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Probabilistic Deep Learning with Adversarial Training and Volume Interval Estimation - Better Ways to Perform and Evaluate Predictive Models for White Matter Hyperintensities Evolution.

, , , , , и . PRIME@MICCAI, том 12928 из Lecture Notes in Computer Science, стр. 168-180. Springer, (2021)

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Joanna M cfel-Marczewski

Joanna Dietzel

Joanna Wilczynska

Joanna Bestry

Joanna Pfeuffer

 

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Predicting the Evolution of White Matter Hyperintensities in Brain MRI Using Generative Adversarial Networks and Irregularity Map., , , , и . MICCAI (3), том 11766 из Lecture Notes in Computer Science, стр. 146-154. Springer, (2019)Automatic Hippocampal Multimodal Assessment for Studies of Stroke and Small Vessel Disease., , , , , и . MIUA, стр. 33-38. BMVA, (2014)The Challenges of Developing a Collaborative Data and Compute Grid for Neurosciences., , , , , , , , , и 14 other автор(ы). CBMS, стр. 81-86. IEEE Computer Society, (2006)Systematic review and meta-analysis of automated methods for quantifying enlarged perivascular spaces in the brain., , , , , , , и . NeuroImage, (2024)A Comparison of Four Unsupervised Clustering Algorithms for Segmenting Brain Tissue in Multi-spectral MR Data., , и . BIOSIGNALS, стр. 507-514. INSTICC Press, (2010)Identification of the presence of ischaemic stroke lesions by means of texture analysis on brain magnetic resonance images., , , , , , , , , и . Comput. Medical Imaging Graph., (2019)Pseudo-healthy Image Synthesis for White Matter Lesion Segmentation., , , , , , , , , и 8 other автор(ы). SASHIMI@MICCAI, том 9968 из Lecture Notes in Computer Science, стр. 87-96. (2016)Direct Estimation of Pharmacokinetic Parameters from DCE-MRI Using Deep CNN with Forward Physical Model Loss., , , , , , , и . MICCAI (1), том 11070 из Lecture Notes in Computer Science, стр. 39-47. Springer, (2018)Registration of Reconstructed Post Mortem Optical Data with MR Scans of the Same Patient., , , , , , , , , и 2 other автор(ы). MICCAI, том 2208 из Lecture Notes in Computer Science, стр. 957-965. Springer, (2001)Selective Motion Artefact Reduction via Radiomics and k-space Reconstruction for Improving Perivascular Space Quantification in Brain Magnetic Resonance Imaging., , , , , , , , , и 1 other автор(ы). MIUA, том 12722 из Lecture Notes in Computer Science, стр. 151-164. Springer, (2021)