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This repository contains the published and unpublished research of the Faculty of Medicine by the staff members of the faculty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 variations of the common peroneal nerve (cpn) and the deep pereoneal nerve (dpn) in the lateral compartment of the leg: A cadaveric study(College of Surgeons of Sri Lanka, 2015) Salgado, L.S.S.; Karunanayake, A.L.; Hasan, R.; Salvin, K.A.; Fernando, E.D.P.S.; Ranaweera, M.S.L.; Padeniya, A.G.P.M.; Senevirathne, S.P.; Ranaweera, K.R.K.L.K.INTRODUCTION: The aim of this study is to demonstrate anatomy of CPN and DPN in the lateral compartment and identify high risk area/s which is important in high tibial osteotomy, in total knee arthroplasty, in external fixation of leg and CPN decompression surgery. MATERIAL AND METHODS: Thirty cadaveric legs (female-14, male-16) were dissected to demonstrate the bifurcation of the CPN and the exit point of the DPN from the lateral compartment. The ethical clearance was obtained. RESULTS: None of the specimens showed bifurcation of the CPN proximal to the apex of the fibular head. Musculoaponeurotic fibular arch at the entrance to the fibular tunnel was confirmed in all specimens. The mean distance from the apex of the fibular head to the opening of the fibular tunnel was 28.4mm (SEM±1.4mm). Of 30 specimens respectively 21(70%), 7(23.33%) and 2(6.66%) had bifurcation vertically distal to, on and proximal to the entry point with the average of 8.0mm and 12.0mm from the entry point. Eleven legs had muscular branches of the DPN in the lateral compartment of the leg. The mean exit point of the DPN/its longest muscular branch was observed 66.5mm (SEM±2.6mm) distal to the apex of the fibular head. CONCLUSIONS: Variations of the CPN bifurcation in relation to the fibular tunnel and muscular branches of the DPN in the lateral compartment were observed. From the apex of the fibular head, distance of 25.6mm-71.6mm was identified as the high risk area for surgeries involving in the upper part of the lateral compartment.Item Anatomical variations of the musculocutaneous nerve - A cadaveric study(College of Surgeons of Sri Lanka, 2015) Padeniya, A.G.P.M.; Salgado, L.S.S.; Hasan, R.; Fernando, E.D.P.S.; Ranaweera, R.M.S.L.; Abeysuriya, V.; Karunanayake, A.L.; Salvin, K.A.; Siriwardana, S.A.S.R.; Balasooriya, B.M.C.M.; Alahakoon, A.M.D.K.INTRODUCTION: The musculocutaneous (MC) nerve commences from the lateral cord of the brachial plexus, passes inferolaterally and pierces the coracobrachialis while innervating it. It then descends between biceps and brachialis muscles, innervating both and continues as the lateral cutaneous nerve of the forearm. Few studies have been done with regard to variations in origin, course, branching pattern, termination and communications of the MC nerve. These variations are important for anatomists, clinicians, anesthetists and surgeons to avoid unexpected complication as these variations have clinical significance during the surgical procedures and in diagnostic clinical neurophysiology. Therefore the aim of this paper was to study the anatomical variations of the MC nerve. MATERIAL AND METHODS: This descriptive cross sectional study was carried out in the Department of Anatomy, Faculty of Medicine, University of Kelaniya. Dissections were carried out on 50 upper limbs of 25 cadavers to record anatomical variations of the MC nerve. RESULTS: MC nerve was present only in 46(92%) upper limbs. Of the 46 upper limbs where the MC was present, one (2%) did not pierce the coracobrachialis. Communications were seen between MC and median nerve in 06(13%) samples of which 1(17%) was proximal and 5(83%) were distal to the point of entry of the MC into the coracobrachialis and in 4(9%) upper limbs MC nerve rejoins with the median nerve. CONCLUSIONS: It is evident that significant anatomical variations of the MC nerve exist in our study. These variations emphasize the complexities and irregularities of this anatomical structure with regard to surgical approaches.Item Prolactin and male infertility(Sri Lanka Medical Association, 2013) Hasan, R.; Weerasooriya, T.; Illeperuma, I.; Weerasinghe, W.S.; Withana, A.K.G.INTRODUCTION AND OBJECTIVES: Male infertility due to endocrine disturbances is seen among 1% of couples seeking medical help for childlessness. Effects of prolactin on the male reproductive system are not fully understood. Objective was to determine prolactin level in healthy males with infertility. METHODS: A case control study recruited 297 males attending infertility clinics in a government or private institution over a period of 54 months. A detailed clinical assessment of reproductive health was carried out. All underwent a -basic seminal fluid analysis (BSA) and an endocrine profile consisting of FSH, LH, testosterone and prolactin (PRL) hormones carried out using the immulite random access chemiluminescent immunoassay method (normal range 2.5-17ng/ml). Age, weight and height matched volunteers comprised the control group. RESULTS: None of the cases had any anatomical, medical or surgical disorder which could account for the infertility. Among the controls, mean age was 33.2yrs ±5.2, BMI 21.04 kgm-2 ±1.39, BSA 34xl06± 7.87x106, number of children fathered 2 ±1, PRL 6.78ng/ml ±2.92. Twenty nine (9.76%) had abnormal PRL levels irrespective of serum testosterone level with a BSA sperm count < 20x106 and there were structural and functional abnormalities. Hyperprolactinaemic was seen in 28 and 26 had marked hypotestosteronaemia. FSH and LH were normal. CONCLUSIONS: Prolactin abnormalities affect the male reproductive system and semen parameters. Further studies should be carried out on PRL and male infertilityItem Coracobrachialis muscle: morphology, morphometry and gender differences(Springer, 2016) Ilayperuma, I.; Nanayakkara, B.G.; Hasan, R.; Uluwitiya, S.M.; Palahepitiya, K.N.PURPOSE:Coracobrachialis (CBM) is a complex muscle with a wide range of variations in its morphology and innervation. The goal of this study was to elucidate the morphology, morphometry, gender differences of CBM and precise anatomical position of the musculocutaneous nerve (MCN) with reference to surrounding anatomical landmarks in an adult Sri Lankan population. METHOD: Cadaveric upper limbs (n = 312) were examined for the proximal and distal attachments, length, width, thickness of CBM and its relationship with the MCN. RESULTS: The CBM originated from the tip of the coracoid process of the scapula and lateral, posterior and medial aspects of the tendon of short head of biceps brachii. Gender differences were observed in all morphometrical parameters of CBM. In 83.33 %, MCN perforated the CBM. In 50 % the MCN pierced the middle one-third of CBM while none pierced the lower one-third. The distance from the coracoid process to the point of entry of MCN into CBM (distance P) was 50.62 mm. A positive correlation was observed between the arm length and distance P indicating that arm length provides an accurate and reliable means of gauging the distance P of an individual. CONCLUSION: The present study provides new evidence pertaining to the origin of CBM. Further, it was revealed that the predicted distance P of any upper extremity can be calculated by dividing the arm length by 5. Precise anatomical location of MCN in relation to CBM using unequivocal and well-defined anatomical landmarks will be imperative in modern surgical procedures.