Mercuri Eugenio, Cicala Gianpaolo, Villa Marianna, Pera Maria Carmela
Department of Neuroscience, Catholic University of The Sacred Heart, Rome, Italy.
Child Neurology and Psychiatry Unit, Fondazione Policlinico Universitario Agostino Gemelli IRCCS, Rome, Italy.
Acta Myol. 2025 Mar;44(1):28-32. doi: 10.36185/2532-1900-1043.
Spinal Muscular Atrophy (SMA) is a progressive neuromuscular disorder caused by SMN1 gene mutations, leading to inevitable motoneuronal degeneration. The introduction of disease modifying therapies has dramatically altered its natural history, shifting management from palliative to proactive approach. The new phenotypes and differences in treatment response and efficacy, are all contributing to reshape our understanding of the disease itself. This paper aims to analyze the lessons derived from the recent therapeutic advances, focusing on key aspects such as therapeutic windows, impact of early treatment and both disease progression and treatment efficacy modifiers. Ultimately, we also aim to give insights on new models of data analysis being explored to optimize patient trajectories and individualize treatment strategies. Our experience and the overall review of clinical trials and real-world data confirm that early treatment maximizes motor outcomes, especially when started in the pre-clinical phase of the disease. The significant clinical improvements in symptomatic type I infants treated at different ages has provided evidence of an expanded 'therapeutic window', previously reported as limited to the first few months after birth on the basis of neurophysiological findings. The available data also provide evidence that function at baseline, SMN2 copy number, and age at treatment all appear to represent critical determinants of response. The availability of long-term data is increasingly used to pilot new predictive models to support clinical decision-making and to adapt therapeutic goals based on patient-specific variables.
脊髓性肌萎缩症(SMA)是一种由SMN1基因突变引起的进行性神经肌肉疾病,会导致运动神经元不可避免地退化。疾病修饰疗法的引入极大地改变了其自然病程,使管理方式从姑息治疗转向积极治疗。新的表型以及治疗反应和疗效的差异,都在重塑我们对该疾病本身的理解。本文旨在分析从近期治疗进展中吸取的经验教训,重点关注治疗窗、早期治疗的影响以及疾病进展和治疗疗效调节因素等关键方面。最终,我们还旨在深入探讨正在探索的新数据分析模型,以优化患者病程并个性化治疗策略。我们的经验以及对临床试验和真实世界数据的全面回顾证实,早期治疗能使运动结果最大化,尤其是在疾病的临床前期开始治疗时。不同年龄接受治疗的有症状I型婴儿取得的显著临床改善,为扩大的“治疗窗”提供了证据,此前基于神经生理学研究结果报告该治疗窗仅限于出生后的头几个月。现有数据还表明,基线功能、SMN2拷贝数和治疗时的年龄似乎都是反应的关键决定因素。长期数据越来越多地用于试验新的预测模型,以支持临床决策并根据患者特定变量调整治疗目标。