The Unidentified Skeletal Collection of Capuchos Cemetery (Santarém) housed at the University of Coimbra

The aim of this article is to present to the scientific and academic community the Unidentified Skeletal Collection of the Capuchos Cemetery. The skeletons, of contemporary individuals, were collected from the same cemetery as those of the 21st Century Identified Skeletal Collection, but their identification is unknown. The collection is composed of 73 individuals, of which 68 are adults of both sexes (34 females, 33 males, and one individual of unknown sex) and five are non-adults. The skeletons are reasonably preserved although several are incomplete as result of taphonomic changes during inhumations, but also due to the experimental research made so far. Most of the adult individuals present nonmetric characters, being the scapular notch the most frequent. Regarding the osteopathology, it was observed that the majority of adult individuals have pathological changes, with degenerative pathology being the most frequent. In addition, some individual exhibit medical devices and/or signs of chirurgical procedures. The Unidentified Skeletal Collection of the Capuchos Cemetery is an osteological collection that, although not containing individual biographical data, has contributed to teaching and research in Biological and Forensic Anthropology in subjects such as osteology, morphology, biological profile, paleopathology, cremains, and the development of new methods.

Decompression of the Suprascapular Nerve at the Superior Scapular Notch Under Combined Arthroscopic and Ultrasound (US) Guidance: US-Arthroscopy

Background: Decompression of the suprascapular nerve (SSNe) at the superior scapular notch (SSNo) is usually performed with an arthroscopic procedure. This technique is well described but locating the nerve is complex because it is deeply buried and surrounded by soft tissue. We propose to combine ultrasound and arthroscopy (US-arthroscopy) to facilitate nerve localization, exposure and release. The main objective of this study was to assess the feasibility of this technique. Methods: This is an experimental, cadaveric study, carried out on shoulders. The first step of our technique is to locate the SSNo using an ultrasound scanner. Then an arthroscope is introduced under ultrasound control to the SSNo. A second portal is then created to dissect the pedicle and perform the ligament release. Results: Ultrasound identification of the SSNo, endoscopic dissection and decompression of the nerve were achieved in 100% of cases. Ultrasound identification of the SSNo took an average of min (+/-4) while dissection and endoscopic release time took an average of min (+/-5). Conclusion: Ultrasound is an extremely powerful tool for non-invasive localization of nerves through soft tissues, but it is limited by the fact that tissue visualization is limited to the ultrasound slice plane, which is two-82 dimensional. On the other hand, arthroscopy (extra-articular) allows three-dimensional control of the surgical steps performed, but the locating of the nerve involves significant tissue detachment and a risk of damaging the nerve with the dissection. The combination of the two (US-arthroscopy) offers the possibility of combining the advantages of both techniques.

Decompression of the suprascapular nerve at the superior scapular notch under combined arthroscopic and ultrasound (US) guidance: US-arthroscopy

Background: Decompression of the suprascapular nerve (SSNe) at the superior scapular notch (SSNo) is usually performed with an arthroscopic procedure. This technique is well described but locating the nerve is complex because it is deeply buried and surrounded by soft tissue. We propose to combine ultrasound and arthroscopy (US-arthroscopy) to facilitate nerve localization, exposure and release. The main objective of this study was to assess the feasibility of this technique. Methods: This is an experimental, cadaveric study, carried out on 10 shoulders. The first step of our technique is to locate the SSNo using an ultrasound scanner. Then an arthroscope is introduced under ultrasound control to the SSNo. A second portal is then created to dissect the pedicle and perform the ligament release. Results: Ultrasound identification of the SSNo, endoscopic dissection and decompression of the nerve were achieved in 100% of cases. Ultrasound identification of the SSNo took an average of 3 min (+/-4) while dissection and endoscopic release time took an average of 8 min (+/-5). Conclusion: Ultrasound is an extremely powerful tool for non-invasive localization of nerves through soft tissues, but it is limited by the fact that tissue visualization is limited to the ultrasound slice plane, which is two-dimensional. On the other hand, arthroscopy (extra-articular) allows three-dimensional control of the surgical steps performed, but the locating of the nerve involves significant tissue detachment and a risk of damaging the nerve with the dissection. The combination of the two (US-arthroscopy) offers the possibility of combining the advantages of both techniques.

Morphometric Study of Suprascapular Notch and Its Variations in Dried Human Scapulae

The study was undertaken to see the variation of the suprascapular notch. The notch is present on the superior border of the scapula near the root of coracoid process. It is roofed by the superior transverse ligament and is converted into foramen for the passage of suprascapular nerve. The study was carried out on 121 scapulae in the department of Anatomy RMC Loni, Ahmednagar. The parameters included in the study were presence of notch, shape of notch, transvers length of notch, edge of notch, ossification of transverse ligament and other finding were also noted. The parameters were measured by Vernier calliper and appropriate statistical tests were applied. The supra-scapular notch was present in 82.64% of scapulae. U Deep shaped notch was most common shape followed by J shallow shaped notch. Round edge at the depth of the notch was more common. The knowledge of suprascapular notch variations is of great importance for surgeons performing suprascapular nerve decompression especially by means of endoscopic techniques. Our anatomical study helps the clinicians before planning a surgery.

Motor Recovery of the Suprascapular Nerve after Arthroscopic Decompression in the Scapular Notch – a Systematic Review

Background The suprascapular nerve can be compromised as a result of a compression syndrome in different locations. A (proximal) compression within the scapular notch can lead to dorsal shoulder pain and simultaneous weakness of the infraspinatus and supraspinatus muscles. By transection of the lig. transversum this compression syndrome can be treated. By means of a systematic review, the present work analyzes the motor recovery potential after arthroscopic decompression. Material and Methods A systematic review of the U. S. National Library of Medicine/National Institutes of Health (PubMed) database and the Cochrane Library was performed using the PRISMA checklist. The search words used were “suprascapular” and “arthroscopic”; “suprascapular” and “arthroscopy”. Based on the evaluated literature, articles in English with at least a partial arthroscopic case series from 4 cases on and a compression syndrome of the suprascapular nerve treated with arthroscopic decompression in the scapular notch were identified. Motor recovery was described by means of EMG, clinical strength and MRI. Results Primarily 408 hits were generated. Six articles met the inclusion criteria and were further analyzed. The number of arthroscopic cases was between 4 and a maximum of 27. The level of evidence was between III and IV. The majority of the reported clinical results were good. Motor recovery as measured by EMG was observed, recovery of full strength was not achieved in the majority of reported cases (60%), neither was regression of structural (fatty) degeneration of the muscle bellies. Conclusion Arthroscopic decompression of the suprascapular nerve in the scapular notch provides good clinical results and considerable pain relief. However, in the majority of cases it does not lead to a complete recovery of the strength of the supra- and infraspinatus muscles. Patients should be informed about this. An early decompression after diagnosis in the event of proximal compression within the suprascapular notch combined with beginning EMG or MRI changes appears reasonable. These beginning changes should be further defined. Future studies should develop prognostic criteria for motor recovery. Awareness regarding the diagnosis needs to be improved due to the probably time-dependent irreversibility of resulting muscular weakness.

Morphological Aspects in Ultrasound Visualisation of the Suprascapular Notch Region: A Study Based on a New Four-Step Protocol

Background: Sonographic evaluation of the suprascapular notch (SSN) region is clinically important, because it is the most common location for performing suprascapular nerve block. The aim of the study was to describe the morphology of the SSN region based on ultrasound examination and in accordance with the patients' body mass index (BMI). Material and Methods: The SSN region was sonographically examined in 120 healthy volunteers according to our new four-step protocol. The morphometry of the SSN and the neurovascular bundle was assessed, and patients' BMI were calculated. The shape of the suprascapular notch was classified based on its superior transverse diameter (STD) and maximal depth (MD). Result: The type III scapular notch was the most prevalent (64%). The BMI was higher in type IV/V (27.38 ± 3.76) than in type I (24.77 ± 3.49). However, no significant differences were observed in the distribution of SSN notch types with regard to BMI (p = 0.0536). The suprascapular artery was visualised in all of the recognised SSNs, while the suprascapular vein and nerve were visualised only in 74.9% and 48.1% of the SSNs, respectively. The suprascapular nerve was significantly thicker on the right side (3.5 +/- 1.1 mm) than on the left (1.3 +/- 0.4 mm) (p = 0.001). In contrast, the suprascapular vein (1.5 +/- 0.9 mm) was found to be a significantly wider on the left side than the right (1.2 +/- 0.7 mm) (p = 0.001). Conclusion: Our original four-step sonographic protocol enabled characterising the morphology of the SSN region, despite the SSN notch types. The suprascapular artery is the best sonographic landmark for the suprascapular notch region. No significant differences were found between sides regarding the thickness of the soft tissue above the suprascapular nerve and vessels. Recognition of the SSN morphology is not affected by the BMI.

Supra-scapular foramen in Indian dry scapulae

Background and aims : Supra-scapular notch is roofed by superior transverse scapular ligament and converted into a foramen which provides passage for suprascapular nerve. When it is completely ossified that time it manifest as supra-scapular foramen in dry scapulae. Variations of superior transverse scapular ligament include calcification, partial or complete ossification and multiple bands. Presence of this foramen in dry scapulae is considered to be rare. Aim of the study was to verify the prevalence of supra-scapular foramen in Indian dry scapulae. Materials and methods : A total of three fifty dry scapulae were analyzed (Right- 176, Left-174) to see the presence of supra-scapular foramen. Results : In the present study, suprascapular foramen was present in 25 right and in 12 left sided scapulae i.e., 10.57% incidence which is alarming. Conclusion : Present study demonstrates that suprascapular foramen which is the result of complete ossification of superior transverse scapular ligament, is common in Indian population. The anatomical knowledge of this foramen is of extreme importance for clinicians; it can be a risk factor during surgical explorations involving a suprascapular nerve decompression.