Conference Papers
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This collection contains abstracts of conference papers, presented at local and international conferences by the staff of the Faculty of Medicine
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Item Reconstruction of Metabolic Pathways for the Setaria digitata Whole Genome(Sri Lanka Medical Association, 2020) Rashanthy, N.; Kothalawala, M.S.A.; Mugunamalwaththa, T.S.; Darshika, W.A.S.; Lakmali, G.L.Y.; de Zoysa, K.; Chandrasekharan, N.V.; Gunawardene, Y.I.N.S.; Suravajhala, P.; Dassanayake, R.S.INTRODUCTION AND OBJECTIVES: Setaria digitata is a Wolbachia-free filarial parasite that resides in the abdominal cavity of ungulates. It can cause cerebrospinal nematodiasis (CNS) in unnatural hosts such as sheep, goats, which causes a serious threat to livestock farming. Furthermore, S. digitata can also infect humans causing several conditions showing a gradual adaption to humans. METHODS: Despite, to date, complete a metabolic pathway reconstruction of S. digitata has not been undertaken and therefore, in this study the latter analyses were carried out using BLAST2GO software. RESULTS: Metabolic pathway analysis based on Kyoto Encyclopedia of Genes and Genomes (KEGG) database identified 111 enzymes found in total of 246 contigs that involve in 95 metabolic pathways, in which the most over-represented pathways are Biosynthesis of antibiotics, Phosphatidylinositol signaling system and Purine metabolism. Since S. digitata does not harbor Wolbachia endosymbiont, it was theorized that the S. digitata genome must encodes genes to carryout haem, riboflavin and nucleotides pathways, otherwise encoded by Wolbachia genome, potentially through lateral transfer of Wolbachia to an ancestor of S.digitata. Here, KEGG analysis identified 16 enzyme coding genes involve in nucleotide biosynthesis and one enzyme involve in riboflavin biosynthesis pathway. Although studies have revealed that FAD and glutathione pathways are complete in all nematode genomes, the genes encoding FAD and glutathione pathways were not found in the S. digitata. Moreover, complete nucleotide synthesis pathway and haem synthesis pathway were not found. CONCLUSION: This suggests that S. digitata may have evolved its own sequences to encode those biosynthetic pathways and hence calling for investigations to undertake characterization of genes involved in these pathways.Item Molecular diagnosis of velo-cardio-facial syndrome among sri lankan patients with congenital cardiac defects(Sri Lanka College of Paediatricians, 2015) Tevarajan, I.; Ranaweera, D. M.; Perera, S.; Samarasinghe, D.; Morawakkorala, R.; Silva, R. L.; de Silva, D.; Chandrasekharan, N.V.Velo cardio facial Syndrome (VCFS) is caused by a 3 Mb deletion of chromosome 22qll.2. Its multiple clinical features include orofacial clefting, congenital cardiac defects (especially conotruncal),developmental delay and learning difficulties. Hypoparathyroidism and thymic hypoplasia are associated. Dysmorphic features include expressionless face, prominent nose, narrow eyes and long fingers/ toes. Clinical diagnosis is difficult due to its variability making molecular diagnosis essential but this is often too expensive for widespread use. We have developed a less expensive semi-quantitative PCR method for diagnosing VCFS and report preliminary results in congenital cardiac defect patients.OBJECTIVE: • Identify the 22qll.2 deletion syndrome among a selected group of children with typical cardiac defects • Describe clinical features of affected cases DESIGN, SETTING AND METHOD: TweIve children (6 males, mean age 3y lmo) with conotruncal congenital cardiac anomalies or cardiac defects associated with other clinical feature of VCFS were .recruited following informed consent from parents. Ethical approval had been granted for this study. A blood sample was obtained for DNA extraction and the clinical data recorded. Molecular diagnosis was performed using semi-quantitative PCR. RESULTS: Three cases were positive for the deletion. Their cardiac anomalies were an interrupted aortic arch,tetralogy of Fallot and right sided aortic arch. None had palatal anomalies and two (67%) had learning difficulties. None had a positive family history. Only one had facies that were typical. The negative cases included six with aortic arch anomalies, none with clefting and 4 with learning difficulties(44). Two had a family history suggestive of VCFS and two had typical facial features. CONCLUSIONS: Three out of the 12 children were positive for the 22qll.2 deletion.Item Molecular diagnosis of Williams Buren syndrome in a cohort of Sri Lankan patients(Sri Lanka Medical Association, 2012) Ranaweera, D.M.; de Silva, D.; Samarasinghe, D.; Perera, S.; Rajapaksha, N.; Chandrasekharan, N.V.INTRODUCTION: Williams Bueren Syndrome (WBS) is a common genetic cause of congenital heart defects associated with developmental delay, hypercalcaemia and characteristic facial dysmorphism. It is caused by a 1.5 to 1.8 Mb deletion of chromosome 7qll.23 involving the loss of around 23 genes including the elastin (ELN) gene. This study reports the development of a semi quantitative PCR method to diagnose WBS. AIMS: To establish a molecular diagnostic test for WBS and determine the frequency of ELN deletions among clinically suspected cases. METHODS: Sixteen suspected WBS cases identified by two paediatric cardiologists were recruited following ethical clearance and informed consent. DNA was extracted and dosage analysis was carried out using semi-quantitative PCR. In a multiplex PCR reaction normal (N), positive control (with a confirmed deletion) and patients' (PJ DNA was amplified using 2 primer pairs which amplified regions within the ELN gene and the CFTR gene on chromosome 7 but outside the deleted region. Following agarose gel electrophoresis, the amplified products were quantified. A ratio of P:N of 0.5 indicated the presence of a deletion while a ratio of 1 indicated the absence of a deletion. RESULTS: Among sixteen suspected cases, 12 (75%) had an ELN gene deletion while 4 cases did not. CONCLUSIONS: This semi-quantitative PCR method was able to distinguish ELN deleted cases from the non deleted ones. The preliminary data supports this as a useful diagnostic test for WBS but validation is required before its clinical use.Item Development of modified mismatch PCR-RFLP to screen mutations in codon 12 and 13 of K- ras gene of colorectal (CRC) patients in Sri Lanka(Sri lanka Medical Association, 2015) Dhilhani, M.F.F.; de Zoysa, M.I.M.; Chandrasekharan, N.V.; Gunawardene, Y.I.N.S.; Lokuhetti, M.D.S.; Dassanayake, R.S.INTRODUCTION AND OBJECTIVES: Mutations in K-ras codon 12, 13 of exon 2 are known to affect prognosis and impart resistance to anti EGFR monoclonal antibody therapy in CRC. Although several diagnostic tools have been developed for K-ras mutation testing, these procedures are too expensive or time consuming. Oufaim was to develop an effective, reliable and inexpensive method for the detection of K-ras mutations in codons 12 and 13 of exon 2 in CRC patients in Sri Lanka, and to relate the mutational status to liver metastasis, METHOD: The mismatch PCR-RFLP was developed and used to screen mutations in codon 12 and 13 for DMA isolated from paraffinized tumour tissue of 30 CRC patients followed up for 5 year after surgery to detect liver metastasis. Cross-tabulations were generated between K-ras mutations and the metastatic status. The Chi Square test was used to indicate statistical significance of the association. RESULTS: Analysis of banding pattern obtained from restriction digestion of PCR amplified region containing codon 12 and/or 13 of KRAS gene of 14(46.6%) CRC patients revealed the presence of mutations. Of the 30 patients, 13(43.3%) had developed liver metastases. There was a significant association between the presence of a K-ros mutation and the occurrence of liver metastasis (X2=4.693, p=0.003). CONCLUSION: This mismatch PCR-RFLP protocol is a suitable method to screen codon 12 and 13 mutation of K-ros gene to predict liver metastasis. Presence of these mutations is associated with the occurrence of liver metastasis during the first 5 years after surgery.Item Molecular diagnosis of Velocardiofacial Syndrome in a cohort of Sri Lankan patients(Sri Lanka Medical Association, 2014) Thevarajan, I.; Ranaweera, D.M.; de Silva, D.; Prabodha, L.B.L.; Gunasekera, R.; Dias, D.K.; Nanayakkara, B.G.; Basnayake, S.; Jayathilake, M.; Chandrasekharan, N.V.INTRODUCTION AND OBJECTIVES: Velocardiofacial Syndrome (VCFS) is caused by a 3 Mb deletion encompassing around 40 genes on chromosome 22qll.2. It is characterised by variable features including congenital malformations of the palate and heart, growth and developmental delay, immunological anomalies, hypocalcaemia and other problems. Clinical diagnosis is difficult due to its variability within and between families. Early diagnosis enables appropriate management of the affected cases. Objective was to establish a reliable and cost effective molecular diagnostic test for VCFS. METHODS: Nineteen clinically suspected patients with palatal and facial features suggestive of VCFS from Lady Ridgeway Hospital, Colombo and the Teaching hospital, Karapitiya were recruited following informed consent and prior ethical clearance. A semi-quantitative multiplex poiymerase chain reaction (PCR) was established to identify the deletion using dosage analysis. The PCR assay was carried out using DNA from patients (P), unaffected person (N) and a positive control (with a FISH confirmed deletion} using STS markers within the deleted region and CFTR (Cystic Fibrosis Transmembrane Regulatory Conductance) control primers outside the deleted region. Following agarose gel electrophoresis the PCR products were quantified. A ratio of P: N of 0.5 was taken to indicate a deletion while a ratio of 1 indicated absence of the deletion. RESULTS: Among nineteen clinically suspected VCFS cases, five cases had the deletion. CONCLUSIONS: This semi-quantitative PCR assay was able to identify.deletions in clinically suspected patients. However further validation is required before its clinical usage.Item Spatial and seasonal analysis of human leptospirosis in the District of Gampaha, Sri Lanka(University of Kelaniya, 2014) Denipitiya, D.T.H.; Abeyewickreme, W.; Hapugoda, M.D.; Chandrasekharan, N.V.Leptospirosis is a zoonostic infectious disease, caused by a pathogenic species of the genus Leptospira. In Sri Lanka, around 1500 human leptospirosis cases are reported annually. Typically, the risk of the disease is seasonal with a small spike occurs in March to May and a large spike occurs during October to December. Objective of this study was to analyze spatial and seasonal pattern of human leptospirosis in the District of Gampaha, Sri Lanka.