Clinical Significance of the Morphometric Structures of the Scapula with the Emphasis on the Glenoid Cavity

Year 2023, Volume: 5 Issue: 2, 304 - 8, 15.05.2023

Gamze Taşkın Senol İbrahim Kürtül Gülçin Ahmetoğlu Abdullah Ray

https://doi.org/10.37990/medr.1217826

Abstract

Aim: The aim of this study is to determine the average of the morphometric parameters of the scapula to accurate and successful analyzes in the clinic.
Material and Methods: A total of 24 dry bone scapula were included in the study. Parameters determined on the scapula; superio-inferior glenoid diameter (SIGD), anterio-posterior glenoid diameter 1 (APG1), anterio-posterior glenoid diameter 2 (APG2), anterio-posterior glenoid diameter 3 (APG3), scapula width (SW), scapula length (SL), basis-spina distance (BS), spina scapula width (SSW), acromiocoracoid width (AW), scapula margo lateralis length (SML), scapula margo medialis length 1 (SML 1), scapula margo medialis length 2 (SML 2), cavitas glenoidalis antero-posterior width (CGAPW), cavitas glenoidalis superio-inferior width (CGSIW), incisura scapula width (ISW), incisura scapula depth (ISD), the maximum length of proccessus coracoideus (MLPC), maximum proccessus coracoideus thickness (MPCK), the shortest distance between the lateral edge of the proccessus coracoideus tip and the anterior upper edge of the cavitas glenoidalis (PCL-CGK).
Results: Among the determined parameters, SSW, MSW, ISW, ISD, MPCU, MPCK, PCL-CGK were found to be in parallel with the analyzed literatures.
Conclusion: It is thought that the results of the analysis of the parameters determined in the study will add clinical depth to many surgical approaches such as glenohumeral arthrodesis, internal fixation, fracture stabilization, and rotator cuff tendinitis, in more accurate analysis of shoulder anomalies and fractures.

Keywords

Scapula, morphometry, cavitas glenoidalis

References

• Ülkir M. Determination of relationship of scapula morphometry and gender by computed tomography. Master thesis, Hacettepe University, Ankara, 2021.
• Mamatha T, Pai SR, Murlimanju B, et al. Morphometry of glenoid cavity. OJHAS. 2011;10:1–4.
• Gupta S, Magotra R, Kour M. Morphometric analysis of glenoid fossa of scapula. J Evol Med Dent. 2015;4:7761–6.
• Dhindsa GS, Singh Z. A study of morphology of the glenoid cavity. J Evol Med Dent. 2014; 3:7036–46.
• Kastamoni Y, Yazan H, Dursun A. Morphometric evaluation of humerus and its clinical significance. SDÜ Sağlık Bilimleri Dergisi. 2021;12:77–85.
• Aydemir NA, Mehmet Y, Şule O. Skapula örneklerinin morfometrik değerlendirmesi ve anatomik varyasyonları. Antropoloji. 2020;57–9.
• Kale A, Edizer M, Aydin E, at al. Scapula morfometrisinin incelenmesi. DIRIM. 2004;6:26–35.
• Sabanciogullari V, Kosar MI, Erdil FH, et al. Processus coracoideus morfometrisi. Erciyes Med J. 2007;29:387–92.
• Oliveira Costa AC, Feitosa de Albuquerque PP, de Albuquerque PV, et al. Morphometric analysis of the scapula and their differences between females and males. J. Morphol. 2016;34:1164–8.
• Kabakcı AG, Polat S, Yücel AH. Scapula’nın morfometrik analizi ve klinik önemi. Cukurova Medical Journal. 2019;44:788–93. Rajput HB, Vyas KK, Shroff BD. A study of morphological patterns of glenoid cavity of scapula. NJMR. 2012;2:504–7.
• Coskun N, Karaali K, Cevikol C, et al. Anatomical basics and variations of the scapula in Turkish adults. Saudi Med J. 2006;27:1320–5.
• Karelse A, Kegels L, Wilde A. Pillars of scapula. Clin Anat. 2007;20:392–9.
• Frutos LR. Determination of sex from the clavicle and scapula in a Guatemalan contemporary rural indigenous population. Am J Forensic Med Pathol. 2002;23:284–8.
• Özer I, Katayama K, Sağir M, Güleç E. Sex determination using the scapula in medieval skeletons from east Anatolia. Coll Antropol. 2006;30:415–9.
• Gosavi S, Jadhav S, Garud R. Morphometric study of scapular glenoid cavity in Indian population. IOSR-JDMS. 2014;13:67–9.
• El-Din WAN, Ali MHM. A morphometric study of the patterns and variations of the acromion and glenoid cavity of the scapulae in Egyptian population. J Clin Diagn Res. 2015;9:AC08-AC11.
• Chhabra N, Prakash S. Mishra BK. Morphometric analysis of adult dry human scapulae. 2015:35–8.
• Paraskevas G, Tzaveas A, Papaziogas B, et al. Morphological parameters of the acromion. Folia Morphol. 2008;67:255–60.
• Sitha P, Nopparatn S, Aporn C. The sapula: Osseus dimensions and gender dimorphism in Thais. Sriraj Medical Journal. 2004;56:356–65.
• Lingamdenne PE, Marapaka P. Measurement and analysis of anthropometric measurements of the human scapula in Telangana Region, India. IJAR. 2016;4:2677–83.
• Parmar AM, Vaghela B, Shah KP, Agarwal GC. Study of glenoid cavity of human scapula and its clinical importance. IJAR. 2017;5:4177–81.
• Polguj M, Jedrzejewski K, Podgórski M, et al. Correlation between morphometry of the suprascapular notch and anthropometric measurements of the scapula. Folia Morphol. 2011;70:109–15.
• Singhal G. A study of measurements and indices of human scapula at Jamnagar medical college. Int J Res Med. 2013;2:65–8.
• Krishnaiah M, Nagaraj S, Kumar MP, Sherke AR. Study of scapular measurements and scapular indices of Andhrapradesh region. IOSR-JDMS. 2014;13:117–20.