Elizabeth C. Moore scite author profile

Alagille syndrome (AGS) is caused by heterozygous mutations in JAG1, and mutations have been previously reported in about 70% of patients who meet clinical diagnostic criteria. We studied a cohort of 247 clinically well-defined patients, and using an aggressive and sequential screening approach we identified JAG1 mutations in 94% of individuals. Mutations were found in 232 out of 247 patients studied and 83 of the mutations were novel. This increase in the mutation rate was accomplished by combining rigorous clinical phenotyping, with a combination of mutation detection techniques, including fluorescence in situ hybridization (FISH), genomic and cDNA sequencing, and quantitative PCR. This higher rate of mutation identification has implications for clinical practice, facilitating genetic counseling, prenatal diagnosis, and evaluation of living-related liver transplant donors. Our results suggest that more aggressive screening may similarly increase the rate of mutation detection in other dominant and recessive disorders.

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Prevalence and perceptions of overweight and obesity in Aboriginal and non‐Aboriginal young people in custody

Haysom

Indig

Moore

et al. 2013

Medical Journal of Australia

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Peripheral Bile Duct Paucity and Cholestasis in the Liver of a Patient With Alagille Syndrome

Libbrecht

Spinner²,

Moore³

et al. 2005

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Alagille syndrome (AGS) is a developmental, multiorgan disease caused by mutations of the Jagged1 gene. The liver is one of the major organs affected in AGS, and the hallmark of liver pathology in AGS is an age-related increase in the proportion of portal tracts that have no bile duct, but without evidence of prominent bile duct damage. The pathogenesis of this bile duct paucity is currently not well understood. (Immuno)histochemical and molecular analyses were performed on several liver biopsies that were taken during macroscopic examination of the explant liver of a 17-year-old AGS patient. The liver periphery was macroscopically pale and was microscopically characterized by complete absence of bile ducts and presence of severe cholestasis, but there was no ductular reaction. Conversely, the central, hilar portion contained normally developed bile ducts showing no or minimal damage and cholestasis. A missense mutation in the Jagged1 gene was present in both parts of the liver, indicating that mosaicism did not cause this peculiar picture. There was also a hypertrophy of the hepatic arterial branches in the liver periphery. Together with previous indirect findings, the current study of the explant liver of an AGS patient strongly suggests that a lack of branching and elongation of bile ducts during postnatal liver growth is the mechanism by which peripheral bile duct paucity and cholestasis develops in AGS. Our findings also suggest that anomalies of the intrahepatic arterial branches may be part of AGS in some patients.

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Predicting Interim Assessment Outcomes Among Elementary-Aged English Learners Using Mathematics Computation, Oral Reading Fluency, and English Proficiency Levels

Hall

Markham

McMackin

et al. 2022

School Psychology Review

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