Nuha Al Zaabi scite author profile

Nuha Al Zaabi

4Publications

28Citation Statements Received

81Citation Statements Given

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Affiliations

Tawam Hospital, United Arab Emirates University

Publications

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Endothelial Dysfunction and the Effect of Arginine and Citrulline Supplementation in Children and Adolescents With Mitochondrial Diseases

Jasmi

Zaabi

Al‐Thihli

et al. 2020

J Cent Nerv Syst Dis

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Background: In addition to the reduced energy production, characteristic of mitochondrial disorders, nitric oxide (NO) deficiency can occur as well. The NO produced by vascular endothelial cells relaxes vascular smooth muscles, resulting in vasodilation that maintains the patency of small blood vessels and promotes blood flow through microvasculature. Endothelial dysfunction due to inability of vascular endothelium to generate enough NO to maintain adequate vasodilation can result in decreased perfusion in the microvasculature of various tissues, contributing to many complications seen in individuals with mitochondrial diseases. The amino acids arginine and citrulline are NO precursors: increasing their concentrations could potentially restore NO production. Methods: In this study, we assessed endothelial dysfunction in children and adolescents with mitochondrial diseases. We also investigated the effect of arginine and citrulline supplementation on endothelial dysfunction in these individuals. We used peripheral arterial tonometry to measure the reactive hyperemic index (RHI), which is low when there is endothelial dysfunction. Results: The results demonstrated low RHI in individuals with mitochondrial diseases, indicating endothelial dysfunction. RHI increased with arginine or citrulline supplementation suggesting that supplementation with NO precursors can improve endothelial dysfunction by enhancing NO production. Conclusions: This study is the first one to use peripheral arterial tonometry methodology in mitochondrial diseases. The results of this study provide evidence for endothelial dysfunction in mitochondrial diseases and demonstrate that arginine or citrulline supplementation can alleviate the endothelial dysfunction, providing more evidence for the potential therapeutic utility of these amino acids in mitochondrial diseases.

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SYNJ1 gene associated with neonatal onset of neurodegenerative disorder and intractable seizure

Zaabi

Menhali

Al‐Jasmi

2017

Molec Gen & Gen Med

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BackgroundSynaptojanin 1 is encoded by the SYNJ1(MIM 604297) and plays a major role in phosphorylation and recycling of synaptic vesicles. Mutation of SYNJ1 is associated with two distinct phenotypes; a known homozygous missense mutation (p.Arg258Gln) associated with early‐onset Parkinson disease (MIM 615530), whereas mutation with complete loss of SYNJ1 function result in a lethal neurodegenerative disease with intractable seizure and tauopathies (MIM 617389).MethodsWe report two related children from consanguineous family presented with intractable seizure, profound developmental delay, failure to thrive, acquired microcephaly, and hypotonia. The brain MRI is normal and EEG showed hypsarrhythmia.ResultThe diagnosis was achieved via whole‐genome sequencing which showed homozygous mutation in SYNJ1 (c.709C>T, p.Gln237*).ConclusionA clinical pattern of neonatal‐onset intractable seizure, profound developmental delay, muscular hypotonia, hypsarrhythmia, and no focal abnormality of brain MRI should prompt initiation of molecular genetic analysis of SYNJ1. Establishment of the diagnosis permits genetic counseling, prevents patients undergoing unhelpful diagnostic procedures and allows for accurate prognosis.

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Chylomicron retention disease in a 2-year-old girl with a novel deletion in the SAR1b gene: A case report and literature review

Ibrahim¹,

Zaabi²,

Hertecant³

2018

Indian J Child Health

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Chylomicron retention disease (CMRD) is a rare disorder of lipid absorption, and its prevalence is <1/million. It is an autosomal recessive disorder with a genetic mutation in the SAR1B gene. We report a case of a girl who had the typical symptoms in the early infancy, in whom CMRD was strongly suspected clinically and due to the endoscopy findings. Unfortunately, the treatment was delayed, waiting for genetic confirmation, which was not available in her country. When we first saw the patient at the age of 2 years, she had severe failure to thrive. She recovered very fast with a trial of a fat-restricted diet and medium chain fatty acid supplementation. The working diagnosis of CMRD was later confirmed genetically. We conclude that a therapeutic trial is essential in this type of disease once the diagnosis is suspected to avoid further damage to the patient. This applies especially to resource-restricted environments.

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Atypical PEX16 peroxisome biogenesis disorder with mild biochemical disruptions and long survival

Zaabi

Kendi

Al‐Jasmi

et al. 2019

Brain and Development

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Nuha Al Zaabi

Endothelial Dysfunction and the Effect of Arginine and Citrulline Supplementation in Children and Adolescents With Mitochondrial Diseases

SYNJ1 gene associated with neonatal onset of neurodegenerative disorder and intractable seizure

Chylomicron retention disease in a 2-year-old girl with a novel deletion in the SAR1b gene: A case report and literature review

Atypical PEX16 peroxisome biogenesis disorder with mild biochemical disruptions and long survival

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