RU2662898C2 - Method for determining the way of canines eruption in the period of formation of occlusion of permanent teeth - Google Patents

Abstract

FIELD: medicine; dentistry.SUBSTANCE: invention relates to medicine, namely, to dentistry, and can be used to diagnose anomalies in the position of canine teeth on the upper and lower jaws both during the period of the replaceable occlusion, and during the period of the formed occlusion of permanent teeth. On the orthopantomogram of the jaws the points “Dzn” to be marked, that are located at the intersection of the line, corresponding to projection of the distal slope of the zygomatic process of the upper jaw with the shadow of the hard palate, and the point “C”, which are located near the lateral walls of the nasal passage. Main anatomically stable landmarks for determining the way of the canines eruption on the orthopantomograms of the jaws are fang lines. For their construction a horizontal line is drawn on the orthopantomograms of the jaws, connecting the points “Dzn”, distance from the point “Dzn” to the point “Dzn” is divided into three equal segments and the points “C” are obtained. From points “C” drop perpendiculars to the intersection with the shadow of the lower edge of the body of the lower jaw and receive vertical canine lines. To determine the angulation of the canines, measure the angle, formed at the intersection of the canine line and the axis of the canines of the upper and lower jaw, angle between the canine line and the axis of the canine on the upper jaw denote α, on the lower jaw – γ, mesial deflection of the canine of the upper jaw from the canine line is designated (+α), distal deviation is denoted by (-α), mesial deflection of the canine of the lower jaw from the canine line is denoted as (+γ), distal deviation is denoted as (-γ). Depending on the angles α and γ 3 degrees of deviation of the pathway for the canines eruption of the upper and lower jaw from the canine lines are distinguished: I degree of deviation is the angle α and γ from (-5) to (+5) degrees – characterizes the favorable way of the canine eruption; II degree of deviation is the angle α and γ from (-15) to (-6) and from (+6) to (+15) degrees – it is possible to avoid the retention of the canine; III degree of deviation is the angle α and γ more (-15) or more (+15) degrees – high risk of canine retention.EFFECT: method makes it possible to increase the accuracy of determining the way of the canines eruption on the orthopantomograms of the jaws.1 cl, 1 dwg

Description

The invention relates to medicine, namely to dentistry of childhood and orthodontics, and can be used to diagnose the determination of the path of eruption of fangs, which allows for timely correction of anomalies in the position of teeth on the upper and lower jaws both during the interchangeable bite and during the bite permanent teeth.

Deviations from the path of eruption of the emerging rudiment of the canine can cause tooth retention and provoke disturbances in the formation of the dentition of the upper and lower jaw. The determination on the orthopantomograms of the jaws of the eruption path and the position of the canines is a necessary step in orthodontic treatment.

Yu.I. In 1994, Zhigurt singled out three degrees of tilt of the longitudinal axes of the retined complete teeth, including the canines of the upper and lower jaw. To determine the angles of inclination of the teeth on the orthopantomogram of the jaws, he drew a mid-sagittal plane through the middle of the opener and the point of the anterior nasal protrusion; Perpendicular was drawn at the level of the cutting edges of the permanent incisors of the upper jaw and to this plane, with respect to which the angles of inclination of the longitudinal axes of the canines were determined: on the upper jaw - upper internal angles, on the lower - lower internal (Zhigurt Yu.I. Plan and treatment prognosis for retention of teeth: abstract of dissertation ... candidate of medical sciences // JSC "Dentistry". - M. - 1994. - 23 p.).

The disadvantage of the proposed method is that it does not provide for determining the deviation of the canine axis from its natural position.

In the method proposed by Yu.L. Obraztsov and S.N. Larionov, studied the angle of inclination of the fangs to the midline. (Obraztsov Yu.L., Larionov S.N. Propaedeutic orthodontics study guide. St. Petersburg, SpecLit, 2007. - 79 p.). However, the method proposed by the authors also does not provide for determining the deviation of the canine axis from its natural position.

According to the Dausch-Neumann method, angulation of canines is determined by measuring the angle formed by the intersection of the occlusal line and the axis of the canines. (SV Chernenko, Orthodontics for adults. Methods of preparing the oral cavity for prosthetics in case of abnormalities and deformities of the position of the teeth and occlusion. - M., Mittel Press LLC printing house, 2009 - 53 pages).

The disadvantage of this method is that the occlusal line is not informative, since during dentoalveolar deformities it can pass at an angle to different degrees of severity relative to the horizon, which significantly distorts the angulation of canines.

A known method of detecting anomalies in the position of the teeth and the choice of treatment tactics (RF, No. 2561293 C1 IPC A61C 19/00 from 04.24.2014). Orthopantomograms are obtained, which are scanned for the purpose of more accurate calculations. After that, the electronic version is transferred to a personal computer, where all the calculations are carried out in the Gimp graphics editor. An anomaly in the position of the teeth of the upper and lower jaws in the sagittal plane is determined by the internal angle facing the midline of the dentition, which is formed when the Frankfurt horizontal and the longitudinal axis of the tooth intersect. The authors give the averaged angles for two planes - sagittal and vertical.

The disadvantage of this method is that it does not take into account the determination of the path of eruption of fangs, and it cannot be applied during the period of interchangeable bite. The proposed method cannot determine the true position of the canines in the jaws, since the middle line of the dentition determines the position of the medial incisors, and the canine can be located at an angle corresponding to the norm proposed by the authors, both in the sagittal and vertical planes, but at the same time have a position in an area not uncharacteristic of this tooth.

The closest analogue was not found by us.

The task of the invention is to increase the accuracy of determining the path of eruption of canines during the formation of the occlusion of permanent teeth through the use of anatomically stable landmarks, which are fang lines.

The essence of the claimed invention is illustrated in (Fig. 1), which shows a diagram of an orthopantomogram of the jaws with plotted lines and angles that indicate the path of eruption of the canines of the upper and lower jaw. Digital values indicate the contours of anatomical formations:

1 - zygomatic process of the upper jaw;

2 - a shadow of a solid sky;

3 - contours of the external nose.

To determine the path of the eruption of fangs during the formation of the occlusion of permanent teeth, an X-ray examination of the patient is carried out, as a result of which an orthopantomogram of the jaws is obtained.

The main anatomically stable reference points for determining the path of fangs eruption on orthopantomograms of the jaws are considered to be the Dzn points located at the intersection of the line corresponding to the projection of the distal slope of the zygomatic process of the upper jaw with a shadow of the hard palate and the point C located near the lateral walls of the nasal passage. The main lines for determining the position of the canines relative to anatomically stable landmarks are considered to be fang lines. To build them on the orthopantomograms of the jaws draw a horizontal line connecting the points "Dzn". The distance from the point "Dzn" to the point "Dzn" is divided into three equal segments and get the point "C". Perpendiculars are lowered from points “C” until they intersect with the shadow of the lower edge of the body of the lower jaw and receive vertical fang lines.

To determine the angulation of canines, the angle formed at the intersection of the canine line and the axis of the canines of the upper and lower jaw is measured. The angle between the canine line and the axis of the canine on the upper jaw is denoted by α, on the lower jaw - γ.

The mesial deviation of the canine of the upper jaw from the canine line is indicated by (+ α), the distal deviation is indicated by (-α).

The mesial deviation of the canine of the lower jaw from the canine line is indicated by (+ γ), the distal deviation is indicated by (-γ).

Depending on the values of the angles α and γ, there are 3 degrees of deviation of the path of eruption of the canines of the upper and lower jaw from the canine lines.

I degree of deviation - the angle α and γ from (-5) to (+5) degrees - characterizes the favorable path of teething.

II degree of deviation - the angle α and γ from (-15) to (+15) degrees - it is possible to avoid fang retention.

III degree of deviation - the angle α and γ is greater than (-15) or greater than (+15) degrees - a high risk of canine retention.

The technical result of the claimed invention is to increase the accuracy of determining the path of eruption of fangs on the orthopantomogram of the jaws for the prevention of dentofacial anomalies during the formation of a permanent bite.

Claims (1)

A method for determining the path of fangs eruption during the period of occlusion of permanent teeth, characterized in that on the orthopantomogram of the jaws mark the points "Dzn" located at the intersection of the line corresponding to the projection of the distal slope of the zygomatic process of the upper jaw with a shadow of the hard palate, and the point "C", which are located near the lateral walls of the nasal passage, the main anatomically stable guidelines for determining the path of eruption of fangs on orthopantomograms of the jaws are fang lines, for their construction on x-ray pantomograms of the jaws, as shown in figure 1, draw a horizontal line connecting the points "Dzn", the distance from the point "Dzn" to the point "Dzn" is divided into three equal segments and get the point "C", from the points "C" lower the perpendiculars to the intersection with the shadow of the lower edge of the body of the lower jaw and receive vertical fang lines, to determine the angulation of the fangs, measure the angle formed at the intersection of the fang line and the axis of the fangs of the upper and lower jaw, the angle between the fang line and the axis of the canine on the upper jaw indicate α, on the lower her jaw - γ, the mesial deviation of the canine of the upper jaw from the canine line is indicated by (+ α), the distal deviation is indicated by (-α), the mesial deviation of the canine of the mandible from the canine line by (+ γ), the distal deviation is indicated by (-γ), depending on the values of the angles α and γ, there are 3 degrees of deviation of the path of eruption of the canines of the upper and lower jaw from the canine lines, I degree of deviation — the angle α and γ from (-5) to (+5) degrees — characterizes the favorable path of eruption of the canine, II degree deviations - the angle α and γ from (-15) to (-6) and from (+6) to (+ 15) degrees - it is possible to avoid fang retention, III degree of deviation - the angle α and γ greater than (-15) or more (+15) degrees - a high risk of fang retention.

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