Data from: Multi-contrast submillimetric 3-Tesla hippocampal subfield segmentation protocol and dataset

  • Jessie Kulaga-Yoskovitz (Creator)
  • Boris C Bernhardt (Creator)
  • Seok-Jun Hong (Creator)
  • Tommaso Mansi (Creator)
  • Kevin E Liang (Creator)
  • Andre J W van der Kouwe (Creator)
  • Jonathan Smallwood (Creator)
  • Andrea Bernasconi (Creator)
  • Neda Bernasconi (Creator)

Dataset

Description

The hippocampus is composed of distinct anatomical subregions that participate in multiple cognitive processes and are differentially affected in prevalent neurological and psychiatric conditions. Advances in high-field MRI allow for the non-invasive identification of hippocampal substructure. These approaches, however, demand time-consuming manual segmentation that relies heavily on anatomical expertise. Here, we share manual labels and associated high-resolution MRI data (MNI-HISUB25; submillimetric T1- and T2-weighted images, detailed sequence information, and stereotaxic probabilistic anatomical maps) based on 25 healthy subjects. Data were acquired on a widely available 3 Tesla MRI system using a 32 phased-array head coil. The protocol divided the hippocampal formation into three subregions: subicular complex, merged Cornu Ammonis 1, 2 and 3 (CA1-3) subfields, and CA4-dentate gyrus (CA4-DG). Segmentation was guided by consistent intensity and morphology characteristics of the densely myelinated molecular layer together with few geometry-based boundaries flexible to overall mesiotemporal anatomy, and achieved excellent intra-/inter-rater reliability (Dice index ≥90/87%). The dataset can inform neuroimaging assessments of the mesiotemporal lobe and help to develop segmentation algorithms relevant for basic and clinical neurosciences.

External deposit with Dryad
Date made available22 Oct 2016
PublisherDryad

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