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2Central Asian Journal of
Education and Innovation
FOOT CHANGES IN CHILDREN WITH SCOLIOSIS OF THE FIRST AND SECOND PERIODS OF CHILDHOOD
Kamalova Shaxnoza Muzafarovna
Assistant of Department of Anatomy, clinical anatomy (OSTA) of Bukhara State Medical Institute named after Abu Ali ibn Sino e-mail: feruzanazarova1111@gmail.com https://doi.org/10.5281/zenodo.11398697
ARTICLE INFO
ABSTRACT
Qabul qilindi: 20-May 2024 yil Ma'qullandi: 25- May 2024 yil Nashr qilindi: 31- May 2024 yil
KEY WORDS
childrens, scoliosis, flat feet, computer plantography, digital photometry.
This article presents data where the parameters of the foot in children with scoliosis are studied. The study involved 350 children with scoliosis. Using the method of 3D computer photometry with graphoanalytic interpretation of the image and system analysis, anatomical parameters such as length, width, angle of the 1st and 5th fingers, heel angle were obtained. An automated complex for screening and express diagnostics of flat feet in children with scoliosis has been developed.
Scoliosis is called a biological tragedy of humanity. With scoliosis, there are violations not only of the functions of the musculoskeletal system [1, 2]. The problem of functional diagnosis of foot injury and disease is relevant in the choice of tactics and methods of treatment and evaluation of its effectiveness. Among the various deformities of the lower extremities, the most common is flat feet, characterized by flattening of the longitudinal and transverse arches of the foot in combination with rotation around the longitudinal axis, as well as its withdrawal [3, 4, 5]. The predominance of flat feet in the structure of foot pathology indicates the need to improve the methods of diagnosing this condition. Early diagnosis of flat feet is very important when conducting dispensary examinations of children in preschool and school educational institutions, in sports medicine, for the timely prediction of athletes ' health disorders.
From the available literature sources, it is known that the longitudinal arch of the foot and its spring function in children are formed by the end of the 4th year of life [6,7,8]. Diagnosis of foot pathology is traditionally based on several non-automated methods: visual, podometric, X-ray, plantographic, etc. In recent years, automated diagnostic methods have been increasingly used to assess the height of the arch of the foot and the degree of its flatness. In particular, there is a technique that allows you to assess the nature of foot deformity using strain-gauge platforms[9, 10].
The aim of the study. The goal of the study was to develop an automated system for screening and rapid diagnosis of flat feet in children with scoliosis.
Materials and research methods. In this work, a new method for diagnosing flat feet has been successfully tested, based on the analysis of foot images obtained using an upgraded software and hardware complex (PAC) for assessing the morphofunctional state of the human
body (digital 3D photometrograph).
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The image of the foot was obtained using a computer photoplantograph using the technology of projection transposition photometry, the body of which is reinforced and able to withstand the weight of the human body. The measurement is performed in a standing position. The subject puts both feet on the surface of the 3D computer photoplantograph first, and then alternately each one separately, the object (foot) is photographed sequentially from all sides (front, back, sides, top), which allows you to get the required number (6 pcs.) of rating images with minimal preliminary positional and manual marking.
The developed diagnostic program analyzes the obtained images of the foot by the graphoanalytic method, which is widely used in medical practice. In this case, the program selects several key points on the image of the foot, and then calculates the distances between the points, as well as the angles by which the degree of longitudinal and transverse flat feet is determined. The diagnostic results are displayed on the screen and can be exported to the Microsoft Word word processor for later saving and printing.
The program allows you to determine the condition of various parts of the foot. The condition of the forefoot is characterized by the following indicators: the angle of NAP-deviation of the 1st finger (if the angle of NAP is less than 18°, then the medial part of the foot is normal; with NAP more than or equal to 18°, there is a transverse spreading); the angle of QBR-deviation of the 5th finger (if QBR is less than 12°, then the lateral part of the foot is normal, while with QBR more than or equal to 12°, there is a transverse spreading).
The condition of the middle part of the foot is characterized by the indicator K, where K = X / Y, where X is the width of the painted part of the print along the line VV', Y is the width of the outer part of the longitudinal arch of the foot. The degree of longitudinal flatfoot is determined by the K indicator as follows: at K < 0.5 - the foot is hollow; at 0.5 < K < 1.10-the foot with a normal arch; at 1.10 < K < 1.20-the foot with a reduced arch; at 1.20 < K < 1.30 -the first degree of flatfoot; at 1.30 < K < 1.50-the second degree of flatfoot; at K > 1.50-the third degree of flatfoot.
The condition of the posterior part of the foot is characterized by the calcaneal angle HC'K: if the angle is greater than or equal to 5°, the condition of the foot is normal, whereas if it is less than 5° - the foot is flat.
The length of the anterior and posterior sections, cut off by the lines WW' and UU', respectively. If these sections are elongated, it means that the foot is flat even in the normal state of the middle section.
The method presented above for determining the state of the foot, identifying and evaluating possible manifestations of transverse and longitudinal flat feet was the basis for the computer diagnostic method used in this work. Figure 1 shows the program window for calculating the morphofunctional state of the foot.
Analyzing the print obtained on the monitor screen, it becomes clearly noticeable that the surface of the foot adjacent to the scanner surface looks lighter in the image. Thus, there is enough information in the image of the foot to get the area of the surface of the foot adjacent to the scanner. To determine the area, the program uses the definition of the foot contour and counting the points lying inside the contour [9, 10, 11]. Each of the sections of the supporting surface of the foot is highlighted by the program in its own color (Fig. 2).
The analysis of the dynamic (time) series was reduced to the calculation of the following indicators: absolute growth (or decrease); growth rate (or decrease); growth rate. The
absolute increase is the difference between the next level and the previous level. The growth rate is the ratio of the next level to the previous one, multiplied by 100%. The growth rate is the ratio of the absolute increase (decrease) to the previous level, multiplied by 100%.
The results of the study
In male rats of 90 days of age in the control group, the body weight varied between 95,6 + 120,3 g and in average 106,8 + 1,53 g. Testes are oval and are mainly found in the scrotum, less often in the inguinal-scrotal canal. The mass of the testes varies individually from 0.62 g to 0.88 g, on average 0.78 + 0.016 g. The relative weight of testes was 1,46%. The length of the testes is 1.23 - 1.78 cm, on average 1.42 + 0.034 cm. The width of the testes ranges from 0.9 to 1.3 cm, an average of 1.11 + 0.025 cm. The volume of testes individually ranges from 0.61 to 0.83 cm3, an average of 0.69 + 0.014 cm3. Microscopic examination of testicular tissue sections showed that, at this age, the diameter of the convoluted seminiferous tubules increases, a free lumen appears to promote mature sperm, so the density of the testis tissue decreases sharply.
The medial part of the forefoot in all children aged 3-4 years was within the normal range. At the same time, there was a deviation of 5 toes, exceeding the normal values. Among children aged 3-4 years, 10 (32.3 %) people had a deviation of the 5th toe over 12°, which indicated a flattening of the lateral part of the forefoot. At the same time, 3 people had bilateral changes. In most cases, changes in the 5th finger were observed on the left. More pronounced changes were observed in the middle part of the foot. The K coefficient indicated a decrease in the arch of both feet in 7 (22.6 %) people. Unilateral reduction of the foot was observed in 15 (48.4 %) people. The first degree of flat feet on both sides was not detected in any person. In 9 people, the first degree of this pathology was unilateral.
In 5-6-year-old children, the following changes were detected in the anterior part of the foot: deviation of 1 finger above the norm was observed in 1 person, while the QBR angle (deviation of 5 finger) was more than 12° in 6 (30 %) people, and only in 1 - on both sides. Pathological changes in the middle part of the foot were more pronounced: a decrease in the arch of the foot was observed in 9 people (one of them on both sides), I degree of flat feet on one side in 3, 11 degree - in 4 (one of them on both sides) and III degree of deformity on one side was detected in 1 child. Changes in the posterior part of the foot in this age group did not go beyond the normal parameters. Among children of 7-8 years of age, changes in the anterior part of the foot in the form of an increased deviation of 1 toe outwards on one side were detected in 2 people. 3 children had a deviation of 5 toes, and 1 of them had a bilateral deviation. These changes indicated a transverse flattening of the forefoot. In 9-10-year-old children, deviations of the medial part of the foot were not detected. In the lateral part of this part of the foot, only 1 child had changes indicating the first degree of transverse flatfoot. No changes were detected in the middle and posterior parts of the foot.
In 11-year-old children, there were pronounced changes in the anterior part of the foot: in its medial part: flat feet of the first degree were detected in 5 (25 %) people, of them on both sides - in 2, II degree - in 2 (10 %) people, and only one on both sides. In the lateral part of this part of the foot, I degree of flat feet was detected in 11 (55 %) people, 5 of them on both sides, II degree of flat feet - in 11 (55 %), 4 of them had bilateral pathology. In the middle part of the foot, a slight decrease in its arch occurred in 9 (45 %) people, in 3 the process was bilateral. Among 12 - year - olds, in the medial part of the anterior part of the foot, 9 (27.3 %) people had grade I flat feet, of which only 1 had two sides, and grade II on one side - in 3. In
the lateral part of the anterior part, grade I flat feet were detected in 17 (51.5 %) people, of which 6 had two sides. Grade II flat feet in this part of the foot occurred in 23 (69.7 %) people, and 14 (42.4 %) of them had pathology on both sides. In 18 children of this age, there was a decrease in the arch of the foot in the middle part, and in 6 people the process was localized on both sides. Reducing the NS angle'K less than 5° was observed in 7 children, and in 2 people on both sides.
In children aged 3 to 12 years, there is a gradual increase in the length of the foot. The rate of increase in foot height in children with scoliosis is noted from 3 to 6 years, then up to 11 years, the height of the foot remains unchanged and only at 12 years there is a further increase in foot height.
The growth dynamics of the anterior part of the left foot in children aged 3 to 12 years slightly outstrips the growth rates of the same part of the foot of the opposite limb. The same growth rates of the middle and posterior parts of the foot are noted. With the process of age in children with scoliosis, there is an increase in the deviation of both 1 finger outwards and the reduction of 5 fingers. The largest deviation of 1 finger was observed on the left in children aged 7-8 years, and 5 fingers on the right-in children aged 12 years. With age, the number of patients with deformity of the anterior-medial part of the foot increases sharply, if at the age of 5-6 years 1 person with flat feet of the first degree is detected, then by the age of 12 there are already 12 people, 3 of them with the second degree.
In children with scoliosis, during their growth, there is a decrease in the K coefficient, which indicates the state of the longitudinal arch of the foot in its middle section. So, if in 3-4-year-olds this indicator is 1.1 for both feet, then by the age of 12-1.04 on the left and 1.06 on the right. A change in this indicator indicates an increase in the longitudinal arch of the foot in children with scoliosis.
The total area of the plantar surface of the right foot in children from 3 to 11 years is greater than that of the left foot. The average area of the forefoot has similar trends. The average value of the area of the middle part of the foot in children from 3 to 8 years old decreases, then it gradually increases with the achievement of maximum indicators at the age of 11 years. The rate of changes in the average area of the posterior part of the foot is not so pronounced. The increase in this indicator up to 9-10 years is not observed. The jump in the increase in the area of this department is observed only by the age of 11.
Discussion and Conclusion In children aged 3 to 12 years, there is a gradual increase in the length of the foot. The rate of increase in the height of the foot in children with scoliosis is noted from 3 to 6 years, then up to 11 years, the height of the foot remains without dynamics and only at 12 years there is a further increase in it. The growth dynamics of the anterior part of the left foot in children aged 3 to 12 years slightly outstrips the growth rates of the same part of the foot of the opposite limb. The same growth rates of the middle and posterior parts of the foot are noted. With the process of age in children with scoliosis, there is an increase in the deviation of both 1 finger outwards and the reduction of 5 fingers. The largest deviation of 1 finger was observed on the left in children aged 7-8 years, and 5 fingers on the right-in children aged 12 years. In children with scoliosis, during their growth, there is a decrease in the K coefficient, which indicates an increase in the longitudinal arch of the foot. In the course of age in children with scoliosis, there is a decrease in the angle of the NS'K, which indicates a tendency to valgization of the
calcaneus.
References:
1. Pulatova, K. S., Inoyatov, S. S., & Numonov, D. U. (2022). REDUCED SEXUAL DYSFUNCTION IN YOUNG ADULTS WITH OVERWEIGHT AND ARTERIAL HYPERTENSION. Central Asian Research Journal for Interdisciplinary Studies (CARJIS), 2(1), 302-306.
2. Pulatova, K. S., Panjriwala, S. J., & Chhabra, B. (2023). Hemodynamic Features of IHD in Overweight Patients. American Journal of Pediatric Medicine and Health Sciences (29932149), 1(10), 582-586.
3. Bakhtiyarovich, A. A., & Samvelovna, P. K. (2023). Peculiarities of the Influence of Metabolic Syndrome on the Course of Coronary Heart Disease. American Journal of Pediatric Medicine and Health Sciences (2993-2149), 1(8), 396-400.
4. Samvelovna, P. K., Asad, B. Z., & Khan, A. R. (2023). Precision Wellness Solutions: Revolutionizing Hypertension Management in Obesity. American Journal of Pediatric Medicine and Health Sciences (2993-2149), 1(8), 267-270.
5. Pulatova, K. S., Inoyatov, S. S., & Numonov, D. U. (2022). REDUCED SEXUAL DYSFUNCTION IN YOUNG ADULTS WITH OVERWEIGHT AND ARTERIAL HYPERTENSION. Central Asian Research Journal for Interdisciplinary Studies (CARJIS), 2(1), 302-306.
6. Пулатова, К. С., & Аблятифов, А. Б. (2023). АНАЛИЗ РЕЗУЛЬТАТОВ ЭКГ И ЭхоКГ У БОЛЬНЫХ АРТЕРИАЛЬНОЙ ГИПЕРТОНИЕЙ В ЗАВИСИМОСТИ ОТ СТЕПЕНИ ИЗБЫТОЧНОЙ МАССЫ ТЕЛА. European Journal of Interdisciplinary Research and Development, 16, 14-18.
7. Хакимов, М. А., Ташпулатова, Ф. К., & Галиуллин, Т. И. (2017). ПОРАЖЕНИЯ ГЕПАТОБИЛИАРНОЙ СИСТЕМЫ У БОЛЬНЫХ С ПОЛИРЕЗИСТЕНТНЫМ ТУБЕРКУЛЕЗОМ ЛЕГКИХ. Фтизиатрия и пульмонология, (2), 13-13.
8. Ташпулатова, Ф. К., Галиулин, Т. И., & Жумаев, О. А. (2018). АССОЦИАЦИЯ РИСКА РАЗВИТИЯ КАЗЕОЗНОЙ ПНЕВМОНИИ ПРИ ТУБЕРКУЛЕЗЕ ЛЕГКИХ С ГЕНЕТИЧЕСКИМИ МАРКЕРАМИ. Интернаука, (14-1), 52-53.
9. NAVRUZOV, S., KHAYRUTDINOV, R., PULATOV, D., ALIMKHODZHAEVA, L., & USMANOV, B. Prognostic factors and the frequency of breast cancer metastasis to lungs and pleura.
10. Наврузов, С. Н., Хайруддинов, Р. В., Рустамов, Ш. Х., Жураев, Э. Э., Усманов, Б. Б., Джуманазаров, Т. М., ... & ИРМАТОВА, З. (2014). Методы улучшения результатов комбинированной лучевой терапии местнораспространенного рака пищевода. Евразийский онкологический журнал, (2), 59-63.
11. Усманов, Б. Б. (2015). Современные тенденции в диагностике и лечении метастатического поражения легких и плевры. Российский онкологический журнал, 20(6), 46-50.
12. Мальмберг, С. А., Подагова, Е. В., & Петрухин, А. С. (2003). СИНДРОМ ГИЙЕНА-БАРРЕ У ДЕТЕЙ (ОБЗОР ЗАРУБЕЖНОЙ ЛИТЕРАТУРЫ). Неврологический журнал, 8(5), 42-42.
13. SHOIRA, I., NARGIZA, A., AZIZA, D., & AKMALJON, G. (2020). Clinical-neurological and vegetative dysfunctions in adolescents with metabolic syndrome. International Journal of Pharmaceutical Research (09752366), 12(3).
14. DJURABEKOVA, A., GAYBIYEV, A., IGAMOVA, S., & UTAGANOVA, G. (2020). Neuroimmunological aspects of pathogenesis in children's cerebral palsy. International
CENTRAL ASIAN JOURNAL OF EDUCATION AND INNOVATION SJIF = 5.281
Journal of Pharmaceutical Research (09752366), 12(1).
15. Гайбиев, А. А. (2019). Болаларда уткир полирадикулоневритларда кузатиладиган иммуналогик курсаткичлар тахлили ва такомиллаштирилган давоси. Автореферат на соискание учёной степени кандидата медицинских наук/Самаркандский Государственный медицинский институт. Ташкент.
16. Гайбиев, А., Джурабекова, А., & Ниёзов, Ш. (2017). Дифференциально-Диагностические Критерии Полиневропатий. Тенденцп Та Перспективи Розвитку Науки I Осв^и В Умовах Глобалiзащi', 569.
17. Gaibiev, A. A., Dzhurabekova, A. T., & Sh, T. I. (2022). Clinical and laboratory changes in diabetic neuropathy in adolescents.
18. Urmanova, G., & Yoldosheva, D. (2024). PHYSICAL CHARACTERISTICS OF PULSE OXIMETRY. Theoretical aspects in the formation of pedagogical sciences, 3(5), 46-48.
19. Исломов, Ю., Каршиев, Д., Урманова, Г., & Исломов, А. (2023). Биологик актив бирикмаларни нурланишга таъсири. Актуальные вопросы детской хирургии, 1(1), 1112.
20. Urmanova, G., & Yo'ldosheva, D. (2023). TIBBIYOTNING RIVOJLANISHIGA HISSA QO'SHAYOTGAN AYRIM NOYOB USULLARNING KELIB CHIQISH TARIXI. Talqin va tadqiqotlar, 1(8).
