Sue Fyfe scite author profile

This multicenter investigation into the phenotypic correlates of MECP2 mutations in Rett syndrome has provided a greater depth of understanding than hitherto available about the specific phenotypic characteristics associated with commonly occurring mutations. Although the modifying influence of X inactivation on clinical severity could not be included in the analysis, the findings confirm clear genotype-phenotype relationships in Rett syndrome and show the benefits of collaboration crucial to effective research in rare disorders.

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Describing the phenotype in Rett syndrome using a population database

Colvin

Fyfe

Leonard

et al. 2003

111

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Background: Mutations in the MECP2 gene have been recently identified as the cause of Rett syndrome, prompting research into genotype-phenotype relations. However, despite these genetic advances there has been little descriptive epidemiology of the full range of phenotypes. Aims: To describe the variation in phenotype in Rett syndrome using four different scales, by means of a population database. Methods: Using multiple sources of ascertainment including the Australian Paediatric Surveillance Unit, the development of an Australian cohort of Rett syndrome cases born since 1976 has provided the first genetically characterised population based study of Rett syndrome. Follow up questionnaires were administered in 2000 to families and used to provide responses for items in four different severity scales. Results: A total of 199 verified cases of Rett syndrome were reported between January 1993 and July 2000; 152 families provided information for the follow up study. The mean score using the Kerr scale was 22.9 (SD 4.8) and ranged from 20.5 in those under 7 years to 24.2 in those over 17 years. The mean Percy score was 24.9 (SD 6.6) and also increased with age group from 23.0 to 26.9. The mean Pineda score was 16.3 (SD 4.5) and did not differ by age group. The mean WeeFIM was 29.0 (SD 11.9), indicating extreme dependence, and ranged from 18 to 75. Conclusion: We have expanded on the descriptive epidemiology of Rett syndrome and shown different patterns according to the severity scale selected. Although all affected children are severely functionally dependent, it is still possible to identify some variation in ability, even in children with identified MECP2 mutations.

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Patients with the R133C mutation: is their phenotype different from patients with Rett syndrome with other mutations?

Leonard¹,

Colvin²,

Christodoulou³

et al. 2003

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Gross Motor Profile in Rett Syndrome as Determined by Video Analysis

Downs¹,

Bebbington²,

Jacoby³

et al. 2008

Neuropediatrics

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This study used video supplemented by parent-report data to describe mobility in girls and women with Rett syndrome (n=99) and to investigate the effects of age, genotype, scoliosis and hand stereotypies on mobility. Most subjects were able to sit, slightly less than half were able to walk and a minority were able to transfer without assistance. Factor analysis enabled the calculation of general mobility and complex motor skills scores. General mobility declined with age and was poorer in those who had surgically treated scoliosis, but was not significantly related to the presence of conservatively managed scoliosis. Complex motor skills were better in those without scoliosis. Those who had a p.R133C, p.R294X, p.R306C or C terminal deletion mutation had better complex motor skills when younger than 13 years, and better general mobility and complex motor skills when 13 years or older. Neither set of motor skills scores was related to the frequency of hand stereotypies. The factor analysis and strong correlation between factor and WeeFIM scores supported the validity of the video assessment. Motor impairment is a fundamental but variable component of the Rett syndrome phenotype. General motor abilities declined with age whilst complex motor skills were more dependent on genotype. This information is useful for the clinician and family when planning support strategies and interventions.

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Predictors of Scoliosis in Rett Syndrome

et al. 2006

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Scoliosis is a common clinical manifestation of Rett syndrome, a neurodevelopmental disorder that almost exclusively affects girls. Following apparently normal development, these girls typically regress and lose previously attained cognitive, social, and motor skills. Severe intellectual and physical disabilities remain throughout life. Mutations in the methyl-CpG-binding protein 2 gene, MECP2, are detected in approximately 80% of cases and are associated with phenotypic variability. Population-based data on Australian cases were used to study the association between early developmental and genetic factors and the onset of scoliosis. The median age at scoliosis onset was 9.80 years, and three quarters of subjects had developed scoliosis by 13 years of age. Children with compromised early development before 6 months, those who were less mobile at 10 months, and those who never walked were more likely to have an earlier onset of scoliosis. When seven common point mutations and large genomic and C-terminal deletions were compared, the R294X mutation appeared to provide some protective effect against the development of scoliosis.

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Sue Fyfe

Investigating genotype–phenotype relationships in Rett syndrome using an international data set

Describing the phenotype in Rett syndrome using a population database

Patients with the R133C mutation: is their phenotype different from patients with Rett syndrome with other mutations?

Gross Motor Profile in Rett Syndrome as Determined by Video Analysis

Predictors of Scoliosis in Rett Syndrome

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