Atrofia muscular espinhal: diagnóstico, tratamento e perspectivas futuras / Spinal muscular atrophy: diagnosis, treatment and future prospects

OBJETIVO: Relatar as recentes descobertas genéticas e moleculares, juntamente com as perspectivas futuras, para o tratamento da atrofia muscular espinhal, auxiliando, dessa forma, os profissionais da área da saúde a fazerem um rápido diagnóstico e proporcionarem um suporte terapêutico correto e precoce. FONTES DOS DADOS: As informações foram coletadas a partir de artigos científicos publicados nas duas últimas décadas, pesquisados nas bases de dados SciELO, PubMed e MEDLINE. SÍNTESE DOS DADOS: A atrofia muscular espinhal é uma doença neurodegenerativa com herança genética autossômica recessiva. É causada por uma deleção homozigótica do gene de sobrevivência do motoneurônio. Essa alteração genética resulta na redução dos níveis da proteína de sobrevivência do motoneurônio, levando à degeneração de motoneurônios alfa da medula espinhal, o que resulta em fraqueza e paralisia muscular proximal progressiva simétrica. Sabe-se que alguns cuidados básicos referentes à nutrição, respiração e fisioterapia podem ser importantes para retardar o progresso da doença e prolongar a vida dos pacientes. Vários medicamentos estão sendo testados, alguns novos, outros já conhecidos, como o ácido valproico, sendo que a paralisia pode ser estacionada, mas não revertida. CONCLUSÕES: A atrofia muscular espinhal é uma desordem de difícil diagnóstico, por ser pouco conhecida, e de tratamento ainda incerto. Os tratamentos farmacológicos e as terapias de suporte existentes ainda não são capazes de recuperar os motoneurônios ou as células musculares que já foram perdidos, mas têm o objetivo de retardar o progresso da doença e melhorar a função muscular residual dos pacientes, bem como oferecer uma melhor qualidade e expectativa de vida.

OBJECTIVE: To report on recent genetic and molecular discoveries and on future prospects for the treatment of spinal muscular atrophy (SMA), thereby helping healthcare professionals to make a quick diagnosis and provide appropriate and timely therapeutic support. SOURCES: Information was collected from scientific articles published in the last 2 decades, retrieved from the databases SciELO, PubMed, and MEDLINE. SUMMARY OF THE FINDINGS: SMA is a neurodegenerative disorder with autosomal recessive genetic heredity. It is caused by a homozygous deletion of the survival motor neuron (SMN1) gene. This genetic alteration results in reduced levels of the SMN protein, leading to degeneration of alpha motor neurons of the spinal cord and resulting in muscle weakness and progressive symmetrical proximal paralysis. It is known that basic nutritional and respiratory care and physiotherapy can be important to delaying disease progression and prolonging patients' lives. Several drugs are being tested, some new, others, such as valproic acid, already known; paralysis can be halted, but not reversed. CONCLUSIONS: SMA is a difficult to diagnose disorder, because it is little known, and treatment is uncertain. Pharmacological treatments and supportive therapies are not yet able to recover motor neurons or muscle cells that have already been lost, but are aimed at delaying disease progression and improving patients' residual muscle function, as well as offering better quality of life and life expectancy.

Quantitative Analysis of SMN1 Gene and Estimation of SMN1 Deletion Carrier Frequency in Korean Population based on Real-Time PCR

Spinal muscular atrophy (SMA) is an autosomal recessive disorder, caused by homozygous absence of the survival motor neuron gene (SMN1) in approximately 94% of patients. Since most carriers have only one SMN1 gene copy, several SMN1 quantitative analyses have been used for the SMA carrier detection. We developed a reliable quantitative real-time PCR with SYBR Green I dye and studied 13 patients with SMA and their 24 parents, as well as 326 healthy normal individuals. The copy number of the SMN1 gene was determined by the comparative threshold cycle (Ct) method and albumin was used as a reference gene. The homozygous SMN1 deletion ratio of patients was 0.00 and the hemizygous SMN1 deletion ratio of parents ranged from 0.39 to 0.59. The delta delta Ct ratios of 7 persons among 326 normal individuals were within the carrier range, 0.41-0.57. According to these data, we estimated the carrier and disease prevalence of SMA at 1/47 and 1/8,496 in Korean population, respectively. These data indicated that there would be no much difference in disease prevalence of SMA compared with western countries. Since the prevalence of SMA is higher than other autosomal recessive disorders, the carrier detection method using real-time PCR could be a useful tool for genetic counseling.