H.E. Shamseldin scite author profile

H.E. Shamseldin

3Publications

85Citation Statements Received

133Citation Statements Given

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126

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King Faisal Specialist Hospital & Research Centre

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GLI3‐related polydactyly: a review

et al. 2017

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GLI3 mutations are known to be associated with nine syndromes/conditions in which polydactyly is a feature. In this review, the embryology, pathogenesis, and animal models of GLI3-related polydactyly are discussed first. This is followed by a detailed review of the genotype-phenotype correlations. Based on our review of the literature and our clinical experiences, we recommend viewing GLI3-related syndromes/conditions as four separate entities; each characterized by a specific pattern of polydactyly. These four entities are: the preaxial polydactyly type IV-Greig-acrocallosal spectrum, postaxial polydactyly types A/B, Pallister-Hall syndrome (PHS), and oral-facial-digital overlap syndrome. We also provide illustrative clinical examples from our practice including a family with a novel GLI3 mutation causing PHS. The review also introduces the term 'Forme Fruste' preaxial polydactyly and gives several conclusions/recommendations including the recommendation to revise the current criteria for the clinical diagnosis of PHS.

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Expanding the phenotype of SLC25A42‐associated mitochondrial encephalomyopathy

et al. 2018

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SLC25A42 gene encodes an inner mitochondrial membrane protein that imports Coenzyme A into the mitochondrial matrix. A mutation in this gene was recently reported in a subject born to consanguineous parents who presented with mitochondrial myopathy with muscle weakness and lactic acidosis. In this report, we present 12 additional individuals with the same founder mutation who presented with variable manifestations ranging from asymptomatic lactic acidosis to a severe phenotype characterized by developmental regression and epilepsy. Our report confirms the link between SLC25A42 and mitochondrial disease in humans, and suggests that pathogenic variants in SLC25A42 should be interpreted with the understanding that the associated phenotype may be highly variable.

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FBXL4 is a mitochondria-localized protein in which autosomal recessive mutations cause multiple respiratory chain multisystem disease commonly involving cortical atrophy and leukodystrophy

Gai

Ghezzi²,

Johnson

et al. 2013

Mitochondrion

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H.E. Shamseldin

GLI3‐related polydactyly: a review

Expanding the phenotype of SLC25A42‐associated mitochondrial encephalomyopathy

FBXL4 is a mitochondria-localized protein in which autosomal recessive mutations cause multiple respiratory chain multisystem disease commonly involving cortical atrophy and leukodystrophy

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