Publications
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A probabilistic thermal dose model for the estimation of necrosis in MR-guided tumor ablations
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Read more →: A probabilistic thermal dose model for the estimation of necrosis in MR-guided tumor ablationsCONCLUSION: The presented probabilistic thermal dose model might help to prevent false classification of voxels within ablation zones. This could potentially result in an increased success rate for MR-guided thermal ablation procedures. Future work may address additional error sources and a follow-up study in a more realistic clinical context.
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A probabilistic thermal dose model for the estimation of necrosis in MR-guided tumor ablations
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Read more →: A probabilistic thermal dose model for the estimation of necrosis in MR-guided tumor ablationsCONCLUSION: The presented probabilistic thermal dose model might help to prevent false classification of voxels within ablation zones. This could potentially result in an increased success rate for MR-guided thermal ablation procedures. Future work may address additional error sources and a follow-up study in a more realistic clinical context.
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A probabilistic thermal dose model for the estimation of necrosis in MR-guided tumor ablations
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Read more →: A probabilistic thermal dose model for the estimation of necrosis in MR-guided tumor ablationsCONCLUSION: The presented probabilistic thermal dose model might help to prevent false classification of voxels within ablation zones. This could potentially result in an increased success rate for MR-guided thermal ablation procedures. Future work may address additional error sources and a follow-up study in a more realistic clinical context.
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A probabilistic thermal dose model for the estimation of necrosis in MR-guided tumor ablations
•
Read more →: A probabilistic thermal dose model for the estimation of necrosis in MR-guided tumor ablationsCONCLUSION: The presented probabilistic thermal dose model might help to prevent false classification of voxels within ablation zones. This could potentially result in an increased success rate for MR-guided thermal ablation procedures. Future work may address additional error sources and a follow-up study in a more realistic clinical context.
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Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imaging
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Read more →: Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imagingModel-based reconstruction employing the time separation technique (TST) was found to improve dynamic perfusion imaging of the liver using C-arm cone-beam computed tomography (CBCT). To apply TST using prior knowledge extracted from CT perfusion data, the liver should be accurately segmented from the CT scans. Reconstructions of primary and model-based CBCT data need to be…
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Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imaging
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Read more →: Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imagingModel-based reconstruction employing the time separation technique (TST) was found to improve dynamic perfusion imaging of the liver using C-arm cone-beam computed tomography (CBCT). To apply TST using prior knowledge extracted from CT perfusion data, the liver should be accurately segmented from the CT scans. Reconstructions of primary and model-based CBCT data need to be…
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Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imaging
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Read more →: Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imagingModel-based reconstruction employing the time separation technique (TST) was found to improve dynamic perfusion imaging of the liver using C-arm cone-beam computed tomography (CBCT). To apply TST using prior knowledge extracted from CT perfusion data, the liver should be accurately segmented from the CT scans. Reconstructions of primary and model-based CBCT data need to be…
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Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imaging
•
Read more →: Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imagingModel-based reconstruction employing the time separation technique (TST) was found to improve dynamic perfusion imaging of the liver using C-arm cone-beam computed tomography (CBCT). To apply TST using prior knowledge extracted from CT perfusion data, the liver should be accurately segmented from the CT scans. Reconstructions of primary and model-based CBCT data need to be…
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Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imaging
•
Read more →: Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imagingModel-based reconstruction employing the time separation technique (TST) was found to improve dynamic perfusion imaging of the liver using C-arm cone-beam computed tomography (CBCT). To apply TST using prior knowledge extracted from CT perfusion data, the liver should be accurately segmented from the CT scans. Reconstructions of primary and model-based CBCT data need to be…
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Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imaging
•
Read more →: Liver segmentation using Turbolift learning for CT and cone-beam C-arm perfusion imagingModel-based reconstruction employing the time separation technique (TST) was found to improve dynamic perfusion imaging of the liver using C-arm cone-beam computed tomography (CBCT). To apply TST using prior knowledge extracted from CT perfusion data, the liver should be accurately segmented from the CT scans. Reconstructions of primary and model-based CBCT data need to be…