Medicine
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This repository contains the published and unpublished research of the Faculty of Medicine by the staff members of the faculty
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Item Anatomical landmarks for ankle block(BioMed Central, 2023) Nimana, K.V.H.; Senevirathne, A.M.D.S.R.U.; Pirannavan, R.; Fernando, M.P.S.; Liyanage, U.A.; Salvin, K.A.; Malalasekera, A.P.; Mathangasinghe, Y.; Anthony, D.J.We aimed to describe anatomical landmarks to accurately locate the five nerves that are infiltrated to accomplish anaesthesia of the foot in an ankle block. Twenty-four formaldehyde-fixed cadaveric ankles were studied. Photographs of cross sections of the frozen legs, cut at a horizontal plane across the most prominent points of the medial and lateral malleoli, were analysed. The curvilinear distance from the most prominent point of the closest malleolus to each of the five cutaneous nerves and their depth from the skin surface were measured. Sural, tibial, deep peroneal, saphenous and medial dorsal cutaneous nerves were located 5.2 ± 1.3, 9.2 ± 2.4, 7.4 ± 1.9, 2.8 ± 1.1, 2.1 ± 0.6 mm deep to the skin surface. The curvilinear distances from the medial malleolus to the tibial, deep peroneal and saphenous nerves were 32.5 ± 8.9, 62.8 ± 11.1 and 24.4 ± 7.9 mm, respectively. The curvilinear distances from the lateral malleolus to the sural and medial dorsal cutaneous branches of superficial peroneal nerves were 27.9 ± 6.3 and 52.7 ± 7.3 mm, respectively. The deep peroneal nerve was found between the tendons of the extensor hallucis longus and the extensor digitorum longus in the majority of specimens, while the medial dorsal cutaneous nerve was almost exclusively found on the extensor digitorum longus tendon. The sural and tibial nerves were located around halfway between the most prominent point of the relevant malleolus and the posterior border of the Achilles tendon. In conclusion, this study describes easily identifiable, palpable bony and soft tissue landmarks that could be used to locate the nerves around the ankle.Item Anatomic description of the distal great saphenous vein to facilitate peripheral venous access during resuscitation: a cadaveric study(BioMed Central,London, 2023) Senevirathne, S.A.M.D.R.U.; Nimana, H.K.V.; Pirannavan, R.; Fernando, P.; Salvin, K.A.; Liyanage, U.A.; Malalasekera, A.P.; Mathangasinghe, Y.; Anthony, D.J.The distal great saphenous vein is a popular site for venous access by means of percutaneous cannulation or venous cutdown in a hemodynamically unstable patient. The aim of this study was to precisely define the surface anatomy and dimensions of the distal part of the great saphenous vein to facilitate the aforementioned procedures. Cross-sectional anatomy of the distal saphenous vein was studied in 24 cadaveric ankles sectioned at a horizontal plane across the most prominent points of the medial and lateral malleoli. The curvilinear distance from the most prominent point of the medial malleolus to the center of the saphenous vein, its widest collapsed diameter and skin depth were obtained. The great saphenous vein was located at a mean distance of 24.4 ± 7.9 mm anterior to the medial malleolus. The mean widest collapsed diameter was 3.8 ± 1.5 mm. The mean distance from the skin surface to the vein was 4.1 ± 1.2 mm. These measurements could be used to locate the saphenous vein accurately, particularly in hemodynamically unstable patients with visually indiscernible veins.Item Morphological variations of the human ejaculatory ducts in relation to the prostatic urethra(Alan R. Liss, Inc, 2018) Malalasekera, A.P.; Sivasuganthan, K.; Sarangan, S.; Thaneshan, K.; Weerakoon, D.N.; Mathangasinghe, Y.; Gunasekera, C.L.; Mallawaarachchi, S.; Nanayakkara, N.D.; Anthony, D.J.; Ediriweera, D.PURPOSE: Loss of ejaculation can follow transurethral resection of the prostate (TURP). Periverumontanal prostate tissue is preserved in ejaculation-preserving TURP (ep-TURP). Knowledge of ejaculatory duct anatomy in relation to the prostatic urethra can help in ep-TURP. This was evaluated in cross-sections of the prostate using a 3D model to determine a safe zone for resecting the prostate in ep-TURP. MATERIALS AND METHODS: A 3D reconstruction of the ejaculatory ducts was developed on the basis of six prostate gland cross-sections. The measurements obtained from the 3D model were standardized according to the maximum width of the prostate. Simple linear regressions were used to predict the relationships of the ejaculatory ducts. RESULTS: The maximum widths of the prostates ranged from 22.60mm to 52.10mm. The ejaculatory ducts entered the prostate with a concavity directed posterolaterally. They then proceeded towards the seminal colliculus in a fairly straight course, and from that point they angulated anteromedially. As they opened into the prostatic urethra they diverged. Significant regression models predicted the relationships of the ejaculatory ducts to the prostatic urethra based on the sizes of the prostates. CONCLUSIONS: The 3D anatomy of ejaculatory ducts can be predicted on the basis of prostate width. The ejaculatory ducts can be preserved with 95% accuracy if a block of tissue 7.5 mm from the midline on either side of the seminal colliculus is preserved, up to 10mm proximal to the level of the seminal colliculus, during TURP.