Journal/Magazine Articles
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This collection contains original research articles, review articles and case reports published in local and international peer reviewed journals by the staff members of the Faculty of Medicine
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Item A child with Imerslund-Gräsbeck syndrome concealed by co-existing α-thalassaemia presenting with subacute combined degeneration of the spinal cord: a case report(BioMed Central, 2021) Arunath, V.; Hoole, T. J.; Rathnasri, A.; Muthukumarana, O.; Kumarasiri, I.M.; Liyanage, N.D.; Costa, Y.; Mettananda, S.BACKGROUND: Imerslund-Gräsbeck syndrome is a rare genetic disease characterised by vitamin B12 deficiency and proteinuria. CASE PRESENTATION: A 4-year old Sri Lankan boy presented with gradually worsening difficulty in walking for two weeks duration. He was previously diagnosed and managed as having non-transfusion-dependent α-thalassaemia based on the presence of hypochromic microcytic anaemia, haemoglobin H inclusion bodies in the blood film and compound heterozygous α-thalassaemia genotype with a gene deletion. However, his transfusion requirement increased over the past three months and he gradually lost his motor developmental milestones during two weeks before admission. The neurological examination revealed generalised hypotonia, exaggerated knee jerks and extensor plantar response. His complete blood count showed pancytopenia, and bone marrow biopsy revealed megaloblastic changes. Serum vitamin B12 and red blood cell folate levels were low. MRI revealed sub-acute combined degeneration of the spinal cord with characteristic 'inverted V sign'. Urine analysis showed non-nephrotic range proteinuria. The diagnosis of Imerslund-Gräsbeck syndrome was made due to the presence of non-nutritional vitamin B12 deficiency and asymptomatic proteinuria. He showed a rapid haematological and neurological improvement to intramuscular hydroxocobalamin. CONCLUSIONS: This case report presents a rare occurrence of severe vitamin B12 deficiency due to Imerslund-Gräsbeck syndrome masked by co-existent α-thalassaemia, resulting in serious consequences. It highlights the need for a high index of suspicion in evaluating children with severe anaemia, especially in the presence of mixed pathologies. KEYWORDS: Anaemia; Hypopigmented hair; Imerslund-Gräsbeck syndrome; Inverted V sign; Megaloblastic changes; Subacute combined degeneration of the spinal cord; Thalassaemia; Vitamin B12.Item Sickle cell disease in Sri Lanka: clinical and molecular basis and the unanswered questions about disease severity(BioMed Central., 2020) Darshana, T.; Bandara, D.; Nawarathne, U.; de Silva, U.; Costa, Y.; Pushpakumara, K.; Pathirage, S.; Basnayake, S.; Epa, C.; Dilrukshi, P.; Wijayawardena, M.; Anthony, A. A.; Rodrigo, R.; Manamperi, A.; Smith, F.; Allen, A.; Menzel, S.; Rees, D.; Premawardhena, A.BACKGROUND: Though case reports and limited case series of Sickle cell disease in Sri Lanka have been reported previously, no attempt has been made hitherto to undertake a comprehensive genotypic-phenotypic analysis of this "rare" group of patients. RESULTS: All accessible Sickle cell disease patients, totaling 60, including, 51 Sickle β-thalassaemia and 9 homozygous sickle patients were enrolled from seven thalassaemia treatment centres between December 2016-March 2019. The majority of patients were of Sinhalese ethnicity (n = 52, 86.67%). Geographically, two prominent clusters were identified and the distribution of Sickle haemoglobin in the island contrasted markedly with the other haemoglobinopathies. 3/ 9 homozygous sickle patients and 3/ 51 Sickle β-thalassaemia patients were receiving regular transfusion. Joint pain was the commonest clinical symptom among all sickle cell disease patients (n = 39, 65.0%). Dactylitis was significantly more common in homozygous sickle patients compared with the Sickle β-thalassaemia groups (p 0.027). Two genetic backgrounds sickle mutation were identified namely, Arab Indian and Benin. Among the regulators of Foetal hemoglobin in Sickle patients of the present study rs1427407 G > T seemed to be the most prominent modifier, with a significant association with Foetal haemoglobin levels (p 0.04). CONCLUSIONS: Overall, the clinical course of the Asian version of Sickle cell disease in Sri Lanka appears to be milder than that described in India. KEYWORDS: Clinical; Genetic; Severity; Sickle cell; Sri Lanka.Item Microcytic anemia in children: Parallel screening for iron deficiency and Thalassemia provides a useful opportunity for Thalassemia prevention in low- and middle-income countries(Hemisphere Pub. Corp., 2020) Mettananda, S.; Paranamana, S.; Fernando, R.; Suranjan, M.; Rodrigo, R.; Perera, L.; Vipulaguna, T.; Fernando, P.; Fernando, M.; Dayanath, B.K.T.P.; Costa, Y.; Premawardhena, A.ABSTRACT:Microcytic anemia in children is commonly attributed to iron deficiency without attempting to find the cause. Inadequate investigations to exclude hemoglobinopathies lead to missed opportunities for identification of thalassemia carriers. Here we aim to describe the relative contribution of iron deficiency and thalassemia to microcytic anemia in children. This hospital-based prospective study was conducted at the Colombo North Teaching Hospital, Ragama, Sri Lanka. All newly diagnosed patients with microcytic anemia were recruited and data were collected using an interviewer-administered questionnaire. Full blood count, blood film, serum ferritin, c-reactive protein, quantification of hemoglobin sub-types and α-globin genotype were performed using 4 ml of venous blood. A total of 104 children (Male- 60.5%) were recruited. Iron deficiency was the cause for anemia in 49% whilst 16% and 10% had α- and β-thalassemia trait respectively. Seven (6.7%) children had co-existing iron deficiency and thalassemia trait while two coinherited α- and β-thalassemia trait. Children with β-thalassemia trait had significantly higher red cell count and lower mean corpuscular volume compared to children with iron deficiency. However, none of the red cell parameters were significantly different between children with α-thalassemia trait and iron deficiency. Iron deficiency contributes only to half of children with microcytic anemia; one-fourth had thalassemia trait. Co-existence of iron deficiency and thalassemia trait or co-inheritance of α- and β-thalassemia trait were found in 9%. Parallel investigation of children with microcytic anemia to diagnose iron deficiency and thalassemia provides an opportunity to identify thalassemia carriers which is beneficial for thalassemia prevention.