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Literature DB >> 33901584

Automated, open-source segmentation of the Hippocampus and amygdala with the open Vanderbilt archive of the temporal lobe.

Andrew J Plassard¹, Shunxing Bao², Maureen McHugo³, Lori Beason-Held⁴, Jennifer U Blackford⁵, Stephan Heckers⁶, Bennett A Landman⁷.

Abstract

Examining volumetric differences of the amygdala and anterior-posterior regions of the hippocampus is important for understanding cognition and clinical disorders. However, the gold standard manual segmentation of these structures is time and labor-intensive. Automated, accurate, and reproducible techniques to segment the hippocampus and amygdala are desirable. Here, we present a hierarchical approach to multi-atlas segmentation of the hippocampus head, body and tail and the amygdala based on atlases from 195 individuals. The Open Vanderbilt Archive of the temporal Lobe (OVAL) segmentation technique outperforms the commonly used FreeSurfer, FSL FIRST, and whole-brain multi-atlas segmentation approaches for the full hippocampus and amygdala and nears or exceeds inter-rater reproducibility for segmentation of the hippocampus head, body and tail. OVAL has been released in open-source and is freely available.

Entities: Chemical

Keywords: Amygdala; Hippocampus; Multi-atlas segmentation; Temporal lobe

Mesh：

Year: 2021 PMID： 33901584 PMCID： PMC8715642 DOI： 10.1016/j.mri.2021.04.011

Source DB: PubMed Journal: Magn Reson Imaging ISSN： 0730-725X Impact factor: 3.130

47 in total

1. Robust optic nerve segmentation on clinically acquired computed tomography.

Authors: Robert L Harrigan; Swetasudha Panda; Andrew J Asman; Katrina M Nelson; Shikha Chaganti; Michael P DeLisi; Benjamin C W Yvernault; Seth A Smith; Robert L Galloway; Louise A Mawn; Bennett A Landman
Journal: J Med Imaging (Bellingham) Date: 2014-12-17

Automated, open-source segmentation of the Hippocampus and amygdala with the open Vanderbilt archive of the temporal lobe.

1. Robust optic nerve segmentation on clinically acquired computed tomography.

Review 2. From circuits to behaviour in the amygdala.

3. Hippocampal volume deficits and shape deformities in young biological relatives of schizophrenia probands.

4. Hierarchical performance estimation in the statistical label fusion framework.

5. Amygdala volume in major depressive disorder: a meta-analysis of magnetic resonance imaging studies.

6. Non-local statistical label fusion for multi-atlas segmentation.

7. Hippocampal and amygdalar local structural differences in elderly patients with schizophrenia.

8. Multi-Atlas Segmentation with Joint Label Fusion.

9. Incomplete hippocampal inversion in schizophrenia: prevalence, severity, and impact on hippocampal structure.

10. Hippocampal volume in early psychosis: a 2-year longitudinal study.

1. Increased amplitude of hippocampal low frequency fluctuations in early psychosis: A two-year follow-up study.