[article]
| Titre : |
White matter microstructure as a potential contributor to differences in resting state alpha activity between neurotypical and autistic children: a longitudinal multimodal imaging study |
| Type de document : |
Texte imprimé et/ou numérique |
| Auteurs : |
Heather L GREEN, Auteur ; Marybeth MCNAMEE, Auteur ; Rose E FRANZEN, Auteur ; Marissa DIPIERO, Auteur ; Jeffrey I BERMAN, Auteur ; Matthew KU, Auteur ; Luke BLOY, Auteur ; Song LIU, Auteur ; Megan AIREY, Auteur ; Sophia GOLDIN, Auteur ; Lisa BLASKEY, Auteur ; Emily S KUSCHNER, Auteur ; Mina KIM, Auteur ; Kimberly KONKA, Auteur ; Gregory A MILLER, Auteur ; J Christopher EDGAR, Auteur |
| Article en page(s) : |
19 |
| Langues : |
Anglais (eng) |
| Mots-clés : |
Humans White Matter/diagnostic imaging/pathology Child Male Female Longitudinal Studies Magnetoencephalography Diffusion Tensor Imaging Multimodal Imaging Autism Spectrum Disorder/diagnostic imaging/physiopathology Rest Alpha Rhythm Autistic Disorder/diagnostic imaging/physiopathology Brain/diagnostic imaging/physiopathology/pathology Autism spectrum disorder Dti Magnetoencephalography Maturation Peak alpha frequency Human ethics: This study was approved by the Institutional Review Board of Children?s Hospital of Philadelphia (IRB 15-012531) and performed in accordance with the Declaration of Helsinki. Parents gave written informed consent and the children gave verbal and written assent. |
| Index. décimale : |
PER Périodiques |
| Résumé : |
We and others have demonstrated the resting-state (RS) peak alpha frequency (PAF) as a potential clinical marker for young children with autism spectrum disorder (ASD), with previous studies observing a higher PAF in school-age children with ASD versus typically developing (TD) children, as well as an association between the RS PAF and measures of processing speed in TD but not ASD. The brain mechanisms associated with these findings are unknown. A few studies have found that in children more mature optic radiation white matter is associated with a higher PAF. Other studies have reported white matter and neural activity associations in TD but not ASD. The present study hypothesized that group differences in the RS PAF are due, in part, to group differences in optic radiation white matter and PAF associations. The maturation of the RS PAF (measured using magnetoencephalography(MEG)), optic radiation white matter (measured using diffusion tensor imaging(DTI)), and associations with processing speed were assessed in a longitudinal cohort of TD and ASD children. Time 1 MEG and DTI measures were obtained at 6-8 years old (59TD and 56ASD) with follow-up brain measures collected?~?1.5 and ~?3 years later. The parietal-occipital PAF increased with age in both groups by 0.13 Hz/year, with a main effect of group showing the expected higher PAF in ASD than TD (an average of 0.26 Hz across the 3 time points). Across age, the RS PAF predicted processing speed in TD but not ASD. Finally, more mature optic radiation white matter measures (FA, RD, MD, AD) were associated with a higher PAF in both groups. Present findings provide additional evidence supporting the use of the RS PAF as a brain marker in children with ASD 6-10 years old, and replicate findings of an association between the RS PAF and processing speed in TD but not ASD. The hypothesis that the RS PAF group differences (with ASD leading TD by about 2 years) would be explained by group differences in optic radiation white matter was not supported, with brain structure-function associations indicating that more mature optic radiation white matter is associated with a higher RS PAF in both groups. |
| En ligne : |
https://dx.doi.org/10.1186/s13229-025-00646-4 |
| Permalink : |
https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=555 |
in Molecular Autism > 16 (2025) . - 19
[article] White matter microstructure as a potential contributor to differences in resting state alpha activity between neurotypical and autistic children: a longitudinal multimodal imaging study [Texte imprimé et/ou numérique] / Heather L GREEN, Auteur ; Marybeth MCNAMEE, Auteur ; Rose E FRANZEN, Auteur ; Marissa DIPIERO, Auteur ; Jeffrey I BERMAN, Auteur ; Matthew KU, Auteur ; Luke BLOY, Auteur ; Song LIU, Auteur ; Megan AIREY, Auteur ; Sophia GOLDIN, Auteur ; Lisa BLASKEY, Auteur ; Emily S KUSCHNER, Auteur ; Mina KIM, Auteur ; Kimberly KONKA, Auteur ; Gregory A MILLER, Auteur ; J Christopher EDGAR, Auteur . - 19. Langues : Anglais ( eng) in Molecular Autism > 16 (2025) . - 19
| Mots-clés : |
Humans White Matter/diagnostic imaging/pathology Child Male Female Longitudinal Studies Magnetoencephalography Diffusion Tensor Imaging Multimodal Imaging Autism Spectrum Disorder/diagnostic imaging/physiopathology Rest Alpha Rhythm Autistic Disorder/diagnostic imaging/physiopathology Brain/diagnostic imaging/physiopathology/pathology Autism spectrum disorder Dti Magnetoencephalography Maturation Peak alpha frequency Human ethics: This study was approved by the Institutional Review Board of Children?s Hospital of Philadelphia (IRB 15-012531) and performed in accordance with the Declaration of Helsinki. Parents gave written informed consent and the children gave verbal and written assent. |
| Index. décimale : |
PER Périodiques |
| Résumé : |
We and others have demonstrated the resting-state (RS) peak alpha frequency (PAF) as a potential clinical marker for young children with autism spectrum disorder (ASD), with previous studies observing a higher PAF in school-age children with ASD versus typically developing (TD) children, as well as an association between the RS PAF and measures of processing speed in TD but not ASD. The brain mechanisms associated with these findings are unknown. A few studies have found that in children more mature optic radiation white matter is associated with a higher PAF. Other studies have reported white matter and neural activity associations in TD but not ASD. The present study hypothesized that group differences in the RS PAF are due, in part, to group differences in optic radiation white matter and PAF associations. The maturation of the RS PAF (measured using magnetoencephalography(MEG)), optic radiation white matter (measured using diffusion tensor imaging(DTI)), and associations with processing speed were assessed in a longitudinal cohort of TD and ASD children. Time 1 MEG and DTI measures were obtained at 6-8 years old (59TD and 56ASD) with follow-up brain measures collected?~?1.5 and ~?3 years later. The parietal-occipital PAF increased with age in both groups by 0.13 Hz/year, with a main effect of group showing the expected higher PAF in ASD than TD (an average of 0.26 Hz across the 3 time points). Across age, the RS PAF predicted processing speed in TD but not ASD. Finally, more mature optic radiation white matter measures (FA, RD, MD, AD) were associated with a higher PAF in both groups. Present findings provide additional evidence supporting the use of the RS PAF as a brain marker in children with ASD 6-10 years old, and replicate findings of an association between the RS PAF and processing speed in TD but not ASD. The hypothesis that the RS PAF group differences (with ASD leading TD by about 2 years) would be explained by group differences in optic radiation white matter was not supported, with brain structure-function associations indicating that more mature optic radiation white matter is associated with a higher RS PAF in both groups. |
| En ligne : |
https://dx.doi.org/10.1186/s13229-025-00646-4 |
| Permalink : |
https://www.cra-rhone-alpes.org/cid/opac_css/index.php?lvl=notice_display&id=555 |
|
Faire une suggestion Affiner la rechercheWhite matter microstructure as a potential contributor to differences in resting state alpha activity between neurotypical and autistic children: a longitudinal multimodal imaging study / Heather L GREEN ; Marybeth MCNAMEE ; Rose E FRANZEN ; Marissa DIPIERO ; Jeffrey I BERMAN ; Matthew KU ; Luke BLOY ; Song LIU ; Megan AIREY ; Sophia GOLDIN ; Lisa BLASKEY ; Emily S KUSCHNER ; Mina KIM ; Kimberly KONKA ; Gregory A MILLER ; J Christopher EDGAR in Molecular Autism, 16 (2025)
