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Title:

Machine learning analysis of whole mouse brain vasculature.

Document type:
Zeitschriftenaufsatz
Author(s):
M.I.Todorov; Paetzold, J.; Schoppe, O.; Tetteh, G.; Shit, S.; piraud; Menze, B.; Ertuerk, A.
Abstract:
Tissue clearing methods enable the imaging of biological specimens without sectioning. However, reliable and scalable analysis of large imaging datasets in three dimensions remains a challenge. Here we developed a deep learning-based framework to quantify and analyze brain vasculature, named Vessel Segmentation & Analysis Pipeline (VesSAP). Our pipeline uses a convolutional neural network (CNN) with a transfer learning approach for segmentation and achieves human-level accuracy. By using VesSAP, we analyzed the vascular features of whole C57BL/6J, CD1 and BALB/c mouse brains at the micrometer scale after registering them to the Allen mouse brain atlas. We report evidence of secondary intracranial collateral vascularization in CD1 mice and find reduced vascularization of the brainstem in comparison to the cerebrum. Thus, VesSAP enables unbiased and scalable quantifications of the angioarchitecture of cleared mouse brains and yields biological insights into the vascular function of the brain.
Keywords:
Neuroscience,Vessels,Nature,CNN
Journal title:
Nature Methods
Year:
2020
Journal volume:
17
Journal issue:
4
Pages contribution:
442--449
Publisher:
Nature Publishing Group
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