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Fetal temporal sulcus depth asymmetry has prognostic value for language development.

Lisa Bartha-DoeringKathrin KollndorferErnst SchwartzFlorian Ph S FischmeisterGeorg LangsMichael WeberSonja Lackner-SchmelzPatric KienastMarlene StümpflenAthena TaymourtashSophie MandlJohanna AlexopoulosDaniela PrayerRainer SeidlGregor Kasprian
Published in: Communications biology (2023)
In most humans, the superior temporal sulcus (STS) shows a rightward depth asymmetry. This asymmetry can not only be observed in adults, but is already recognizable in the fetal brain. As the STS lies adjacent to brain areas important for language, STS depth asymmetry may represent an anatomical marker for language abilities. This study investigated the prognostic value of STS depth asymmetry in healthy fetuses for later language abilities, language localization, and language-related white matter tracts. Less right lateralization of the fetal STS depth was significantly associated with better verbal abilities, with fetal STS depth asymmetry explaining more than 40% of variance in verbal skills 6-13 years later. Furthermore, less right fetal STS depth asymmetry correlated with increased left language localization during childhood. We hypothesize that earlier and/or more localized fetal development of the left temporal cortex is accompanied by an earlier development of the left STS and is favorable for early language learning. If the findings of this pilot study hold true in larger samples of healthy children and in different clinical populations, fetal STS asymmetry has the potential to become a diagnostic biomarker of the maturity and integrity of neural correlates of language.
Keyphrases
  • autism spectrum disorder
  • optical coherence tomography
  • white matter
  • multiple sclerosis
  • resting state
  • functional connectivity
  • risk assessment
  • high resolution
  • gestational age
  • human health