Juan Jesus Vilchez Padilla scite author profile

Juan Jesus Vilchez Padilla

4Publications

41Citation Statements Received

57Citation Statements Given

How they've been cited

How they cite others

Affiliations

Centre for Biomedical Network Research on Rare Diseases, Hospital Universitari i Politècnic La Fe, Hospital San Borja Arriarán

Publications

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Clinical phenotype, muscle MRI and muscle pathology of LGMD1F

et al. 2013

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Of the seven autosomal dominant genetically distinct forms of LGMD so far described, in only four the causative gene has been identified (LGMD1A-1D). We describe clinical, histopathological and muscle MRI features of a large Italo-Spanish kindred with LGMD1F presenting proximal-limb and axial muscle weakness. We obtained complete clinical data and graded the progression of the disease in 29 patients. Muscle MRI was performed in seven patients. Three muscle biopsies from two patients were investigated. Patients with age at onset in the early teens, had a more severe phenotype with a rapid disease course; adult onset patients presented a slow course. Muscle MRI showed prominent atrophy of lower limb muscles, involving especially the vastus lateralis. Widening the patients population resulted in the identification of previously unreported features, including dysphagia, arachnodactyly and respiratory insufficiency. Muscle biopsies showed diffuse fibre atrophy, which evolved with time, chronic myopathic changes, basophilic cytoplasmic areas, autophagosomes and accumulation of myofibrillar and cytoskeletal proteins. The LGMD1F is characterized by a selective involvement of limb muscles with respiratory impairment in advanced stages, and by different degrees of clinical progression. Novel clinical features emerged from the investigation of additional patients.

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Mitochondrial developmental encephalopathy with bilateral optic neuropathy related to homozygous variants inIMMTgene

et al. 2021

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IMMT gene codes for mitofilin, a mitochondrial inner membrane protein that regulates the morphology of mitochondrial cristae. The phenotype associated with mutations in this gene has not been yet established, but functional studies carried out show that its loss causes a mitochondrial alteration, both in the morphology of the mitochondrial crests and in their function. We present two cousins from an extended highly consanguineous family with developmental encephalopathy, hypotonia, nystagmus due to optic neuropathy. The likely pathogenic homozygous c.895A>G (p. Lys299Glu) variant in the IMMT gene co-segregates with the disease and associates altered mitochondrial cristae observed by electron microscopy.

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Streptococcus bovis Meningitis: No Association with Colonic Malignancy

Ferrer

Padilla

Adell

et al. 1993

Clinical Infectious Diseases

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Author response for "Mitochondrial Developmental encephalopathy with bilateral optic neuropathy related to homozygous variants in IMMT gene"

Marco‐Hernández¹,

Tomás‐Vila²,

Montoya-Filardi³

et al. 2021

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