INTRODUCTION: The suprascapular region is the most common site of compression and injury to the suprascapular nerve. This often results in suprascapular nerve entrapment, a possible risk factor being the anterior coracoscapular ligament (ACSL), a structure that runs in the suprascapular notch, below the superior transverse scapular ligament. The aim of the present study is to determine morphological variation of the ACSL and to measure the reduction in size of the suprascapular opening of specimens exhibiting it. MATERIALS AND METHODS: A total of 84 human shoulders were included in the study. The following measurements were defined and performed for every ACSL: maximal length (ML), maximal proximal width (MPW) and maximal distal width (MPW). Additionally, two measurements of the suprascapular opening were collected: the area (aSSO) and the middle width (mwSSO). All of these measurements were taken using two independent methods: classical osteometry, and a new procedure based on the analysis of digital photographic documentation of the SSN taken using MultiScanBase v.14.02 software. RESULTS: The anterior coracoscapular ligaments were present in 43 shoulders (51.2%). The analysis allowed the determination of four types of ACSL: first - fan-shaped (7%), second - band-shaped (62.8%), third - bifid (11.6%) and fourth - vestigial (18.6%). The mean area as well as the middle width of the suprascapular opening in the specimens with the anterior coracoscapular ligament was smaller than in those without this structure, however, no statistically significant differences were observed. The suprascapular nerve passed inferior to the ACSL in 2 specimens, and superior to it in 41. CONCLUSION: The study presents a classification of the anterior coracoscapular ligament that has not been described in the literature and can be helpful in arthroscopic and open procedures of the suprascapular region. Knowledge of such anatomical variations confirms the safety of operative decompression to relieve entrapment of the suprascapular nerve.
INTRODUCTION: The suprascapular region is the most common site of compression and injury to the suprascapular nerve. This often results in suprascapular nerve entrapment, a possible risk factor being the anterior coracoscapular ligament (ACSL), a structure that runs in the suprascapular notch, below the superior transverse scapular ligament. The aim of the present study is to determine morphological variation of the ACSL and to measure the reduction in size of the suprascapular opening of specimens exhibiting it. MATERIALS AND METHODS: A total of 84 human shoulders were included in the study. The following measurements were defined and performed for every ACSL: maximal length (ML), maximal proximal width (MPW) and maximal distal width (MPW). Additionally, two measurements of the suprascapular opening were collected: the area (aSSO) and the middle width (mwSSO). All of these measurements were taken using two independent methods: classical osteometry, and a new procedure based on the analysis of digital photographic documentation of the SSN taken using MultiScanBase v.14.02 software. RESULTS: The anterior coracoscapular ligaments were present in 43 shoulders (51.2%). The analysis allowed the determination of four types of ACSL: first - fan-shaped (7%), second - band-shaped (62.8%), third - bifid (11.6%) and fourth - vestigial (18.6%). The mean area as well as the middle width of the suprascapular opening in the specimens with the anterior coracoscapular ligament was smaller than in those without this structure, however, no statistically significant differences were observed. The suprascapular nerve passed inferior to the ACSL in 2 specimens, and superior to it in 41. CONCLUSION: The study presents a classification of the anterior coracoscapular ligament that has not been described in the literature and can be helpful in arthroscopic and open procedures of the suprascapular region. Knowledge of such anatomical variations confirms the safety of operative decompression to relieve entrapment of the suprascapular nerve.
Authors: Michał Polguj; Marek Synder; Andrzej Borowski; Mariusz Wojciechowski; Grzegorz Wysiadecki; Mirosław Topol Journal: Biomed Res Int Date: 2016-12-25 Impact factor: 3.411
Authors: Hubert Jezierski; Michał Podgórski; Ludomir Stefańczyk; David Kachlik; Michał Polguj Journal: Biomed Res Int Date: 2017-12-20 Impact factor: 3.411
Authors: Piotr Łabętowicz; Marek Synder; Mariusz Wojciechowski; Krzysztof Orczyk; Hubert Jezierski; Mirosław Topol; Michał Polguj Journal: Biomed Res Int Date: 2017-06-13 Impact factor: 3.411