The evaluation of the impact of flexion and extension angles and lateral torso flexion on the selected spine and pelvis parameters
DOI:
https://doi.org/10.12775/PPS.2021.07.02.004Keywords
mora projection, spine and pelvis parametersAbstract
The aim of the research was to assess the impact of flexion and extension angles and lateral torso flexion on the selected spine and pelvis parameters among the population of children aged between 7 and 15 years. Material and methods. The research was conducted in randomly selected kindergartens and schools in the Warmia and Masuria region and the Pomerania region during six semi-annual editions. The study population consisted of 2,361 children. This allowed to record 16,608 observations of 31 parameters describing body posture using the photogrammetric method. Results. The analysis of multiple regression with selection of the subset of the optimal set of variables included four parameters affecting the following: flexion angle and extension angle in the sagittal plane, angle of flexion to the left and to the right in the frontal plane. The set of variables included the parameters of the pelvis-spine complex. Conclusions 1.Spinal parameters are significantly and positively affected by the angle of torso extension in the sagittal plane and the angle of flexion to the left in the frontal plane and negatively influenced by the flexion angle in the sagittal plane. 2.The values of torso extension and flexion angles in the sagittal plane and torso flexion to the left and right in the frontal plane have a significant and positive impact on the total length of the spine (C7-S1) and the percentage of growth (DCK%), the Delta angle and the height of lumbar lordosis. The inclination angle of the lumbosacral spine, the total spinal length and the percentage of body height and the height of lumbar lordosis account for the parameters that are most dependent on the angles describing vertical orientation of the axial organ. 3.The significant negative impact on the spine parameters is remarkably lower. The most negatively dependent parameters include: lumbosacral inclination angle, the length and angle of thoracic kyphosis, and lumbar lordosis angle. 4.Hardly any influence of the analysed angles on pelvis parameters demonstrated herein requires further studies on the impact of foot parameters on the parameters of pelvis and spine. 5.The significant correlations of flexion and extension angles in the sagittal plane as well as the flexion angle in the frontal plane should be taken into consideration in the process of correcting body posture defects and errors.References
Barcińska I., Dubielis A., Postural defects, [at:] Kiperski J. (ed.), Medical Rehabilitation, PZWL, Warsaw 2006, p. 298.
Mrozkowiak M., Jazdończyk P., Correlations between the Spine-Pelvis System and Feet in Girls and Boys Aged 4 to 18 Years. Journal of Education, Health and Sport. 2015;5(7):226-250.
Mrozkowiak M, Cybul D., What correlations are there between body mass and height and torso parameters among 7-13-year-old children, Functional Physiotherapy, no. 11 (20), pp. 16-20.
Mirosław Mrozkowiak, Mariusz Posłuszny, Marek Sokołowski, Alicja Kaiser, Tomasz Szurmik, The correlations of parameters describing body trunk and feet of adolescents in the light of health security, [ed.] Marek Sokołowski, Mirosław Mrozkowiak, Andrzej Tomczak, [at] Aspects of Poland’s national security system – challenges and risks, Warsaw, 2017, pp. 325-338.
Mrozkowiak M., Sokołowski M., Relationships between characteristics of the spine-pelvis system and feet in boys aged 7 to 13 years. Journal of Education, Health and Sport. 2016;6(5):177-192.
Sokołowski Marek, Mrozkowiak Mirosław. Correlations between selected characteristics that describe body trunk and feet in children and young people aged 4 to 18 years. Journal of Education, Health and Sport formerly Journal of Health Sciences 2017; 7(6):281-316.
Mirosław Mrozkowiak, Mariusz Posłuszny, Marek Sokołowski, Alicja Kaiser, Tomasz Szurmik, Relationships between the parameters of feet in adolescents in the light of health security [ed.] Marek Sokołowski, Mirosław Mrozkowiak, Andrzej Tomczak, [at] Aspects of Poland’s national security system – challenges and risks, Warsaw, 2017, pp. 325-338.
Mrozkowiak M., Posłuszny M., Sokołowski M., Kaiser A., the incidence of significant relationships between selected parameters of feet and parameters of trunk in adolescents aged 14-18 years. Journal of Education, Health and Sport. 2018;8(2):305-319.
Mrozkowiak M., Sokołowski M., Kaiser A., Posłuszny M., The incidence of significant relationships between selected parameters of feet and parameters of trunk in children aged 4, 5 and 6 years. Journal of Education, Health and Sport. 2018;8(2):320-333.
Myers T.W., The food. Understanding the Arches. Massage & Bodywork Magazine, September/October, 1997.
Świerc A., 2006, Computer diagnostics of body posture – guidelines, Czernica Wrocławska.
Mrozkowiak M., Modulation, impact and relationships of selected body posture parameters in children and adolescents aged between 4 and 18 years in the light of mora projection, Publishing House of Kazimierz Wielki University, Bydgoszcz, 2015, v. I, II.
Drzał-Grabiec J. Szczepanowska–Wołowiec B., The correlations of selected body posture parameters, Young Sport Science of Ukraine, 2012, v. 3. pp. 82-86.
Wilczyński J., Differences in the quality of body posture between girls examined by means of spatial photogrammetry – Moire, Physical Culture 2007, no. 1-2, pp. 12-14.
Bąk S., Physiological reasons for deviations in the physical development of school youth, [at:] Correction and compensation in the development of school adolescents, (ed.) Trześniowski R., Maszczak T., SiT, Warsaw 1977, pp. 38-41.
Nowotny J., Saulicz E., Neurophysiological aspects of correcting deviations from the normal body posture, [at:] Spine dysfunctions – diagnostics, therapy, [ed.] Nowotny J., AWF Katowice 1993.
Żak T., Dziak A., Orthopaedic propaedeutics, PZWL, Warsaw 1970.
Cieśla T., Some aspects of compensation in lateral spinal curvatures, Methodology and Research Bulleting, AWF, Katowice 1993, no. 3, pp. 29-38.
Tylman D., Compensation pelvic changes in lateral spinal curvatures, [at:], Correction and compensation in the development of school adolescents, (ed.) Trześniowski T., Maszczak T., SiT, Warsaw 1974, pp. 107-111.
Drzał-Grabiec, Szczepanowska-Wołowiec B., Relationships of selected body posture parameters, Young Science of Ukraine, 2012, v. 3, pp. 82-86.
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