Spatial distribution and longitudinal development of deep cortical sulcal landmarks in infants

Yu Meng, Gang Li, Weili Lin, John H. Gilmore, Dinggang Shen

Research output: Contribution to journalArticlepeer-review

96 Citations (Scopus)

Abstract

Sulcal pits, the locally deepest points in sulci of the highly convoluted and variable cerebral cortex, are found to be spatially consistent across human adult individuals. It is suggested that sulcal pits are genetically controlled and have close relationships with functional areas. To date, the existing imaging studies of sulcal pits are mainly focused on adult brains, yet little is known about the spatial distribution and temporal development of sulcal pits in the first 2. years of life, which is the most dynamic and critical period of postnatal brain development. Studying sulcal pits during this period would greatly enrich our limited understandings of the origins and developmental trajectories of sulcal pits, and would also provide important insights into many neurodevelopmental disorders associated with abnormal cortical foldings. In this paper, by using surface-based morphometry, for the first time, we systemically investigated the spatial distribution and temporal development of sulcal pits in major cortical sulci from 73 healthy infants, each with three longitudinal 3. T MR scans at term birth, 1. year, and 2. years of age. Our results suggest that the spatially consistent distributions of sulcal pits in major sulci across individuals have already existed at term birth and this spatial distribution pattern keeps relatively stable in the first 2. years of life, despite that the cerebral cortex expands dramatically and the sulcal depth increases considerably during this period. Specially, the depth of sulcal pits increases regionally heterogeneously, with more rapid growth in the high-order association cortex, including the prefrontal and temporal cortices, than the sensorimotor cortex in the first 2. years of life. Meanwhile, our results also suggest that there exist hemispheric asymmetries of the spatial distributions of sulcal pits in several cortical regions, such as the central, superior temporal and postcentral sulci, consistently from birth to 2. years of age, which likely has close relationships with the lateralization of brain functions of these regions. This study provides detailed insights into the spatial distribution and temporal development of deep sulcal landmarks in infants.

Original languageEnglish
Pages (from-to)206-218
Number of pages13
JournalNeuroImage
Volume100
DOIs
Publication statusPublished - 2014 Oct 15

Keywords

  • Cortical folding
  • Cortical surface
  • Deep sulcal landmarks
  • Early brain development
  • Longitudinal development
  • Sulcal pits

ASJC Scopus subject areas

  • Neurology
  • Cognitive Neuroscience

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