TY - JOUR
T1 - Application of a Clinical Workflow May Lead to Increased Diagnostic Precision in Hereditary Spastic Paraplegias and Cerebellar Ataxias: A Single Center Experience
AU - Riso, Vittorio
AU - Rossi, Salvatore
AU - Nicoletti, Tommaso Filippo
AU - Tessa, Alessandra
AU - Travaglini, Lorena
AU - Zanni, Ginevra
AU - Aiello, Chiara
AU - Perna, Alessia
AU - Barghigiani, Melissa
AU - Pomponi, Maria Grazia
AU - Santorelli, Filippo M.
AU - Silvestri, Gabriella
PY - 2021
Y1 - 2021
N2 - The molecular characterization of Hereditary Spastic Paraplegias (HSP) and inherited
cerebellar ataxias (CA) is challenged by their clinical and molecular heterogeneity. The recent
application of Next Generation Sequencing (NGS) technologies is increasing the diagnostic rate,
which can be influenced by patients’ selection. To assess if a clinical diagnosis of CA/HSP received
in a third-level reference center might impact the molecular diagnostic yield, we retrospectively
evaluated the molecular diagnostic rate reached in our center on 192 unrelated families (90 HSP and
102 CA) (i) before NGS and (ii) with the use of NGS gene panels. Overall, 46.3% of families received a
genetic diagnosis by first-tier individual gene screening: 43.3% HSP and 50% spinocerebellar ataxias
(SCA). The diagnostic rate was 56.7% in AD-HSP, 55.5% in AR-HSP, and 21.2% in sporadic HSP. On
the other hand, 75% AD-, 52% AR- and 33% sporadic CA were diagnosed. So far, 32 patients (24
CA and 8 HSP) were further assessed by NGS gene panels, and 34.4% were diagnosed, including
29.2% CA and 50% HSP patients. Eleven novel gene variants classified as (likely) pathogenic were
identified. Our results support the role of experienced clinicians in the diagnostic assessment and the
clinical research of CA and HSP even in the next generation era.
AB - The molecular characterization of Hereditary Spastic Paraplegias (HSP) and inherited
cerebellar ataxias (CA) is challenged by their clinical and molecular heterogeneity. The recent
application of Next Generation Sequencing (NGS) technologies is increasing the diagnostic rate,
which can be influenced by patients’ selection. To assess if a clinical diagnosis of CA/HSP received
in a third-level reference center might impact the molecular diagnostic yield, we retrospectively
evaluated the molecular diagnostic rate reached in our center on 192 unrelated families (90 HSP and
102 CA) (i) before NGS and (ii) with the use of NGS gene panels. Overall, 46.3% of families received a
genetic diagnosis by first-tier individual gene screening: 43.3% HSP and 50% spinocerebellar ataxias
(SCA). The diagnostic rate was 56.7% in AD-HSP, 55.5% in AR-HSP, and 21.2% in sporadic HSP. On
the other hand, 75% AD-, 52% AR- and 33% sporadic CA were diagnosed. So far, 32 patients (24
CA and 8 HSP) were further assessed by NGS gene panels, and 34.4% were diagnosed, including
29.2% CA and 50% HSP patients. Eleven novel gene variants classified as (likely) pathogenic were
identified. Our results support the role of experienced clinicians in the diagnostic assessment and the
clinical research of CA and HSP even in the next generation era.
KW - HSP
KW - NGS
KW - SCA
KW - ataxia
KW - hereditary spastic paraplegia
KW - HSP
KW - NGS
KW - SCA
KW - ataxia
KW - hereditary spastic paraplegia
UR - http://hdl.handle.net/10807/169699
U2 - 10.3390/brainsci11020246
DO - 10.3390/brainsci11020246
M3 - Article
SN - 2076-3425
VL - 11
SP - 246-N/A
JO - Brain Sciences
JF - Brain Sciences
ER -