WO2020162783A1 - Method for diagnosing facial configuration in the reconstruction of mandibular defects - Google Patents

Abstract

The group of inventions relates to dentistry. Proposed is a method for diagnosing facial configuration in the restoration of mandibular defects which is characterized in that on a full-face photograph or full-face scan of a patient an initial facial frame is formed which corresponds to the individual proportions of the patient's face. Then, with the aid of computer tomography, a full-face image is obtained, and the image obtained is dimensionally aligned with the photograph or scan of the patient's face by the matching of reference points. Next, a secondary facial frame is formed on the photograph or scan of the patient's face which corresponds to the initial proportions of the patient's face and in which the bases and side borders are 62% and 38% of the corresponding dimensions of the initial facial frame, the latter being superimposed on the image obtained with the aid of computer tomography to determine the need to correct the height of the dental arches in the event of a difference in the heights of the frames, and also to determine the difference in the heights of the frames which corresponds to the height by which the dental arches are to be reconstructed. The group of inventions provides for simplification of the method for diagnosing flaws in the facial configuration of a patient by determining the initial starting position of the mandible relative to the proportions of the face of the specific patient.

Description

METHOD FOR DIAGNOSING FACIAL CONFIGURATION WHEN RESTORING JAW DEFORMATION

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Technology area

The invention relates to dental medicine, in particular, it considers a method for diagnosing violations of the configuration of a human face. In this case, we are talking about the diagnosis of violations of 10 parameters of the face (height, width of the face), in order to obtain additional information for planning treatment.

Prior art

In the process of life, the dentition of a person is subject to 15 daily stress. Various factors (erasure of enamel, caries, trauma) can disrupt the integrity of the teeth and lead to deformations of the dentition. This, in turn, leads to incorrect load distribution during the functioning of the dentition and an increase in the wear of the teeth themselves, their premature destruction. 20 Destruction of the dentition leads to changes in closure, a decrease in the height of closure (bite), which in turn leads to deformities of the face.

In most cases, changes in the height of the bite lead to changes in the shape of the skull and external changes in the skin, namely, the folds of the face become more pronounced (nasolabial folds, fold under the lower lip), changes in the pupillary line are possible.

In the process of destruction or deformation of the dentition, there is a decrease in the bite (decrease in the lower third of the face), which leads to a decrease in the height of the face. Thus, in case of any violations of the configuration of the dentition, the normal value of the height of the face changes. Currently, there are many ways to determine the initial, that is, the initial (normal) state of a person's face shape by constructing a face model.

Thus, KR20160004865 describes a method for generating a face model reflecting a change in the face in accordance with the result of a simulated operation to move teeth during an orthodontic procedure and, more specifically, a method for creating a model similar to a real one using two-dimensional facial images and head tomogram data as input data. , as well as the use of a three-dimensional technique for reconstructing a CAD model, texturing technology or a technique for matching the data of the result of forming the surface of a three-dimensional model and a three-dimensional color scanner. The invention provides a method for generating a facial model for simulating a dental procedure, reflecting a change in the shape of a face in accordance with imitation of tooth movement. The method includes the steps of: obtaining data from a 20-photograph of a face and an image of a 3D head; creation of a ZO-model of the front surface using the obtained image of the ZO-head; the third stage of obtaining a textured model of the face using a device or software capable of obtaining a ZO-model of a surface having a texture from specific data or model; and a fourth step of comparing and matching the 3D facial model and the face model on which the textured facial model is mounted. It can be used for all tasks, including simulating face change in real time. That is, a realistic 3D face model is created to look like an actual face when simulating a dental procedure.

US5951498 describes a method for cephalometric analysis of soft tissues for diagnosis and a method for cephalometric planning for aesthetic correction of facial imbalance in a patient. The method includes determining the normal dimensions, distance, angles and meanings in harmony of various landmarks of the face of aesthetically attractive persons from the population group. Markers are placed on soft tissue landmarks on the patient's head image. A vertical line is established, and soft and hard tissue benchmarks are measured to the vertical line. A database of measurements of dimensions and angle of major facial landmarks values may include dentoskeleton measurements, soft tissue measurements, facial length measurements, and horizontal projections of key facial features onto the true vertical line.

WO2015063032 discloses a method for placing and using projection guides in a virtual environment for use in dental treatment, which includes the steps of acquiring a 3D image of a part of a patient's face, acquiring a 20-image, matching a 20-image and a 3D representation of a part of the face, generating at least one design guides based on facial features in 20-image; and applying at least one design guide for 3D representation.

W02008128700 describes a method for automatically scheduling dental treatment for a patient, which includes: (a) obtaining data about the area to be treated and data about the patient's face; (B) conducting computer analysis of the data to determine the properties of at least the patient's face; (c) creating a modified tooth setup using a set of saved rules that use certain facial properties. The 3D image simulates the appearance of a modified tooth setting and the patient's face area surrounding the treatment area. The method also determines the properties of existing teeth and creates a modified tooth setting that is also based on the patient's existing teeth. This method can be implemented as software. From US 2015265374, A61 C7 / 00, G06K9 / 00, G06T7 / 00, A61 B19 / 00, A61 B5 / 00, publ. 09/24/2015, a method of treatment and evaluation of results is known, including the construction of three-dimensional facial and dental representations (for example, a three-dimensional virtual model) of the patient from photographs of the patient's face and mouth and determining the location and / or orientation of one or more facial and dental signs of the patient, to compare them with a reference standard and develop a treatment plan for the subject based on the differences between patient measurements and the reference standard. The reference system may include one or more sets of tables that define reference planes and the distance between a landmark on the face (eg, center of the pupils or bridge of the nose) or dental feature (eg, a point on a tooth) and one or more reference planes.

This decision was taken as a prototype for the claimed method.

The disadvantage of the known solution lies in the sufficient complexity of its implementation, due to the large number of measurements and comparisons of these measurements with subsequent correlations, which ultimately leads to the appearance of errors and obtaining a model that outwardly coincides with the original, but is not inherent in the individual characteristics of the person under study. Thus, the basis of the known method is the construction of a human face mask in three images (full face and two profiles from different sides). Then, taking into account the identified problem in the dentition, this facial mask is correlated in accordance with the tabular data on the normal position of certain main points on a person's face in the direction of bringing this mask to the appearance of a standard image. In this case, correlation operations are carried out taking into account the soft tissue (skin) without transferring the main points to the bone structure. In fact, the known method is aimed at carrying out dental restoration work in order to preserve individual features of the structure of a person's face while ensuring the standards of standardization of the ratio of head sizes. As a result, the method allows to preserve the peculiarity of the structure or construction of a person's face (in order to preserve his individual appearance and ensure recognition after the end of dental treatment). Naturally, this method does not fully take into account the state and proportions of the bony part of the head, including the position of the dentition with a normally formed closure, which should in reality be applicable to this person and, naturally, make adjustments to the face shape. Despite the fact that modern means of computer data processing make it possible to obtain an almost accurate image of a person's face that visually coincides with the original, one must not forget that the resulting image is a process of data processing according to certain algorithms that do not change, but work according to the principle of data rounding. This algorithmic rounding process is necessary in order to eliminate the appearance of a large number of digits after the decimal point, but it is this rounding that makes adjustments to any image. That is, in fact, the computer creates its own image, which is as close as possible to the original and visually coincides with it. But this is only a visual coincidence within the scope of the visual assessment of the object. In real practical restorative work, such images initially introduce an error into the process of modeling the dentition.

Disclosure of invention

The present invention is aimed at achieving a technical result consisting in simplifying the method for diagnosing violations of the configuration of a person's face in terms of determining the initial initial position of the lower jaw according to the ratio of the proportions of the face of a particular person. b

The specified technical result is achieved by the fact that the method for determining the initial proportions of a person's face to restore deformities of the dentition is characterized by the fact that in a photograph of a face in the frontal position or a scan of a person's face in a frontal position, a primary facial frame is formed corresponding to the individual proportions of a person's face and consisting of a lower the base, which is a horizontal line tangent to the lower point of the chin, the upper base in the form of a horizontal line tangent to the upper point of the parietal region, and lateral boundaries in the form of vertical lines tangential to the extreme points of the zygomatic bones and perpendicular to the lines of the upper and lower bases, then, using computed tomography, a face image is obtained in the frontal position, and the resulting image is aligned in size with a photograph or scan of a person's face by coincidence of the location points along the outer border of the right eye and the outer border of the left eye, naib A more protruding point at the edge of the nose and the lowest point on the chin, after which a secondary facial frame is formed on a photograph or scan of a person's face, corresponding to the initial proportions of a person's face and in which the bases and lateral borders are 62% and 38% of the corresponding sizes of the primary facial frame , which is superimposed on the image obtained using computed tomography, to determine the difference in the heights of the frames corresponding to the height of the dentition to be restored.

The specified technical result is achieved by the fact that the method for diagnosing violations of the configuration of a person's face during dental work is characterized by the fact that in a photograph of a face in the frontal position or a scan of a person's face in a frontal position form a primary facial frame corresponding to the individual proportions of a person's face and consisting of a lower base, which is a horizontal line tangent to the bottom point chin, upper base in the form of a horizontal line tangent to the upper point of the parietal region, and lateral boundaries in the form of vertical lines tangential to the extreme points of the zygomatic bones and perpendicular to the lines of the upper and lower bases, then using computed tomography, an image of the face is obtained in the position full face, and the resulting image is aligned in size with a photograph or scan of a person's face by coincidence of the location points along the outer border of the right eye and the outer border of the left eye, the most protruding point at the edge of the nose and the lowest point on the chin, after which a secondary facial frame is formed on a photograph or scan of a person's face, corresponding to the original proportions of a person's face and in which the bases and lateral borders are 62% and 38% of the corresponding dimensions of the primary facial frame, which is superimposed on the image obtained using computed tomography, and if there is a difference in heights frames establish the need to correct the height of the dentition.

These features are essential and are interconnected with the formation of a stable set of essential features, sufficient to obtain the required technical result.

The present invention is illustrated by a specific example of execution, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result.

Description of drawing figures

FIG. 1 - the location of the main points on the skull;

fig. 2 - building a frame of a person's face;

fig. 3 - a snapshot of the face obtained using computed tomography;

fig. 4 - face scan or photograph of a person's face; Fig. 5 - frame of the ratio of the sizes of a person's face in accordance with the golden ratio

fig. 6 is a photograph taken using computed tomography showing the restored proportions of the face

5 people.

Best embodiments of the invention

According to this utility model, a new method is considered for determining the initial proportions of a human face for the restoration of deformities of the dentition.

In general, this method is based on the fact that in a photograph of a face in the frontal position or a scan of a person in a frontal position, a primary facial frame is formed corresponding to the individual proportions of a person's face and consisting of a lower base, 15 which is a horizontal line tangent to the lower point of the chin , the upper base in the form of a horizontal line tangent to the upper point of the parietal region, and lateral boundaries in the form of vertical lines running tangentially to the extreme points of the zygomatic bones and perpendicular to the lines of the upper and lower 20 bases.

This facial frame, called primary, passes through the main points of a person, which are fixed on the very face of a person, that is, on the soft tissue (skin). This frame forms data on the proportions of the face height and face width in the natural condition for a person 25 before the start of dental work.

With the help of computed tomography, an image of the face is obtained in the frontal position, and this image is aligned in size with a photograph or scan of a person's face by coincidence of the location points along the outer border of the right eye and the outer zo border of the left eye, the most protruding point on the edge of the nose and the lowest point on the chin. Thus, by the method bringing the coordinates of points on one image to the location of the same points on another image, accurate images of a photo or scan and images from computed tomography are obtained in order to eliminate the error caused by the presence of soft tissue integuments.

After that, a secondary front frame is formed on a photograph or scan of a person's face, corresponding to the initial proportions of a person's face and in which the bases and lateral borders make up 62% and 38% of the corresponding sizes of the primary front frame. Thus, a match is obtained on the points of a person's face with simultaneous binding to the bone structure of the head (face) of a person.

A primary facial frame is overlaid on a computed tomography image. This allows you to determine the difference in the heights of the frames, which corresponds to the height of the dentition to be restored.

Thus, the new diagnostic method is designed to analyze the proportions of the face (Fig. 1). For this, we use complex computed tomography data, a photo of a face or a 3D face scan. The use of this data is necessary to maintain maximum accuracy in measurements.

Based on this data, we measure the width and length of the face.

In the course of measurements, points are placed on the data of computed tomography (Fig. 1), photographs or scan of the patient's face. Point 1 is the vertex (v) point, the highest point on the skull. Point 2 - gnathion (gn), a point on the lower edge of the lower jaw. Points 3, 4 - zygion (zy), the most prominent point on the zygomatic bone.

These points are landmarks for the construction of the primary front frame, lines pass through them. Based on the data of a photo or scan of a face, a face frame is formed, the lines of which pass through the above-described points (landmarks), it characterizes the individual parameters of the width and height of the face (Fig. 2). Based on these data, it is possible to analyze external changes, a decrease in the closing height. The lower base of the frame is tangent to the chin, the upper base of the frame is the line tangent to the parietal region, the lateral borders of the frame are perpendicular lines from the upper to the lower bases, passing tangentially to the zygomatic bones.

In order to analyze in detail the structural changes that led to irregularities in the proportion of the face, it is necessary to combine the computed tomography data of the photo or scan of the face. Preliminarily, on the data of computed tomography, we display soft tissue (skin) structures, since in the photo or scan, only skin (soft tissue) structures can be seen, therefore, the two combined objects should be as similar as possible. For this union, points are used: point 5 - the outer border of the right eye; point 6 - outer border of the left eye; point 7 - the most prominent point at the edge of the nose; point 8 - the lowest point on the chin (Fig. 3 and 4).

The construction of the face frame is necessary to identify violations of the proportion of the face. Using the frame, it is possible to analyze the height and width of the face. The normal values (norm) for the ratio of face length to face width are digital values of the "golden ratio" (golden ratio). For practical purposes limited to an approximate value = 1, 618 .... In percentage terms, the golden ratio is a division of any value in the ratio of 62% and 38%. For research, the ratio of the height of the face to the width of the face is analyzed (Fig. 5).

In the process of destruction or deformation of the dentition, there is a decrease in the bite (decrease in the lower third of the face), which leads to a decrease in the height of the face. Thus, for any violation it is possible build a face frame with normal face height values.

In these calculations, we use computed tomography to adapt the above calculations aimed at increasing the height of the face, directly for clinical purposes. Those. these data can be used by the doctor to restore the required height of the face when restoring the dentition 9 rows of the patient (Fig. 6).

The normal percentage of face height is 62%. The main reasons leading to a decrease in the height of the face are the destruction of the dentition. Thus, restoring the ratio of the height of the face to the width of the face, based on the golden ratio, the doctor understands how much it is necessary to restore the dentition 9.

The claimed method is based on two combined analyzes:

A) analysis of the height and width of the face, carried out from the data of a photo of a face or a scan of a face.

B) analysis of the height and width of the face can be carried out by X-ray examinations of the human head.

B) the data of the photo or scan of the face are combined with the data of the X-ray examination of the head, for subsequent calculations.

A feature of the claimed method, in comparison with analogues and the prototype, is that a special frame is formed on the photo or scan of a person's face, characterizing the individual parameters of the face, then after special calculations a "restored" new frame is formed (based on the proportions of the golden section), with the correct dimensions, showing how much it is necessary to change the parameters of the face when restoring deformities of the dentition.

With the additional addition of data from X-ray examination of the head, a combined analysis is carried out with data from a photo or scan of a face, violations of the dentition of the upper and of the lower jaw and calculations for how much it is necessary to change the closure of the dentition.

The developed method in the dental field of dentition correction can be used as a diagnostic method to determine the need for corrective actions before the onset of a clear manifestation of the defect. In this case, this method, as a method for diagnosing violations of the configuration of a person's face during dental work, is characterized by the fact that in a photograph of a face in the frontal position or a scan of a person's face in a frontal position, they form a primary facial frame corresponding to the individual proportions of a person's face and consisting of a lower base, which is horizontal a line tangent to the lower point of the chin, the upper base in the form of a horizontal line tangent to the upper point of the parietal region, and lateral boundaries in the form of vertical lines tangential to the extreme points of the zygomatic bones and perpendicular to the lines of the upper and lower bases. After that, using computed tomography, a face image is obtained in the frontal position, and the resulting image is aligned in size with a photograph or scan of a person's face by coincidence of the location points along the outer border of the right eye and the outer border of the left eye, the most protruding point on the edge of the nose and the lowest point on the chin.

The performed steps are necessary to create a secondary facial frame on a photograph or scan of a person's face, in which the bases and lateral borders are 62% and 38% of the corresponding sizes of the primary facial frame, which is superimposed on the image obtained using computed tomography. And if there is a difference in the heights of the frames, the need to correct the height of the dentition is established.

Industrial applicability The present invention is industrially applicable, research and practical application has been carried out, which has shown a high reliability result. The claimed method is characterized by simplicity of execution, while the results obtained provide high reliability based on the results of restorative dental work.

Claims

Claim

1. A method for determining the initial proportions of a person's face to restore deformities of the dentition, characterized by the fact that in a photograph of a face in a full-face position or a scan of a face

5 of a person in the frontal position form a primary facial frame corresponding to the individual proportions of a person's face and consisting of a lower base, which is a horizontal line tangent to the bottom of the chin, an upper base in the form of a horizontal line tangent to the upper point of the parietal region, and

10 lateral boundaries in the form of vertical lines passing tangentially to the extreme points of the zygomatic bones and perpendicular to the lines of the upper and lower bases, then using computed tomography an image of the face is obtained in the frontal position, and the resulting image is sized with a photograph or

15 scan of a person's face according to the coincidence of the location points along the outer border of the right eye and the outer border of the left eye, the most protruding point at the edge of the nose and the lowest point on the chin, after which a secondary facial frame is formed on a photograph or scan of a person's face, corresponding to the initial proportions

20 of a human face, and in which the bases and lateral boundaries are 62% and 38% of the respective dimensions of the primary facial frame, which is superimposed on the image obtained using computed tomography, to determine the difference in frame heights corresponding to the height of the dentition to be restored.

25 2. A method for diagnosing violations of the configuration of a person's face during dental work, characterized by the fact that in a photograph of a face in the frontal position or in a scan of a person's face in a frontal position, they form a primary facial frame corresponding to the individual proportions of a person's face and consisting of a lower base,

BO which is a horizontal line tangent to the bottom of the chin, the upper base in the form of a horizontal line, tangent to the upper point of the parietal region, and lateral boundaries in the form of vertical lines passing tangentially to the extreme points of the zygomatic bones and perpendicular to the lines of the upper and lower bases, then using computed tomography, an image of the face is obtained in the frontal position, and the resulting image is aligned in size with a photograph or scan of a person's face by coincidence of the location points along the outer border of the right eye and the outer border of the left eye, the most protruding point on the edge of the nose and the lowest point on the chin, after which a secondary facial frame is formed on the photograph or scan of the human face, corresponding to the initial proportions human face and in which the bases and lateral borders make up 62% and 38% of the corresponding dimensions of the primary facial frame, which is superimposed on the image obtained using computed tomography, and if there is a difference in the heights of the frames, the need to correct the height of the dentition is established dov.