Browsing by Author "Jasinge, E."

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A case of multiple sulfatase deficiency
(Sri Lanka College of Paediatricians, 2022) Razeen, Z.; Suriapperuma, T.; Fernando, S.; Munasinghe, R.; Jasinge, E.; Panapitiya, M.
No abstract available
A Novel mutation in ACAT1 causing Beta-Ketothiolase deficiency in a 4-year-old Sri Lankan boy with metabolic ketoacidosis.
(Springer, 2020) Manawadu, T. V.; Jasinge, E.; Fernando, M.; Gamage, P.; Gunarathne, A.V.
ABSTRACT:Beta-ketothiolase (mitochondrial acetoacetyl-CoA thiolase, T2) deficiency is a rare genetic disorder of ketone utilization and isoleucine catabolism caused by mutations in the ACAT1 gene. Here we report the first Sri Lankan case of T2 deficiency confirmed by genetic analysis. A 4-year-old boy presented with the first episode of severe metabolic ketoacidosis after a febrile illness. On admission, the child was drowsy and had circulatory collapse needing intubation. Initial investigations were not detective of a cause and symptomatic management did not improve the condition. During the acute episode, his urine organic acid profile revealed elevations in 3-OH-2-methyl-butyric acid and tiglylglycine whilst 2-methylacetoacetic acid was not detected. The differential diagnoses for the urine organic acid profile included deficiency in T2 or 2-methyl-3-OH-butyryl-CoA dehydrogenase enzymes. Genetic analysis using polymerase chain reaction and DNA sequencing of ACAT1 gene revealed that the proband is homozygous for the novel missense likely pathogenic variant c.152C > T p.(Pro51Leu) confirming the diagnosis of T2 deficiency. This case highlights the importance of suspecting T2 deficiency in the differential diagnosis of pediatric metabolic ketoacidosis in preventing life threatening consequences of an otherwise benign disorder. KEYWORDS: ACAT1; Beta-ketothiolase deficiency; Metabolic ketoacidosis; Tiglylglycine; Urine organic acid.
A rare co-occurrence of duchenne muscular dystrophy, congenital adrenal hypoplasia and glycerol kinase deficiency due to Xp21 contiguous gene deletion syndrome: case report.
(BioMed Central,, 2021) Rathnasiri, A.; Senarathne, U.; Arunath, V.; Hoole, T.; Kumarasiri, I.; Muthukumarana, O.; Jasinge, E.; Mettananda, S.
Background: Contiguous gene deletion syndromes are rare genomic disorders caused by deletion of large segments of DNA resulting in co-occurrence of apparently unrelated multiple clinical phenotypes. We report a boy with contiguous gene deletion involving Xp21 genomic location. Case presentation: A Sri Lankan boy with developmental delay and failure to thrive first presented at three years of age with hypovolaemia, hyperpigmentation and drowsiness. Investigations done at that time revealed hypoglycaemia, hyponatraemia, hyperkalaemia, low cortisol, low aldosterone, high ACTH and low 17-hydroxyprogesterone. He was diagnosed to have primary adrenal insufficiency. During follow-up at five years, he was noted to have progressive difficulty in walking, waddling gait, hypotonia, calf hypertrophy and positive Gower’s sign. His creatine kinase was very high, and the electromyogram showed myopathy. Genetic analysis revealed hemizygous deletion involving the final 35 exons of the dystrophin gene confirming the diagnosis of Duchenne muscular dystrophy. Further investigations revealed pseudohypertriglyceridemia, large glycerol peak on urine organic acid analysis and hemizygous deletion of the glycerol kinase gene confirming glycerol kinase deficiency. Based on the presence of Duchenne muscular dystrophy, glycerol kinase deficiency and probable congenital adrenal hypoplasia along with genetic confirmation of deletions involving dystrophin and glycerol kinase genes, the diagnosis of Xp21 contiguous gene deletion syndrome was made.Conclusions: We report a child with contiguous gene deletion syndrome who was initially diagnosed as having isolated primary adrenal insufficiency probably due to congenital adrenal hypoplasia. Later he was confirmed to have Duchenne muscular dystrophy and glycerol kinase deficiency, as well. This case report highlights the importance of pre-emptive evaluation and identification of genetic defects when patients present with seemingly unrelated diseases that could aid in accurate diagnoses of contiguous gene deletion syndromes.