of 15 and 23 teeth." Impressions from the upper and lower jaws were taken from the patient with the obligatory obtaining of clear prints of the upper and lower dentition; made plaster control and diagnostic model of the jaw (figure 1). On the models, the actual width of the dentition in the area of the first premolar at the Pont points was measured, which turned out to be 34.5 mm for the upper dentition and 38 mm for the lower one (Fig. 2).

To determine the optimal individual width of the dental arches in the region of the first premolars, the distance between the right and left zygion points on the tele-radiograph in direct projection was determined. As a result, a value of 134 mm was obtained (FIG. 4). To determine the optimal width of the dentition in the premolar region, the obtained value - 134 mm - was divided by the established correction index of 3.5. As a result of the measurements, it was found that the optimal width of the dentition in the area of the first premolar at the Pont points is 38.3 mm. Thus, comparing the obtained value with the actual ones, we established the need to increase the width of the upper dentition by 3.8 mm in the area of the first premolar, which is an indication for the use of expansive elements during orthodontic treatment in order to achieve a morphological, functional and aesthetic optimum in the maxillofacial area.

Example No. 2. Patient D., 18 years old, was admitted to the clinic of the Department of Pediatric Dentistry of the Volgograd Medical University with complaints about the uneven position of the upper and lower teeth. During the clinical examination, the diagnosis was made: "left-sided occlusion, direct incisive occlusion, palatine position of 12 and 22 teeth, crowding of the front teeth of the lower dentition, microdentium of 12 and 22 teeth, secondary adentia of 15 and 23 teeth." Impressions from the upper and lower jaws were taken from the patient with the obligatory obtaining of clear prints of the upper and lower dentition; made plaster control and diagnostic model of the jaw (figure 1). On the models, the actual width of the dentition in the region of the first permanent molars at the Pont points was measured, which is equal to 45.7 mm for the upper dentition and 50 mm for the lower dentition (Fig. 3).

To determine the optimal individual width of the dental arches in the region of the first permanent molars, the distance between the right and left zygion points on the tele-roentgenogram in direct projection was determined. As a result, a value of 134 mm was obtained (FIG. 4). To determine the optimal width of the dentition in the area of the first permanent molars, the obtained value - 134 mm - was divided by the established correction index of 2.7. As a result of the measurements, it was found that the optimal width of the dentition in the region of the first permanent molars at the Pont points is 49.6 mm. Thus, comparing the obtained value with the actual one, we established the need to increase the width of the upper dentition in the area of the first permanent molars by 3.9 mm, which is an indication for the use of expansive elements during orthodontic treatment in order to achieve a morphological, functional and aesthetic optimum in the maxillary facial area.

Claims (2)

1. A method for assessing dentition anomalies in the transverse direction, during which a clinical examination is carried out, impressions are taken from the upper and lower jaws, gypsum test and diagnostic models are made, the actual width of the dentition in the area of the first premolar is measured on them as the distance between the Pont points; determine the optimal individual width of the dentition in the region of the first premolars; compare it with the actual width of the dentition in the region of the first premolars and judge by the difference in the norm or severity of the anomaly, characterized in that to determine the optimal individual width of the dentition in the region of the first premolars, measure the distance from the left to the right zygion, substitute the obtained value in ratio

where b ₁ is the optimal individual width of the dentition in the region of the first premolar, r _zy-zy - distance between points zygion, k ₁ = 3,5 - correction index. 2. A method for assessing dentition anomalies in the transverse direction, during which a clinical examination is carried out, impressions are taken from the upper and lower jaws, gypsum test and diagnostic models are made, the actual width of the upper and lower dentitions in the area of the first permanent molars is measured on them as the distance between Pont points; determine the optimal individual width of the dentition in the first permanent molars as the distance between the zygion points, taking into account the correction index; compare it with the actual width of the dentition in the region of the first permanent molars and judge by the difference in the norm or severity of the anomaly, characterized in that the optimal individual width of the dentition in the region of the first permanent molars is determined using the ratio

where b ₂ is the optimal individual width of the dentition in the region of the first permanent molars, r _zy-zy - distance between points zygion, k ₂ = 2.7 - correction index.

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