Sharmila Kiss scite author profile

Sharmila Kiss

5Publications

4Citation Statements Received

58Citation Statements Given

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Royal Children's Hospital

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Dig deeper when it does not make sense: Juvenile xanthomas due to sitosterolemia

et al. 2020

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Sitosterolemia is an extremely rare autosomal recessive disease caused by mutations in either ABCG5 or ABCG8, which encode for a sterol efflux transporter (sterolin) that pumps sterols out into the intestinal lumen or into bile. This leads to progressive accumulation of plant sterols in blood and tissues. Clinical presentation is variable and may include xanthoma, arthritis, thyroid dysfunction, premature atherosclerotic disease, splenomegaly, and hematologic manifestations. We report a child presented with multiple xanthomas at age 5.5 years, located on the elbow, knee, and toe. Juvenile xanthogranuloma was considered based on histopathologic findings. At 8 years of age, a lipid profile showed markedly elevated total cholesterol (9.4 mmol/L) and low‐density lipoprotein cholesterol (LDL‐C, 7.4 mmol/L). Simvastatin therapy was initiated, however, the lipid profile was persistently abnormal. At age 8.5 years, genetic testing identified two novel variants: (NM_022437.3[ABCG8]:c.1444del;p.Leu482Trpfs*40) and (NM_022437.3[ABCG8]:c.1640T>C;p.Leu547Pro) in the ABCG8 gene. Plasma sitosterol was subsequently found to be very high, confirming the diagnosis. She was started on a low plant sterol and cholesterol diet for 6 weeks with insignificant response and therefore ezetimibe (10 mg daily) was added. This resulted in significant reduction of cholesterol, LDL, sitosterol levels, and no further increase in the size of the xanthomas. This case emphasizes the diagnostic odyssey, the benefits of genomic testing and importance of a correct diagnosis in order to initiate appropriate therapy. It also illustrates the importance of considering rare conditions, such as sitosterolemia, as a differential diagnosis in patients with hypercholesterolemia and increased LDL‐C.

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Very Long‐chain Acyl‐coa Dehydrogenase Deficiency: Case Report of Hypoglycaemia and Rhabdomyolysis in a 2‐day‐old Infant

Kiss

Hong

Sadowsky³

et al. 2020

J Paediatrics Child Health

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A cryptic pathogenic NDUFV1 variant identified by RNA‐seq in a patient with normal complex I activity in muscle and transient magnetic resonance imaging changes

Kiss

Christodoulou

Thorburn

et al. 2023

American J of Med Genetics Pt A

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Mitochondrial respiratory chain disorders (MRC) are amongst the most common group of inborn errors of metabolism. MRC, of which complex I deficiency accounts for approximately a quarter, are very diverse, causing a wide range of clinical problems and can be difficult to diagnose. We report an illustrative MRC case whose diagnosis was elusive. Clinical signs included failure to thrive caused by recurrent vomiting, hypotonia and progressive loss of motor milestones. Initial brain imaging suggested Leigh syndrome but without expected diffusion restriction. Muscle respiratory chain enzymology was unremarkable. Whole‐genome sequencing identified a maternally inherited NDUFV1 missense variant [NM_007103.4 (NDUFV1):c.1157G > A; p.(Arg386His)] and a paternally inherited synonymous variant [NM_007103.4 (NDUFV1):c.1080G > A; (p.Ser360=)]. RNA sequencing demonstrated aberrant splicing. This case emphasizes the diagnostic odyssey of a patient in whom a confirmed diagnosis was elusive because of atypical features and normal muscle respiratory chain enzyme (RCE) activities, along with a synonymous variant, which are often filtered out from genomic analyses. It also illustrates the following points: (1) complete resolution of magnetic resonance imaging changes may be part of the picture in mitochondrial disease; (2) analysis for synonymous variants is important for undiagnosed patients; and (3) RNA‐seq is a powerful tool to demonstrate pathogenicity of putative splicing variants.

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Neonatal presentation of occipital horn syndrome caused by a ATP7A missense variant

Adant

Yaplito‐Lee

Kiss

2023

J of Inher Metab Disea

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Disorders in sterol metabolism: A case series

et al. 2022

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Multiple acyl-CoA dehydrogenase deficiency (MADD), or glutaric acidemia type II, is an autosomal recessive disorder of oxidative metabolism. MADD has a wide clinical spectrum with clinical presentation in the neonatal period with or without congenital malformations, through to later onset. Episodes of clinical decompensation may be triggered by catabolic stressors such as intercurrent illnesses and prolonged fasting. The diagnosis of MADD is made according to the profiles of urine organic acids and plasma or dried blood spot (DBS) acylcarnitines. The infant was identified by the NSW newborn screening program and biochemically confirmed by the characteristic plasma and urine diagnostic profile. He was asymptomatic in the neonatal period and has not had any metabolic decompensation. He is growing and developing normally. However, diagnosis in the adult was challenging as the initial urine organic acid profile was normal at the time of severe metabolic decompensation and the biochemical markers of MADD were only detected after carnitine supplementation. He has shown clinical improvement after treatment with carnitine, 3-hydroxybutyrate, CoQ, riboflavin and glycine. This report highlights the need for early diagnosis as patients including those with late onset forms can have a favourable response with intervention.

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Sharmila Kiss

Dig deeper when it does not make sense: Juvenile xanthomas due to sitosterolemia

Very Long‐chain Acyl‐coa Dehydrogenase Deficiency: Case Report of Hypoglycaemia and Rhabdomyolysis in a 2‐day‐old Infant

A cryptic pathogenic NDUFV1 variant identified by RNA‐seq in a patient with normal complex I activity in muscle and transient magnetic resonance imaging changes

Neonatal presentation of occipital horn syndrome caused by a ATP7A missense variant

Disorders in sterol metabolism: A case series

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