Asymmetry and structural system analysis of the proximal femur meta-epiphysis: osteoarticular anatomical pathology

<p>Abstract</p> <p>Background</p> <p>The human femur is commonly considered as a subsystem of the locomotor apparatus with four conspicuous levels of organization. This phenomenon is the result of the evolution of the locomotor apparatus, which encompasses both constitu...

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Main Authors: Baydoun Safaa, Kolesnik Alexander I, Haddad John J, Ivanov Alexander V, Samaha Ali A, Arabi Maher R, Yashina Irena N, Samaha Rana A, Ivanov Dimetry A
Format: Article
Language:English
Published: BMC 2008-02-01
Series:Journal of Orthopaedic Surgery and Research
Online Access:http://www.josr-online.com/content/3/1/11
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spelling doaj-c96c7a657d18447fabdecbaf2ff938a62020-11-24T21:04:44ZengBMCJournal of Orthopaedic Surgery and Research1749-799X2008-02-01311110.1186/1749-799X-3-11Asymmetry and structural system analysis of the proximal femur meta-epiphysis: osteoarticular anatomical pathologyBaydoun SafaaKolesnik Alexander IHaddad John JIvanov Alexander VSamaha Ali AArabi Maher RYashina Irena NSamaha Rana AIvanov Dimetry A<p>Abstract</p> <p>Background</p> <p>The human femur is commonly considered as a subsystem of the locomotor apparatus with four conspicuous levels of organization. This phenomenon is the result of the evolution of the locomotor apparatus, which encompasses both constitutional and individual variability. The work therein reported, therefore, underlies the significance of observing anatomical system analysis of the proximal femur meta-epiphysis in normal conditions, according to the anatomic positioning with respect to the right or left side of the body, and the presence of system asymmetry in the meta-epiphysis structure, thus indicating structural and functional asymmetry.</p> <p>Methods</p> <p>A total of 160 femur bones of both sexes were compiled and a morphological study of 15 linear and angulated parameters of proximal femur epiphysis was produced, thus defining the linear/angulated size of tubular bones. The parameters were divided into linear and angulated groups, while maintaining the motion of the hip joint and transmission of stress to the unwanted parts of the limb. Furthermore, the straight and vertical diameters of the femoral head and the length of the femoral neck were also studied. The angle between the neck and diaphysis, the neck antiversion and angle of rotation of the femoral neck were subsequently measured. Finally, the condylo-diaphyseal angle with respect to the axis of extremity was determined. To visualize the force of intersystem ties, we have used the method of correlation galaxy construction.</p> <p>Results</p> <p>The absolute numeral values of each linear parameter were transformed to relative values. The values of superfluity coefficient for each parameter in the right and left femoral bone groups were estimated and Pearson's correlation coefficient has been calculated (> 0.60). Retrospectively, the observed results have confirmed the presence of functional asymmetry in the proximal femur meta-epiphysis. On the basis of compliance or insignificant difference in the confidence interval of the linear parameters, we have revealed, therefore, a discrepancy in values between the neck and the diaphysis angle and the angle of femoral neck rotation (range displacement of confident interval to a greater degree to the right).</p> <p>Conclusion</p> <p>This study assessed the observations of a systemic anatomical study encompassing the proximal femur meta-epiphysis behavior in normal condition. This work has significance in medical practice as the theoretical basis is also required in knowing the decreased frequency and degree of severity of osteoarthritic pathologies in the dominant lower extremity.</p> http://www.josr-online.com/content/3/1/11
collection DOAJ
language English
format Article
sources DOAJ
author Baydoun Safaa
Kolesnik Alexander I
Haddad John J
Ivanov Alexander V
Samaha Ali A
Arabi Maher R
Yashina Irena N
Samaha Rana A
Ivanov Dimetry A
spellingShingle Baydoun Safaa
Kolesnik Alexander I
Haddad John J
Ivanov Alexander V
Samaha Ali A
Arabi Maher R
Yashina Irena N
Samaha Rana A
Ivanov Dimetry A
Asymmetry and structural system analysis of the proximal femur meta-epiphysis: osteoarticular anatomical pathology
Journal of Orthopaedic Surgery and Research
author_facet Baydoun Safaa
Kolesnik Alexander I
Haddad John J
Ivanov Alexander V
Samaha Ali A
Arabi Maher R
Yashina Irena N
Samaha Rana A
Ivanov Dimetry A
author_sort Baydoun Safaa
title Asymmetry and structural system analysis of the proximal femur meta-epiphysis: osteoarticular anatomical pathology
title_short Asymmetry and structural system analysis of the proximal femur meta-epiphysis: osteoarticular anatomical pathology
title_full Asymmetry and structural system analysis of the proximal femur meta-epiphysis: osteoarticular anatomical pathology
title_fullStr Asymmetry and structural system analysis of the proximal femur meta-epiphysis: osteoarticular anatomical pathology
title_full_unstemmed Asymmetry and structural system analysis of the proximal femur meta-epiphysis: osteoarticular anatomical pathology
title_sort asymmetry and structural system analysis of the proximal femur meta-epiphysis: osteoarticular anatomical pathology
publisher BMC
series Journal of Orthopaedic Surgery and Research
issn 1749-799X
publishDate 2008-02-01
description <p>Abstract</p> <p>Background</p> <p>The human femur is commonly considered as a subsystem of the locomotor apparatus with four conspicuous levels of organization. This phenomenon is the result of the evolution of the locomotor apparatus, which encompasses both constitutional and individual variability. The work therein reported, therefore, underlies the significance of observing anatomical system analysis of the proximal femur meta-epiphysis in normal conditions, according to the anatomic positioning with respect to the right or left side of the body, and the presence of system asymmetry in the meta-epiphysis structure, thus indicating structural and functional asymmetry.</p> <p>Methods</p> <p>A total of 160 femur bones of both sexes were compiled and a morphological study of 15 linear and angulated parameters of proximal femur epiphysis was produced, thus defining the linear/angulated size of tubular bones. The parameters were divided into linear and angulated groups, while maintaining the motion of the hip joint and transmission of stress to the unwanted parts of the limb. Furthermore, the straight and vertical diameters of the femoral head and the length of the femoral neck were also studied. The angle between the neck and diaphysis, the neck antiversion and angle of rotation of the femoral neck were subsequently measured. Finally, the condylo-diaphyseal angle with respect to the axis of extremity was determined. To visualize the force of intersystem ties, we have used the method of correlation galaxy construction.</p> <p>Results</p> <p>The absolute numeral values of each linear parameter were transformed to relative values. The values of superfluity coefficient for each parameter in the right and left femoral bone groups were estimated and Pearson's correlation coefficient has been calculated (> 0.60). Retrospectively, the observed results have confirmed the presence of functional asymmetry in the proximal femur meta-epiphysis. On the basis of compliance or insignificant difference in the confidence interval of the linear parameters, we have revealed, therefore, a discrepancy in values between the neck and the diaphysis angle and the angle of femoral neck rotation (range displacement of confident interval to a greater degree to the right).</p> <p>Conclusion</p> <p>This study assessed the observations of a systemic anatomical study encompassing the proximal femur meta-epiphysis behavior in normal condition. This work has significance in medical practice as the theoretical basis is also required in knowing the decreased frequency and degree of severity of osteoarthritic pathologies in the dominant lower extremity.</p>
url http://www.josr-online.com/content/3/1/11
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