<i>ALDH18A1</i>‐related hereditary spastic paraplegia and developmental and epileptic encephalopathy with spike‐wave activation in sleep: Expanding the clinical phenotype

Ferrara, Giusi; Cutillo, Gianni; Peterlongo, Irene; Minacapilli, Eleonora; Iascone, Maria; Veggiotti, Pierangelo; Fiocchi, Isabella

doi:10.1002/cns3.20056

Annals of the Child Neurology Society

2024

DOI: 10.1002/cns3.20056

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ALDH18A1‐related hereditary spastic paraplegia and developmental and epileptic encephalopathy with spike‐wave activation in sleep: Expanding the clinical phenotype

Giusi Ferrara,

Gianni Cutillo,

Irene Peterlongo

et al.

Abstract: ObjectiveWe present the cases of two sisters, both harboring the same ALDH18A1 gene mutations, who presented with a complex clinical phenotype characterized by spastic paraparesis with ataxia, epileptic encephalopathy, severe psychomotor deficits, and behavioral abnormalities.MethodsCase description of two sisters with ALDH18A1 gene mutations.ResultsThe older patient, a 12‐year‐old girl, exhibited spastic paraparesis with ataxia, microcephaly, facial dysmorphisms, and severe intellectual disability, with an ab… Show more

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Metabolite profile in hereditary spastic paraplegia analyzed using magnetic resonance spectroscopy: a cross-sectional analysis in a longitudinal study

Montanaro,

Vavla,

Frijia

et al. 2024

Front. Neurosci.

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BackgroundHereditary Spastic Paraplegias (HSP) are genetic neurodegenerative disorders affecting the corticospinal tract. No established neuroimaging biomarker is associated with this condition.MethodsA total of 46 patients affected by HSP, genetically and clinically evaluated and tested with SPRS scores, and 46 healthy controls (HC) matched by age and gender underwent a single-voxel Magnetic Resonance Spectroscopy sampling (MRS) of bilateral pre-central and pre-frontal regions. MRS data were analyzed cross-sectionally (at T0 and T1) and longitudinally (T0 vs. T1).ResultsStatistically significant data showed that T0 mI/Cr in the pre-central areas of HSP patients was higher than in HC. In the left (L) pre-central area, NAA/Cr was significantly lower in HSP than in HC. In the right (R) pre-frontal area, NAA/Cr was significantly lower in HSP patients than in HC. HSP SPG4 subjects had significantly lower Cho/Cr concentrations in the L pre-central area compared to HC. Among the HSP subjects, non-SPG4 patients had significantly higher mI/Cr in the L pre-central area compared to SPG4 patients. In the R pre-frontal area, NAA/Cr was reduced, and ml/Cr was higher in non-SPG4 patients compared to SPG4 patients. Comparing “pure” and “complex” forms, NAA/Cr was higher in pHSP than in cHSP in the R pre-central and R pre-frontal areas. The longitudinal analysis, which involved fewer patients (n = 30), showed an increase in mI/Cr concentration in the L pre-frontal area among HSP subjects with respect to baseline. The patients had significantly higher SPRS scores at follow-up, with a significant positive correlation between SPRS scores and mI/Cr in the L pre-central area, while in bilateral pre-frontal areas, lower SPRS scores corresponded to higher NAA/Cr concentrations. To explore the discriminating power of MRS in correctly identifying HSP and controls, an inference tree methodology classified HSP subjects and controls with an overall accuracy of 73.9%, a sensitivity of 87.0%, and a specificity of 60.9%.ConclusionThis pilot study indicates that brain MRS is a valuable approach that could potentially serve as an objective biomarker in HSP.

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Metabolite profile in hereditary spastic paraplegia analyzed using magnetic resonance spectroscopy: a cross-sectional analysis in a longitudinal study

Montanaro,

Vavla,

Frijia

et al. 2024

Front. Neurosci.

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show abstract

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ALDH18A1‐related hereditary spastic paraplegia and developmental and epileptic encephalopathy with spike‐wave activation in sleep: Expanding the clinical phenotype

Cited by 1 publication

References 14 publications

Metabolite profile in hereditary spastic paraplegia analyzed using magnetic resonance spectroscopy: a cross-sectional analysis in a longitudinal study

Metabolite profile in hereditary spastic paraplegia analyzed using magnetic resonance spectroscopy: a cross-sectional analysis in a longitudinal study

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