RU2600148C1 - Smile harmony estimation method - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to dentistry, and can be used for smile harmony estimation. One performs face photometry with a forced smile. Smile image is marked out with reference and auxiliary points. All points are connected with straight lines, framing the smile image. Obtained ares is divided into 4 figures corresponding to the vestibule of mouth on the right, dental component, gingival component and the vestibule of mouth on the left. Each figure is divided into triangles calculating their area. Sum of the areas of each figure and percentage share of each smile component in the total area of smile is determined. If the value of the vestibule of mouth is up to 3% of the total area of smile, then such vestibule of mouth is estimated as narrow. If the value of the vestibule of mouth is 3% to 10% of the total area of smile, such vestibule of mouth is estimated as average. If the value of the vestibule of mouth is more than 10% of the total area of smile, such vestibule of mouth is wide. If the value of the gingival component is more than 5% of the total area of smile, then such a smile is estimated as “gingival smile”. If the gingival component and the vestibules of mouth are absent, and the dental component occupies the entire area of smile, then such a smile is estimated as “complete smile”.

EFFECT: method provides higher measurement accuracy and possibility of objective observation throughout all the stages of treatment, reduced time of measurement due to estimation of the whole area of the vestibules of mouth, the gingival and dental components of smile in mm.

1 cl, 10 dwg, 5 ex

Description

The invention relates to medicine, namely to dentistry, and can be used to diagnose the harmony of a smile, in particular its parameters such as the cheek corridors visible when smiling on the right and left, and the gingival and dental components visible when smiling.

Normally, with a smile, only the dental component should be visible (the part of the smile that includes the teeth bared when smiling). Such a smile is called a "full smile."

The gingival component is the part of the smile that includes the gum that is exposed when you smile. Normally, with a maximally open smile, only the gingival "triangles" between the teeth and a small strip of gums above them (no more than 2-3 mm wide) should be noticeable. If with a smile the gum is exposed more, then such a smile is called a “gum smile” and is inharmonious.

The buccal corridors are spaces (left and right) created by the buccal surfaces of the posterior teeth and the commissures of the lips. Normally, teeth should fill the corners of a smile.

A known visual method for assessing the presence and size of the buccal corridors and gingival component. It is performed during a clinical examination. The examinee is asked to smile and assess the presence of a “gummy smile” and / or buccal corridors using a ruler in mm. If, with a smile, the examined person has a gum strip above the teeth with a width of more than 3 mm, this indicates the presence of a “gummy smile”. If cheek corridors are determined by smiling at the subject, then it is possible to determine their size. In this case, the following criteria are used: a narrow buccal passage, when the distance between the commissure of the mouth and the vestibular surface of the posterior teeth is less than 2.5 mm; medium - the above distance is 2.5-3.5 mm; a wide buccal corridor - the distance between the commissure of the mouth and the vestibular surface of the posterior teeth is more than 3.5 mm (M.A. Danilova, P.V. Ishmurzin. Modern methods of diagnosing morphological and functional disorders in dentofacial anomalies: Textbook. / GOU VPO PSMA named after Academician E.A. Wagner of Roszdrav. - Perm, 2011 .-- S. 40-43).

The disadvantages of this method is the inconvenience of measuring, because it is performed on the patient during a clinical examination; lack of accuracy, as measurements of the height of the gingival component and the width of the buccal corridors are carried out only at one certain level (linearly), while the dimensions in other areas of the smile are not taken into account. And also with the visual evaluation method (in mm) it is difficult to fix the obtained dimensions on paper or electronic media.

Effect: increasing the accuracy of measurements by calculating the entire area of the buccal corridors, gingival and dental components with a smile in mm and the possibility of more accurate monitoring of changes in these parameters throughout all stages of treatment.

The indicated result is achieved by determining the values of the visible buccal corridors, gingival and dental components with a smile, characterized in that reference points are placed on the photo of the smile obtained by photometry of the face with a forced smile: the first point is the projection of the maxillary central interdental line on the lower edge of the upper lip , the second point is the projection of the maxillary central interdental line onto the upper edge of the lower lip, two points to the right and left, corresponding to the commissures (corners) of the mouth, and auxiliary glasses that help to frame the smile display as accurately as possible, while depending on the bending of the upper and lower lips, an unlimited number of such auxiliary points is possible, then connect all reference points with straight lines, framing the smile display, and divide the resulting area into 4 figures corresponding to the buccal corridor on the right , the dental component, the gingival component and the buccal corridor on the left, then divide each figure into triangles and determine the area of each triangle according to the well-known formula for determining the area of a triangle ika: S = ½ bh, where b is the base of the triangle, h is the height of the triangle, then the sum of the areas of each figure is determined and the ratio of these amounts in% is calculated among themselves: the buccal canal on the right: dental component: gingival component: the buccal corridor on the left, and if the buccal passage has a magnitude of up to 3% of the total smile display area, then such a buccal passage is evaluated as narrow; if the buccal passage is from 3% to 10% of the total smile display area, then the buccal passage is average; if the buccal passage is more than 10% of the total smile display area, then the buccal passage is wide; if the gingival component has a value of more than 5% of the total area of the smile display, such a smile is evaluated as a “gingival smile”; if the gingival component and the cheek corridors are absent, the dental component occupies the entire area of the smile — such a smile is evaluated as a “full smile”.

The method is as follows.

Photometry of the subject’s face is carried out with a forced (fixed) smile. Photographing is carried out when the subject is sitting or standing straight and looking forward. Ready-made photographs of the subject’s face with a smile are drawn according to the smile analysis technique presented below.

You can draw photos of the examined smiles on paper (or photo paper) using a pencil and a ruler. For greater accuracy and convenience, the size of the triangles can be measured in pixels in the Paint computer program for the Windows operating system. You can also print photos on graph paper, which will also facilitate the measurement process.

Smile analysis technique by determining the magnitude of visible buccal corridors, dental and gingival components when smiling.

Set reference points (Fig. 1):

Point 1 is the projection of the maxillary central interdental line onto the lower edge of the upper lip.

Point 2 is the projection of the maxillary central interdental line onto the upper edge of the lower lip.

Two points 3 - on the right and left, corresponding to the commissures (corners) of the mouth.

Auxiliary points 4 are points that help to frame the smile display as accurately as possible. Depending on the bending of the upper and lower lips, an unlimited number of auxiliary points is possible.

All reference points are sequentially interconnected by straight lines and get a "frame" corresponding to the display of a smile (Fig. 2).

Allocate into separate zones (if any): buccal corridors on the right and left 5 and gingival component 6 (Fig. 3).

The resulting areas are divided into clear triangles (Fig. 4).

Then each triangle is considered as a separate figure. According to the well-known formula for determining the area of a triangle S = ½ bh (where b is the base of the triangle, h is the height of the triangle) find the area of each triangle (Fig. 5).

The area of the triangles inside each area (tooth component, buccal corridors on the right and left, gingival component) is added together and the ratio of the area of the tooth component of the smile to the areas of the buccal corridors on the right and left and the area of the gingival component is calculated in% (the whole smile is considered for this one hundred%).

As a result, the ratio is as follows:

For example: 5%: 75%: 15%: 5%.

And if the buccal passage has a magnitude of up to 3% of the total smile display area, then such a buccal passage is estimated to be narrow.

If the buccal passage is between 3% and 10% of the total smile display area, then the buccal passage is average.

If the buccal passage is more than 10% of the total smile display area, then the buccal passage is wide.

If the gingival component has a value of more than 5% of the total smile display area, such a smile is evaluated as a “gingival smile”.

If the gingival component and the cheek corridors are absent, the dental component occupies the entire area of the smile - such a smile is evaluated as a “full smile”.

Examples of specific application.

Example 1. Patient G., 29 years old. Diagnosis: Anomaly in the position of the jaws. Anomaly in the position of the teeth. Before the orthodontic treatment, in order to obtain the best aesthetic result, a smile was diagnosed in accordance with four indicators: the size of the buccal corridors on the right and left, gingival and dental components. Photometry of the patient’s face with a forced smile was carried out, reference points were placed on the smile photo that were connected by straight lines, the resulting area was divided into 4 figures: the buccal canal on the right, the dental component, the gingival component and the buccal corridor on the left, then each figure was divided into triangles and the area of each triangle is determined by the formula S = ½ bh (where b is the base of the triangle, h is the height of the triangle), the sum of the areas of each figure is calculated and the ratio of these amounts in% to each other is calculated: 1 %: 81%: 15%: 3% (Fig. 6).

Conclusion: narrow cheek corridors on the right and left, "gingival smile".

Example 2. Patient B., 25 years old. Diagnosis: Anomaly in the position of the jaws. Anomaly in the position of the teeth. Before the orthodontic treatment, in order to obtain the best aesthetic result, a smile was diagnosed in accordance with four indicators: the size of the buccal corridors on the right and left, gingival and dental components. Photometry of the patient’s face with a forced smile was carried out, reference points were placed on the smile photo, which were connected by straight lines, the resulting area was divided into 3 figures: the buccal canal on the right, the dental component and the buccal corridor on the left (gingival component is missing), then each figure divided into triangles and the area of each triangle is determined by the formula S = ½ bh (where b is the base of the triangle, h is the height of the triangle), the sum of the areas of each figure is calculated and the ratio of these amounts in% is calculated among themselves: 11%: 79%: 0%: 10% (Fig. 7).

Conclusion: wide buccal corridors on the right and left.

Example 3. Patient M., 32 years old. Diagnosis: Anomaly in the position of the jaws. Anomaly in the position of the teeth. Before the orthodontic treatment, in order to obtain the best aesthetic result, a smile was diagnosed in accordance with four indicators: the size of the buccal corridors on the right and left, gingival and dental components. Photometry of the patient’s face with a forced smile was carried out, reference points were placed on the smile photo, which were connected by straight lines, the resulting area was divided into 3 figures: the buccal canal on the right, the dental component and the buccal corridor on the left (gingival component is missing), then each figure divided into triangles and the area of each triangle is determined by the formula S = ½ bh (where b is the base of the triangle, h is the height of the triangle), the sum of the areas of each figure is calculated and the ratio of these amounts in% is calculated among themselves: 5%: 79%: 0%: 6% (Fig. 8).

Conclusion: the middle buccal corridors on the right and left.

Example 4. Patient S., 17 years old. Diagnosis: Anomaly in the position of the jaws. Anomaly in the position of the teeth. Before the orthodontic treatment, in order to obtain the best aesthetic result, a smile was diagnosed in accordance with four indicators: the size of the buccal corridors on the right and left, gingival and dental components. Photometry of the patient’s face with a forced smile was carried out, reference points were placed on the smile photo that were connected by straight lines, the resulting area was divided into 4 figures: the buccal canal on the right, the dental component, the gingival component and the buccal corridor on the left, then each figure was divided into triangles and the area of each triangle is determined by the formula S = ½ bh (where b is the base of the triangle, h is the height of the triangle), the sum of the areas of each figure is calculated and the ratio of these amounts in% to each other is calculated: 9 %: 69%: 18%: 4% (Fig. 9).

Conclusion: middle cheek corridors on the right and left, "gingival smile".

Example 5. Patient L., 13 years old. Diagnosis: Anomaly in the position of the jaws. Anomaly in the position of the teeth. Before the orthodontic treatment, in order to obtain the best aesthetic result, a smile was diagnosed in accordance with four indicators: the size of the buccal corridors on the right and left, gingival and dental components. Photometry of the patient’s face with a forced smile was carried out, reference points were placed on the smile’s photo, which were connected by straight lines. The gingival component and the buccal corridors on the right and left are absent. The dental component takes up 100% of the smile. The ratio looks like: 0%: 100%: 0%: 0% (Fig. 10).

Conclusion: "full smile."

Positive effect: increasing the accuracy of measurements by calculating the entire area of the buccal corridors, gingival and dental components when smiling in mm and the possibility of more accurate monitoring of changes in these parameters throughout all stages of treatment, the ability to evaluate simultaneously three parameters of smile harmony using one measurement technique, reduction time of reception and diagnosis of a smile from a photograph (without the presence of the patient), the ability to clearly store the measurement results on paper and / or electronic onon carrier.

Claims (1)

A method for assessing the harmony of a smile, including determining the magnitude of visible buccal corridors, gingival and dental components in a photograph of a smile obtained by photometry of a face with a forced smile, while anchor points are placed on the smile image: the first point is the projection of the maxillary central intercutaneous line on the lower edge of the upper lip , the second point is the projection of the maxillary central interdental line onto the upper edge of the lower lip, two points to the right and left, corresponding to the commissures (corners) of the mouth, and an auxiliary The points that help frame the image of the smile, then connect all the points in straight lines, frame the image of the smile, and divide the resulting area into 4 figures corresponding to the buccal corridor on the right, the dental component, the gingival component and the buccal corridor on the left, then divide each figure into triangles and define the area of each triangle according to the formula

, where b is the base of the triangle, h is the height of the triangle, then the sum of the areas of each figure is determined and the percentage of the total smile area of each component of the smile is determined, namely, the buccal corridor on the right, the dental component, the gingival component, the buccal component on the left, and if the buccal passage is up to 3% of the total smile area, then such a buccal passage is evaluated as narrow; if the buccal passage is from 3% to 10% of the total smile area, then the buccal passage is average; if the buccal passage is more than 10% of the total smile area, then the buccal passage is wide; if the gingival component has a value of more than 5% of the total smile area, such a smile is assessed as a “gingival smile”; if the gingival component and the cheek corridors are absent, the dental component occupies the entire area of the smile — such a smile is evaluated as a “full smile”, the harmony of the smile is assessed by the state of its components: visible buccal corridors, gingival and dental components.

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