Newborn Screening for Metachromatic Leukodystrophy in Tuscany: The Paradigm of a Successful Preventive Medicine Program.

IF 4 Q1 GENETICS & HEREDITY

International Journal of Neonatal Screening Pub Date : 2025-04-24 DOI:10.3390/ijns11020030

Sabrina Malvagia, Alessandra Bettiol, Margherita Porcaro, Massimo Mura, Silvia Funghini, Daniela Ombrone, Giulia Forni, Emanuela Scolamiero, Filippo Coppi, Roberta Damiano, Cristina Cereda, Simonetta Simonetti, Annalisa Lonetti, Marta Daniotti, Anna Caciotti, Amelia Morrone, Valeria Calbi, Francesca Fumagalli, Alessandro Aiuti, Elena Procopio, Renzo Guerrini, Giancarlo la Marca

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引用次数: 0

Abstract

Metachromatic leukodystrophy (MLD) is a rare inherited disorder of lysosomal storage, caused by a deficiency in the arylsulfatase A (ARSA) enzyme, leading to toxic accumulation of sulfatides, which progressively impair motor and cognitive function. MLD is a candidate for inclusion in newborn screening (NBS) programs, due to the narrow pre-symptomatic window for effective therapeutic intervention. We set up a prospective pilot NBS program for MLD in Tuscany, based on a two-step approach. The first-tier test quantified four sulfatides; if levels exceeded the cut-off, we performed the second-tier test by measuring ARSA activity on the same neonatal dried blood spot (DBS). We performed the first-tier test on 42,262 newborns over two years and the second-tier test on residual neonatal DBS from 90 of them (0.21%). We recalled 10 newborns (0.02%) for an additional DBS, due to insufficient residual material for a second-tier test (n = 4) or to low ARSA activity (n = 6). We found normal ARSA activity in all new DBS and identified no new cases of MLD. Retrospective analysis of eight neonatal and fifteen non-neonatal DBS from patients with genetically confirmed MLD showed that the algorithm accurately identified MLD patients. This diagnostic algorithm proved feasible and accurate for early detection of MLD in prospective NBS.

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托斯卡纳新生儿色差性脑白质营养不良筛查：成功预防医学项目的范例。

异色性脑白质营养不良（MLD）是一种罕见的遗传性溶酶体储存疾病，由芳基硫酸酯酶a （ARSA）酶缺乏引起，导致硫脂质的毒性积累，逐渐损害运动和认知功能。由于有效治疗干预的症状前窗口狭窄，MLD是新生儿筛查（NBS）计划的候选者。我们在托斯卡纳为MLD建立了一个前瞻性的NBS试点项目，基于两步法。第一级试验定量了四种硫脂；如果水平超过临界值，我们通过测量同一新生儿干血点（DBS）上的ARSA活性进行第二级测试。我们在两年内对42,262名新生儿进行了一级测试，并对其中90名（0.21%）的新生儿DBS残留进行了二级测试。我们召回了10名新生儿（0.02%）进行额外的DBS，原因是二级测试的剩余材料不足（n = 4）或ARSA活性低（n = 6）。我们发现所有新发DBS患者的ARSA活性正常，未发现新的MLD病例。回顾性分析8例新生儿和15例遗传确诊MLD患者的非新生儿DBS，结果表明该算法能准确识别MLD患者。事实证明，该诊断算法对于潜在NBS的MLD的早期检测是可行和准确的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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