Ishwar B Bagoji1, Gavishiddappa A Hadimani1, R S Bulgoud1, Vikas Desai2, K G Prakash3, Ambadasu Bharatha4. 1. Department of Anatomy, SRI B.M. Patil Medical College, BLDE (deemed to be University), Vijayapur, Karnataka, India. 2. Department of Dentistry, SHRI B.M. Patil Medical College, Hospital and Research Centre, Vijayapura, Karnataka, India. 3. Department of Anatomy, Azeezia Institute of Medical Sciences and Research, Meeyyannoor, Kollam, Kerala, India. 4. Faculty of Medical Sciences, University of The West Indies, Cave Hill Campus, Barbados, West Indies.
Abstract
Background: Anatomical knowledge about the suprascapular notch is very important in understanding the risk of suprascapular nerve entrapment syndrome. Suprascapular nerve injuries have become commonly recognized as a cause of shoulder pain and dysfunction. This study aimed to describe the morphometrical influence of the suprascapular notch on the course of the suprascapular nerve. Method: A total of 138 dry human scapulae of both sides of the unknown sex were used. Four measurements were defined and collected for every suprascapular notch: maximum depth (MD), superior transverse diameter (STD), middle transverse diameter (MTD), and total circumferential diameter (TCD). Result: In the present study we found different shapes of suprascapular notches. Out of 138 scapulae, 67 (48.55%) had U-shaped notch, 29 (21.01%) V-shaped notch and 14 (10.14%) J-shaped notch. Nine (6.52%) scapulae had incomplete notch. Two (1.44%) scapulae had large double foramen. Six (4.34%) scapulae had complete suprascapular notch. In seven (5.07%) scapulae, the notch was absent. Interestingly, in two (1.44%) scapulae, we found a W-shaped notch. This observation was unique and not reported anywhere in the literature before. Conclusion: Anatomical knowledge about the morphology of the suprascapular notch is of extreme importance for clinicians, radiologists, neurosurgeons, and orthopedic surgeons in making a proper diagnosis and for planning the surgical procedures of the shoulder region.
Background: Anatomical knowledge about the suprascapular notch is very important in understanding the risk of suprascapular nerve entrapment syndrome. Suprascapular nerve injuries have become commonly recognized as a cause of shoulder pain and dysfunction. This study aimed to describe the morphometrical influence of the suprascapular notch on the course of the suprascapular nerve. Method: A total of 138 dry human scapulae of both sides of the unknown sex were used. Four measurements were defined and collected for every suprascapular notch: maximum depth (MD), superior transverse diameter (STD), middle transverse diameter (MTD), and total circumferential diameter (TCD). Result: In the present study we found different shapes of suprascapular notches. Out of 138 scapulae, 67 (48.55%) had U-shaped notch, 29 (21.01%) V-shaped notch and 14 (10.14%) J-shaped notch. Nine (6.52%) scapulae had incomplete notch. Two (1.44%) scapulae had large double foramen. Six (4.34%) scapulae had complete suprascapular notch. In seven (5.07%) scapulae, the notch was absent. Interestingly, in two (1.44%) scapulae, we found a W-shaped notch. This observation was unique and not reported anywhere in the literature before. Conclusion: Anatomical knowledge about the morphology of the suprascapular notch is of extreme importance for clinicians, radiologists, neurosurgeons, and orthopedic surgeons in making a proper diagnosis and for planning the surgical procedures of the shoulder region.