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Title:

Efficient Claustrum Segmentation in T2-weighted Neonatal Brain MRI Using Transfer Learning from Adult Scans.

Document type:
Journal Article
Author(s):
Neubauer, Antonia; Li, Hongwei Bran; Wendt, Jil; Schmitz-Koep, Benita; Menegaux, Aurore; Schinz, David; Menze, Bjoern; Zimmer, Claus; Sorg, Christian; Hedderich, Dennis M
Abstract:
PURPOSE: Intrauterine claustrum and subplate neuron development have been suggested to overlap. As premature birth typically impairs subplate neuron development, neonatal claustrum might indicate a specific prematurity impact; however, claustrum identification usually relies on expert knowledge due to its intricate structure. We established automated claustrum segmentation in newborns. METHODS: We applied a deep learning-based algorithm for segmenting the claustrum in 558 T2-weighted neonatal brain MRI of the developing Human Connectome Project (dHCP) with transfer learning from claustrum segmentation in T1-weighted scans of adults. The model was trained and evaluated on 30 manual bilateral claustrum annotations in neonates. RESULTS: With only 20 annotated scans, the model yielded median volumetric similarity, robust Hausdorff distance and Dice score of 95.9%, 1.12 mm and 80.0%, respectively, representing an excellent agreement between the automatic and manual segmentations. In comparison with interrater reliability, the model achieved significantly superior volumetric similarity (p = 0.047) and Dice score (p < 0.005) indicating stable high-quality performance. Furthermore, the effectiveness of the transfer learning technique was demonstrated in comparison with nontransfer learning. The model can achieve satisfactory segmentation with only 12 annotated scans. Finally, the model's applicability was verified on 528 scans and revealed reliable segmentations in 97.4%. CONCLUSION: The developed fast and accurate automated segmentation has great potential in large-scale study cohorts and to facilitate MRI-based connectome research of the neonatal claustrum. The easy to use models and codes are made publicly available.
Journal title abbreviation:
Clin Neuroradiol
Year:
2022
Journal volume:
32
Journal issue:
3
Pages contribution:
665-676
Fulltext / DOI:
doi:10.1007/s00062-021-01137-8
Pubmed ID:
http://view.ncbi.nlm.nih.gov/pubmed/35072752
Print-ISSN:
1869-1439
TUM Institution:
Professur für Neuroradiologie (Prof. Zimmer)
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