Dados do Trabalho
Título
EXCELLENT EVOLUTION IN CASE OF SEVERE CONGENITAL MYOPATHY
Apresentação do caso único
This case involves an infant, 1 year and 4 months old, the sixth child of a healthy, non-consanguineous couple, admitted to the service at 3 months of life due to acute respiratory failure. He exhibited developmental motor delays, with severe global hypotonia more pronounced at 20 days of life, hypoactive deep tendon reflexes, dysmorphisms, and dysphagia. He underwent prolonged invasive mechanical ventilation, progressing to non-invasive ventilation only during sleep. He receives a diet via gastrostomy and accepts pureed foods orally. With intense early stimulation, he achieved neurodevelopmental milestones by 1 year of age: sitting without support, moving in bed, babbling, and partial improvement of dysphagia. In the initial investigation, spinal muscular atrophy was ruled out, and creatine phosphokinase levels and neuroimaging were normal. Exome sequencing revealed a pathogenic alteration in heterozygous form in the ACTA1 gene (c.557A>G p.(Asp186Gly)), consistent with congenital myopathy type 2C (OMIM* 102610).
Discussão
Pathogenic alterations in the skeletal muscle alpha-actin gene (ACTA1) have been identified in heterogeneous phenotypes of congenital myopathies, most of which follow an autosomal dominant inheritance pattern and occur without a prior family history. Most are de novo mutation, in heterozygous form (90%), and present with the typical form of the disease, which is a milder phenotype with greater survival. The infant in question has a genotype consistent with congenital myopathy 2C, the severe infantile form of the skeletal muscle disorder characterized by severe congenital weakness, usually leading to death from respiratory failure within the first year of life. Clinically, neonates with this condition exhibit global hypotonia, lack of antigravity movements, and difficulties with feeding and/or breathing, often requiring enteral feeding and mechanical ventilation. This patient’s form, which is rare, results in severe motor delays, with reports of survival up to age 10. With recent advances in genetics, diagnostic practice and classification have increasingly relied on molecular results, reducing the need for invasive molecular biopsy procedures.
Comentários finais
Knowledge about the genomic alteration in individuals affected by neuromuscular disorders, now classified according to specific genetic mutations, allows for individualized prognosis, genetic counseling, and programming for potential therapies that are already established and future ones under study.
Referências
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ONLINE MENDELIAN INHERITANCE IN MAN. Actin, ALPHA-1, Skeletal Muscle; ACTA1. OMIM, [s.d.]. Disponível em: https://www.omim.org/entry/102610. Acesso em: 14 ago. 2024.
Palavras Chave
Hypotonia; congenital myopathy; ACTA1
Área
Doenças neuromusculares
Autores
CAROLINE RAZERA, JÚLIA AGUIAR DE VASCONCELOS, LAURA REIS VILELA, ANGÉLICA MARIA ASSUNÇÃO DA PONTE LOPES, JÉSSICA CAETANO BARBOSA, JANAÍNA MONTEIRO CHAVES, JULIA LOPES VIEIRA