TY - JOUR
T1 - Experience of a 2-year spinal muscular atrophy NBS pilot study in Italy: towards specific guidelines and standard operating procedures for the molecular diagnosis
AU - Abiusi, Emanuela
AU - Vaisfeld, Alessandro
AU - Fiori, Simona
AU - Novelli, Agnese
AU - Spartano, Serena
AU - Faggiano, Maria Vittoria
AU - Giovanniello, Teresa
AU - Angeloni, Antonio
AU - Vento, Giovanni
AU - Santoloci, Roberta
AU - Gigli, Francesca
AU - D'Amico, Adele
AU - Costa, Simonetta
AU - Porzi, Alessia
AU - Panella, Mara
AU - Ticci, Chiara
AU - Daniotti, Marta
AU - Sacchini, Michele
AU - Boschi, Ilaria
AU - Bertini, Enrico
AU - Bertini, Enrico Silvio
AU - Lanzone, Antonio
AU - Lamarca, Giancarlo
AU - Genuardi, Maurizio
AU - Pane, Marika
AU - Pane, Marika
AU - Donati, Maria Alice
AU - Mercuri, Eugenio Maria
AU - Tiziano, Francesco Danilo
PY - 2022
Y1 - 2022
N2 - Background: Spinal muscular atrophy (SMA) is due to the homozygous absence of SMN1 in around 97% of patients, independent of the severity (classically ranked into types I-III). The high genetic homogeneity, coupled with the excellent results of presymptomatic treatments of patients with each of the three disease-modifying therapies available, makes SMA one of the golden candidates to genetic newborn screening (NBS) (SMA-NBS). The implementation of SMA in NBS national programmes occurring in some countries is an arising new issue that the scientific community has to address. We report here the results of the first Italian SMA-NBS project and provide some proposals for updating the current molecular diagnostic scenario.
Methods: The screening test was performed by an in-house-developed qPCR assay, amplifying SMN1 and SMN2. Molecular prognosis was assessed on fresh blood samples.
Results: We found 15 patients/90885 newborns (incidence 1:6059) having the following SMN2 genotypes: 1 (one patient), 2 (eight patients), 2+c.859G>C variant (one patient), 3 (three patients), 4 (one patient) or 6 copies (one patient). Six patients (40%) showed signs suggestive of SMA at birth. We also discuss some unusual cases we found.
Conclusion: The molecular diagnosis of SMA needs to adapt to the new era of the disease with specific guidelines and standard operating procedures. In detail, SMA diagnosis should be felt as a true medical urgency due to therapeutic implications; SMN2 copy assessment needs to be standardised; commercially available tests need to be improved for higher SMN2 copies determination; and the SMN2 splicing-modifier variants should be routinely tested in SMA-NBS.
Keywords: Genetic Testing; Genetics, Population; Neonatal Screening; Neuromuscular Diseases.
AB - Background: Spinal muscular atrophy (SMA) is due to the homozygous absence of SMN1 in around 97% of patients, independent of the severity (classically ranked into types I-III). The high genetic homogeneity, coupled with the excellent results of presymptomatic treatments of patients with each of the three disease-modifying therapies available, makes SMA one of the golden candidates to genetic newborn screening (NBS) (SMA-NBS). The implementation of SMA in NBS national programmes occurring in some countries is an arising new issue that the scientific community has to address. We report here the results of the first Italian SMA-NBS project and provide some proposals for updating the current molecular diagnostic scenario.
Methods: The screening test was performed by an in-house-developed qPCR assay, amplifying SMN1 and SMN2. Molecular prognosis was assessed on fresh blood samples.
Results: We found 15 patients/90885 newborns (incidence 1:6059) having the following SMN2 genotypes: 1 (one patient), 2 (eight patients), 2+c.859G>C variant (one patient), 3 (three patients), 4 (one patient) or 6 copies (one patient). Six patients (40%) showed signs suggestive of SMA at birth. We also discuss some unusual cases we found.
Conclusion: The molecular diagnosis of SMA needs to adapt to the new era of the disease with specific guidelines and standard operating procedures. In detail, SMA diagnosis should be felt as a true medical urgency due to therapeutic implications; SMN2 copy assessment needs to be standardised; commercially available tests need to be improved for higher SMN2 copies determination; and the SMN2 splicing-modifier variants should be routinely tested in SMA-NBS.
Keywords: Genetic Testing; Genetics, Population; Neonatal Screening; Neuromuscular Diseases.
KW - spinal muscular
KW - spinal muscular
UR - http://hdl.handle.net/10807/219734
U2 - 10.1136/jmg-2022-108873
DO - 10.1136/jmg-2022-108873
M3 - Article
SN - 0022-2593
VL - 2022
SP - 1
EP - 9
JO - Journal of Medical Genetics
JF - Journal of Medical Genetics
ER -