RU2186524C2 - Method for detecting the degree of thoracic deformation - Google Patents

Abstract

FIELD: medicine, juvenile surgery, orthopedics, rehabilitation. SUBSTANCE: method deals with computer optic topography of body surface. It is tested the projectional line of thoracic surface in sagittal plane in girls at formation of secondary sexual signs. One should determine LH arch height at crossing of projectional and axial lines. Deformation degree is detected according to LH value. EFFECT: higher accuracy of detection. 7 dwg, 1 tbl

Description

 The method relates to medicine, namely to methods for visual diagnosis of biomechanical changes in the musculoskeletal system, and can be used in pediatric surgery, orthopedics and rehabilitation.

 Congenital pathologies play an increasing role in the problem of pediatric orthopedics. One of these pathologies is congenital deformity of the chest. A lot of work has been devoted to the study of this problem. They capture both the topic of diagnosis and surgical treatment.

 For the diagnosis of chest deformity, an X-ray method is used, which consists in the fact that the patient undergoes a chest x-ray in two projections. In a straight line, the position of the heart, the state of the pulmonary system are assessed, and a lateral projection is necessary to determine the degree of deformation of the chest (Gizycka I., Ocena wskazan i metod leczenia operacynjnego leikowatei bleatki pierciowei u dzieci oras analiza uzyskanvch wynikow. - Z. Kirgie chiki Warsawie, kierownik. Panstw zaki wyd-wo lekarskich, 1962). The disadvantage of this method is significant radiation exposure does not allow for a detailed examination and dynamic observation.

 A known method of computer optical topography of the body surface (Traumatology and orthopedics, 1994, 3, p. 43-51). This method is based on the use of optical projection of bands and spatial phase detection for computer processing of primary information, which allows determining the shape of the examined surface with high accuracy and spatial resolution.

 The computer processing method is used for non-contact study of spinal deformity of various age groups.

The software package is integrated to perform functions such as:
- input of images of examined patients,
- the selection of reflective markers on the original image,
- spatial phase detection of the bands,
- restoration of the shape of the surface,
- interactive graphical analysis of the surface shape,
- construction of the output form of sagittal analysis,
- construction of the output form of profile analysis.

The disadvantage is that only a posterior surface of the body is graphically analyzed, and to study the topography of the anterior surface of the chest, additional parameters must be entered, such as:
- The selection of new installation markers, comparing them with the anatomical bone landmarks.

 - Construction of profile analysis based on horizontal sections at any level.

 - Construction of the output form of sagittal analysis.

 Closest to the claimed is a method of computer optical topography, used to determine the degree of deformation of the chest in children and adolescents. The problem is achieved by performing a computer topography of the anterior surface of the chest when the patient is placed with his back to the reference surface, the size of the sterno-rib groove is determined from the images of horizontal profile sections of the surface of the chest, and with a value of 175-160 gr. spend conservative treatment aimed at stabilizing the process, and with values of the angle less than 160 gr. carry out surgical correction.

 Positive decision 99100906/14 (000783) dated March 22, 2000. Title: - A method for determining the degree of deformation of the chest.

 Thus, the primary information obtained from the torso surface in the form of a moire pattern makes it possible to study the examined surface, to construct an axonometric projection, to draw horizontal and vertical sections, to study the body surface in three sections located in mutually perpendicular directions.

FIG. 1
During the study, we were faced with the problem of anatomical and physiological features that appear with age in adolescent girls. During puberty, the hormonal background is responsible for the maturation of the bones of the skeleton and their growth, an increase in the external genitalia. The appearance and development of mammary glands is found in girls aged 8 years (Kobozeva N.V., Kuznetsova M.N., Gurkin Yu.A. Gynecology of children and adolescents. - L .: Medicine, 1988.-296 p.). In most girls (45%), breast enlargement was noted at the age of 10 years. This anatomical and physiological feature of adolescent girls presents certain difficulties in diagnosis, and errors in the verification of the diagnosis increase.

 The objective of the present invention is to improve the accuracy and completeness of the information, as well as the possibility of examining the entire child population, without distinguishing between sex and age.

 The task is achieved by examining the projection line in the form of a curve corresponding to the physiological bends of the anterior surface of the chest in the sagittal plane, in girls, when secondary sexual characteristics are formed, the height of the arc LH, formed when the projection line intersects the axial line, and when the height of the arc is up to 2 mm, 1 degree of deformation is determined, and with a height value of up to 1 cm, 2 degrees are determined, and with a value> 1 cm - 3 degrees.

The novelty of the method:
1. Only the image in the sagittal plane is used, which allows you to determine the degree of chest deformation for teenage girls.

 2. Obtaining the height of the LH arc at the intersection of the projection line with the axial reliably indicates the degree of deformation of the chest in adolescent girls, since the resulting arc corresponds to a recess on the sternum that exceeds the physiological one without involving girls in the breast. The boundaries of the arc or the intersection point of the sagittal projection with the axial line are at the 3rd and 6th ribs, including the sternum and xiphoid process, and are designated PSC and PSC1 (the projection line is the sagittal with two intersection points C and C1). Point "L" is at the top of the recess. Lowering the perpendicular from the point "L" to the center line, we get the second point "H" and the height of the arc LH. Figb, 3d. Different LH values correspond to three degrees of deformations, and the absence of the latter is characteristic of the physiological curve that displays the chest of the correct constitution. Visually, anatomical defects requiring surgical correction are not determined. With a LH value of 2 mm or more, there is a deformation of the chest, which is determined not only visually, but also confirmed by computer topography. In the presence of deformation of the 2nd and 3rd degree, surgical treatment is indicated to eliminate the latter.

 3. The degree of chest deformity by LH value was not used earlier in the diagnosis of congenital deformities in older girls, the more it was not decisive in the treatment tactics.

The image is illustrated by drawings where:
FIG. 1 shows the surface of a body in three planes. These three planes are used to determine any deviation of the body from a neutral position. When constructing three mutual planes, they proceed from the position of the center of gravity lying at the level of the second sacral vertebra. Through the center of gravity in the vertical position of the body, the first plane is drawn in the horizontal direction - the main transverse plane. At a right angle to it is the second - the main sagittal plane, dividing the body into symmetrical halves: right and left. The third plane passes at right angles to the first two: it divides the body into asymmetric halves: front and back. This plane is called the main frontal plane. Three main planes intersect along the lines forming a system of three coordinates - x, y, z, the beginning of which is the center of gravity of the body.

 FIG. 2a, 2b show a projection line in the sagittal plane and an axonometric projection of the correct chest in a teenage girl. On the image in the sagittal plane, the points PSC and PSC1 are marked, as well as the height LH.

 Figures 3a, 3b, 3c, 3d show a series of images with the formation of an arc PSC and PSC1, at the intersection of the sagittal projection of the center line at the point of greatest deepening of the sternum, as well as the line LH, formed when lowering the perpendicular from the top of the arc to the center line, and axonometric version of this image, performed before and after surgical treatment.

Figure 4 shows a centerline marking diagram (AB)
Figure 5 - the projection line intersects the axial line with the formation of an arc and a height LH of more than 1 cm, which expresses the 3rd degree of chest deformation in adolescent girls.

The essence of the method is as follows:
Using the optical method of band projection and spatial phase detection for computer processing of primary information, it is possible to determine the shape of the examined surface in girls with high accuracy and spatial resolution, starting from the period of their puberty, namely, when the mammary glands appear and develop. To implement the method of projection of bands in the system, an optical scheme with a horizontal location of the projector and TV camera is used, i.e. their optical axes lie in one horizontal plane. The camera and the projector are mounted on the same rack, which has mechanisms for accurately aligning their orientation in space. Using slides, an image of vertically oriented light and dark stripes is projected onto the surface to be examined and the reference plane. The reference plane is represented by a vertically oriented opaque screen.

The research procedure is as follows:
Before examination, anatomically distinguished bone landmarks are determined on the front surface of the chest, which are fixed with markers from the reflective film. A different degree of reflection of the skin and markers provides a contrast of their image in the picture.

The following scheme of marking the front surface of the chest is applied - figure 4:
- The highest point in the middle of the jugular notch (A).

 - The midpoint is in the projection of the xiphoid process (B).

 - The connection of these lines forms the center line AB.

A full description of the restored front surface of the chest in adolescent girls is possible in two ways:
- axonometric projection figa, 3A, 3B;
- in the form of a sagittal projection of the front surface of the body fig.2b, 3b, 3d.

 After the examination, the sagittal profile of the examined surface is built. The construction of this profile provides the necessary information and is the main study of the chest in older girls. The projection line of the anterior surface of the chest in the sagittal plane (subsequently the sagittal projection) forms bends of various heights in relation to the center line. The breasts of teenage girls are not involved in the derivative sagittal projection.

 The method of screening examination of adolescent girls determined the height of the arc, shown in the table at the end of the description.

 The bends of the sagittal projection, located above the center line, repeat the physiological bends of the front surface of the chest and reflect the correct shape of the latter. Fig.2b.

 The values of the height of the LH arc determine not only the presence of chest deformation in adolescent girls, but also the degree, which allows a differentiated approach to treatment tactics.

 Arc height.

 - 1 degree - LH up to 2 mm. Fig. 3d.

 - 2 degree LH - up to 1 cm. Fig.3b.

 - 3 degree LH> 1 cm. Figure 5.

 At 1 degree of deformation, the sagittal projection is in contact with the axial line, or intersects it with the formation of an arc PSC-PSC1 and a height of LH up to 2 mm. Fig. 3d.

 The presence of a 1st degree of chest deformity determines the dynamic observation of patients, the use of a conservative treatment course aimed at stabilizing the process and strengthening the muscular skeleton of the chest.

 At 2 degrees of chest deformity in older girls, the sagittal projection forms an arc with a height of LH up to 1 cm. Fig.3b. The presence of a cosmetic and, first of all, anatomical defect, which leads to the possibility of frequent colds and deviation of the cardiovascular system, suggests surgical treatment of chest deformity.

 At 3 degrees of chest deformation, when the index of the height of the arch LH is greater than 1 cm, marked changes are observed from the sternum and bring about changes not only anatomical, but also changes in the functional parameters of the cardiovascular and respiratory systems. Correction of this pathological condition is possible only by surgical intervention.

 When studying the topography of the anterior surface of the body, it is also possible to construct a complete graphical representation of the examined surface in the form of an axonometric projection. Moreover, the construction can be performed by choice from four directions: left, right, top, bottom. The image is presented in figa, 3A and 3B. This presentation of the chest is not so informative and is in addition to a visual assessment of the shape of the chest. However, it is most readable by patients and their parents.

 Another important point of this method is the possibility of dynamic monitoring of the patient. This allows you to identify the nature and rate of increase of deformation of the chest, to correct the treatment tactics in time and, if necessary, to optimally plan the surgical intervention.

 Given the anatomical and physiological characteristics of the female body structure, an important point for us is the study of sagittal projection and its relationship with the centerline.

 This diagnostic method allows you to determine the physiological bends in the sagittal plane and the initial forms of deformation, as well as to examine various groups of patients, without omitting older girls from the study.

 Example 1. Berezina S.G. 11 years.

 Was in the children's orthopedic department with a diagnosis of Osteochondropathy of the thoracic spine. Pain syndrome.

 An objective examination indicates the correct chest shape and age-related development of secondary sexual characteristics. Optical topography of the back and chest was performed. Given the age characteristics of the girl, the development of the mammary glands, a study of sagittal projection was carried out. The bends of the sagittal line are higher in relation to the axial and repeat physiological, which corresponds to the correct shape of the chest.

 In FIG. 2a, 2b show a series of images including an axonometric picture and a sagittal projection. The data obtained indicate the absence of deformation from the chest in the patient. Thus, this research method is acceptable in adolescent girls, carries objective information and has a high resolution.

 Example 2. Anufrieva M.A. 9 years.

 Located in the department of pediatric orthopedics with a diagnosis of congenital funnel chest deformity, symmetrical 2 tbsp.

 Complaints: for chest deformity.

 Optical topography of the back and chest was performed.

 The patient is installed with his back to the reference surface, reflective markers are fixed on the front chest in accordance with the above diagram. When receiving computer processing data, a sagittal projection is taken into the study. The study of the sagittal projection shows the height of the arc LH equal to 1 cm, which corresponds to 2 degrees of deformation of the sternum in the sagittal plane - fig.3b.

 For visual control, an axonometric projection of this chest is shown — FIG. 3a.

 Conclusion: congenital funnel chest deformity, symmetrical 2 tbsp.

 After the examination, the child underwent surgery - thoracoplasty, with fixation of the sternum with a metal plate. After 1 month, a repeated examination was carried out on an optical topograph - FIG. 3c, 3d.

 There is a positive trend, both clinically and according to the results of optical topography. The height of the arc LH is 2 mm, which corresponds to the positive effect of the operation. The method of optical topography allows not only to verify the diagnosis, but also to trace the course of the disease, as well as the postoperative dynamics of chest deformation.

 Thus, the optical topography method is harmless to the patient, quickly executable, saves data for further dynamic observation. The main goal of dynamic observations is to identify the nature of chest changes in patients, so that in case of progression of the deformity, their treatment strategy can be adjusted in time, and if surgical intervention is necessary, then it is optimal to plan its timing.

Computer optical topography has a number of advantages over the X-ray examination method:
- complete harmlessness for the patient and staff,
- full automation of the process of inputting images of patients and their processing to obtain examination results,
- high processing speed, providing results at the time of examination of patients,
- the ability to save the survey results in a database,
- the ability to create a fully automated data analysis and the ability to dynamically track it.

Claims (1)

 A method for determining the degree of deformation of the chest in the sagittal plane, including computer optical topography of the body surface, characterized in that they study the projection line of the front surface of the chest in the sagittal plane in girls during the formation of secondary sexual characteristics, determine the height of the arc LH formed at the intersection of the projection line with axial, and with an arc height of up to 2 mm, 1 degree of deformation is determined, and with an arc height of up to 1 cm, 2 degrees of deformation are determined and with a value> 1cm - 3 degree of deformation.

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