bioRxiv
Automated 3D Segmentation of Human Vagus Nerve Fascicles and Epineurium from Micro-Computed Tomography Images Using Anatomy-Aware Neural Networks
Publication
, Preprint
Zhang, J; Lapierre-Landry, M; Kalpatthi, H; Jenkins, M; Wilson, D; Pelot, N; Shoffstall, A
2025
Duke Scholars
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APA
Chicago
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Zhang, J., Lapierre-Landry, M., Kalpatthi, H., Jenkins, M., Wilson, D., Pelot, N., & Shoffstall, A. (2025). Automated 3D Segmentation of Human Vagus Nerve Fascicles and Epineurium from Micro-Computed Tomography Images Using Anatomy-Aware Neural Networks. bioRxiv. https://doi.org/10.1101/2025.06.12.659370
Zhang, Jichu, Maryse Lapierre-Landry, Havisha Kalpatthi, Michael Jenkins, David Wilson, Nicole Pelot, and Andrew Shoffstall. “Automated 3D Segmentation of Human Vagus Nerve Fascicles and Epineurium from Micro-Computed Tomography Images Using Anatomy-Aware Neural Networks.” BioRxiv, 2025. https://doi.org/10.1101/2025.06.12.659370.
Zhang J, Lapierre-Landry M, Kalpatthi H, Jenkins M, Wilson D, Pelot N, et al. Automated 3D Segmentation of Human Vagus Nerve Fascicles and Epineurium from Micro-Computed Tomography Images Using Anatomy-Aware Neural Networks. bioRxiv. 2025.
Zhang, Jichu, et al. “Automated 3D Segmentation of Human Vagus Nerve Fascicles and Epineurium from Micro-Computed Tomography Images Using Anatomy-Aware Neural Networks.” BioRxiv, 2025. Epmc, doi:10.1101/2025.06.12.659370.
Zhang J, Lapierre-Landry M, Kalpatthi H, Jenkins M, Wilson D, Pelot N, Shoffstall A. Automated 3D Segmentation of Human Vagus Nerve Fascicles and Epineurium from Micro-Computed Tomography Images Using Anatomy-Aware Neural Networks. bioRxiv. 2025.