RESUMEN
Spinal Muscular Atrophy (SMA) emerges as a prominent genetic neuromuscular disorder primarily caused by variants in the survival motor neuron (SMN) gene. However, it is noteworthy that alternative variants impacting DYNC1H1 have also been linked to a subtype known as spinal muscular atrophy lower extremity predominant (SMA-LED). This observation underscores the complexity of SMA and highlights the necessity for tailored, gene-specific management strategies. Our study elucidates how similar approaches to managing SMA can yield distinct outcomes, emphasizing the imperative for personalized gene-based interventions in effectively addressing these conditions. Two patients were referred for further management due to clinical suspicion of type-3 SMA. The definitive diagnosis was confirmed through the polymerase chain reaction and restriction fragment length polymorphism (PCR-RFLP) technique, as well as whole-exome sequencing (WES). The analysis revealed deletions in exon-7 and 8 of SMN1 in the first patient and a likely pathogenic mutation (NM_001376.5(DYNC1H1):c.1867 T > C (NP_001367.2: p.Phe623Leu)) in DYNC1H1 in the second patient. Both patients presented with lower limb muscle weakness. However, while the first patient exhibited a gradual increase in severity over the years, the second patient displayed no progressive symptoms. The management was adjusted accordingly based on the genetic findings. Our observation underscores the complexity of SMA and highlights the necessity for tailored, gene-specific management strategies. Our study elucidates how similar approaches to managing SMA can yield distinct outcomes, emphasizing the imperative for personalized gene-based interventions in effectively addressing these conditions.