open access
Septal aperture aetiology: still more questions than answers
open access
Abstract
Many theories have been suggested in order to explain the aetiology of septal aperture. The influence of genes, the size and shape of ulna processes, joint laxity, bone robusticity, osteoarthritis, and osteoporosis has been discussed; however, the problem has not yet been solved. The aim of the study was to examine the correlations between musculoskeletal stress markers, humeral robusticity and septal aperture. Additionally, the frequency of septal aperture according to sex, age, and skeletal side had been analysed. The skeletal material had come from a medieval cemetery in Cedynia, Poland. Skeletons of 201 adults (102 males, 99 females) had been examined and septal aperture had been scored. Six muscle attachment sites of upper limb bones had been analysed. Humeral robusticity had been calculated by use of the humeral robusticity index. The frequency of septal aperture among the population from Cedynia is 7.5%. There are no differences in septal aperture prevalence between males and females, the skeletal sides or age groups. In the analysed material, males with less developed muscle markers of right upper bones proved a higher predictable rate in having septal aperture (R = –0.34). On the left bones and among females, the converse correlation had also been found, but it is not statistically significant. The correlation between septal aperture and humeral robusticity is converse, yet small and insignificant. These results can confirm the theory of joint laxity and suggest that stronger bones (heavier muscles, more robust bones) increase joint tightness, and therefore protect the humeral lamina from septal aperture formation. But this theory needs a further detailed analysis.
Abstract
Many theories have been suggested in order to explain the aetiology of septal aperture. The influence of genes, the size and shape of ulna processes, joint laxity, bone robusticity, osteoarthritis, and osteoporosis has been discussed; however, the problem has not yet been solved. The aim of the study was to examine the correlations between musculoskeletal stress markers, humeral robusticity and septal aperture. Additionally, the frequency of septal aperture according to sex, age, and skeletal side had been analysed. The skeletal material had come from a medieval cemetery in Cedynia, Poland. Skeletons of 201 adults (102 males, 99 females) had been examined and septal aperture had been scored. Six muscle attachment sites of upper limb bones had been analysed. Humeral robusticity had been calculated by use of the humeral robusticity index. The frequency of septal aperture among the population from Cedynia is 7.5%. There are no differences in septal aperture prevalence between males and females, the skeletal sides or age groups. In the analysed material, males with less developed muscle markers of right upper bones proved a higher predictable rate in having septal aperture (R = –0.34). On the left bones and among females, the converse correlation had also been found, but it is not statistically significant. The correlation between septal aperture and humeral robusticity is converse, yet small and insignificant. These results can confirm the theory of joint laxity and suggest that stronger bones (heavier muscles, more robust bones) increase joint tightness, and therefore protect the humeral lamina from septal aperture formation. But this theory needs a further detailed analysis.
Keywords
septal aperture, subtrochlear foramen, musculoskeletal stress markers, humeral robusticity, skeletal material
About this articleTitle
Septal aperture aetiology: still more questions than answers
Journal
Issue
Article type
Original article
Pages
219-224
Published online
2015-05-28
Page views
1164
Article views/downloads
2200
DOI
10.5603/FM.2015.0034
Pubmed
Bibliographic record
Folia Morphol 2015;74(2):219-224.
Keywords
septal aperture
subtrochlear foramen
musculoskeletal stress markers
humeral robusticity
skeletal material
Authors
A. Myszka
