Karine Nguyen scite author profile

To describe the phenotypic spectrum of dysferlin (DYSF) gene mutations (which cause dysferlinopathies, autosomal recessive muscular dystrophies) in patients with a dysferlin protein deficiency. Design: Clinical, biological, and pathological data from 40 patients were reviewed. The diagnosis of dysferlinopathy was based on the absence or strong reduction of dysferlin in muscle, and confirmed by mutational screening of the DYSF gene. Setting: Two French neuromuscular diseases centers (in Paris and Marseilles). Results: Two main dysferlinopathy phenotypes are well recognized: Miyoshi myopathy and limb-girdle muscular dystrophy type 2B. Typical Miyoshi myopathy and limb-girdle muscular dystrophy type 2B were found in 20 (50%) patients only. Unusual phenotypes included a mixed phenotype, referred to as "proximodistal," combining distal and proximal onset in 14 (35%) patients, pseudometabolic myopathy in 4 (10%), and asymptomatic hyperCKemia (an increased serum creatine kinase level) in 2 (5%). The disease may worsen rapidly, and 10 (25%) patients were initially misdiagnosed as having polymyositis. We suggest a relationship between proximodistal phenotype, inflammation, and severity. Conclusion: In addition to typical Miyoshi myopathy and limb-girdle muscular dystrophy type 2B, dysferlinopathies are a clinically heterogeneous group of disorders ranging from asymptomatism to severe functional disability.

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Widening the landscape of heritable pulmonary hypertension mutations in paediatric and adult cases

Eyries

et al. 2018

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Dysferlin mutations in LGMD2B, Miyoshi myopathy, and atypical dysferlinopathies

et al. 2005

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DYSF encoding dysferlin is mutated in Miyoshi myopathy and Limb-Girdle Muscular Dystrophy type 2B, the two main phenotypes recognized in dysferlinopathies. Dysferlin deficiency in muscle is the most relevant feature for the diagnosis of dysferlinopathy and prompts the search for mutations in DYSF. DYSF, located on chromosome 2p13, contains 55 coding exons and spans 150 kb of genomic DNA. We performed a genomic analysis of the DYSF coding sequence in 34 unrelated patients from various ethnic origins. All patients showed an absence or drastic decrease of dysferlin expression in muscle. A primary screening of DYSF using SSCP or dHPLC of PCR products of each of 55 exons of the gene was followed by sequencing whenever a sequence variation was detected. All together, 54 sequence variations were identified in DYSF, 50 of which predicting either a truncated protein or one amino-acid substitution and most of them (34 out of 54) being novel. In 23 patients, we identified two pathogenic mutations, while only one was identified in 11 patients. These mutations were widely spread in the coding sequence of the gene without any mutational "hotspot."

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Psychiatric and Cognitive Difficulties as Indicators of Juvenile Huntington Disease Onset in 29 Patients

Ribaı̈¹,

Nguyen²,

Hahn-Barma³

et al. 2007

Arch Neurol

120

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Background: Juvenile Huntington disease (JHD) is a rare clinical entity characterized by an age at onset younger than 20 years. Patients usually have an expansion of more than 60 CAG repeats in the Huntington disease (HD) gene, and the disease is usually inherited from the father. In general, precise age at onset is difficult to assess in HD because of insidious onset and anosognosia. Onset of motor difficulty signs is usually used to define age at onset. Objectives: To evaluate diagnosis delay in patients with JHD and to analyze the clinical and genetic features of JHD.

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Exon deletions of SPG4 are a frequent cause of hereditary spastic paraplegia

Depienne

Fédirko

Forlani

et al. 2007

Journal of Medical Genetics

106

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Karine Nguyen

Phenotypic Study in 40 Patients With Dysferlin Gene Mutations

Widening the landscape of heritable pulmonary hypertension mutations in paediatric and adult cases

Dysferlin mutations in LGMD2B, Miyoshi myopathy, and atypical dysferlinopathies

Psychiatric and Cognitive Difficulties as Indicators of Juvenile Huntington Disease Onset in 29 Patients

Exon deletions of SPG4 are a frequent cause of hereditary spastic paraplegia

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