Objective assessment of deformable image registration in radiotherapy: a multi-institution study.
about
Characterization of deformation and physical force in uniform low contrast anatomy and its impact on accuracy of deformable image registration.Spatial registration of temporally separated whole breast 3D ultrasound images.Non-rigid registration of serial dedicated breast CT, longitudinal dedicated breast CT and PET/CT images using the diffeomorphic demons method.Estimation of three-dimensional intrinsic dosimetric uncertainties resulting from using deformable image registration for dose mapping.Evaluation of accuracy of B-spline transformation-based deformable image registration with different parameter settings for thoracic images.Evaluation of 3D fluoroscopic image generation from a single planar treatment image on patient data with a modified XCAT phantom.Demons deformable registration of CT and cone-beam CT using an iterative intensity matching approachDose mapping sensitivity to deformable registration uncertainties in fractionated radiotherapy - applied to prostate proton treatmentsA virtual phantom library for the quantification of deformable image registration uncertainties in patients with cancers of the head and neck.Pulmonary nodule registration: rigid or nonrigid?Nonrigid Registration of Brain Tumor Resection MR Images Based on Joint Saliency Map and Keypoint Clustering.Evaluation of deformable image registration and a motion model in CT images with limited features.A finite element method to correct deformable image registration errors in low-contrast regionsOn voxel-by-voxel accumulated dose for prostate radiation therapy using deformable image registration.Lung texture in serial thoracic CT scans: assessment of change introduced by image registration.Radiotherapy dosimetry audit: three decades of improving standards and accuracy in UK clinical practice and trials.A framework for deformable image registration validation in radiotherapy clinical applicationsParotid glands dose-effect relationships based on their actually delivered doses: implications for adaptive replanning in radiation therapy of head-and-neck cancer.Tissue feature-based and segmented deformable image registration for improved modeling of shear movement of lungs.Demons deformable registration for CBCT-guided procedures in the head and neck: convergence and accuracy.Investigating the feasibility of rapid MRI for image-guided motion management in lung cancer radiotherapy.Accurate accumulation of dose for improved understanding of radiation effects in normal tissue.Imaging in radiation oncology: a perspective.Optimized knot placement for B-splines in deformable image registrationAnalysis of deformable image registration accuracy using computational modeling.Deformable image registration in radiation therapy.Special report: Workshop on 4D-treatment planning in actively scanned particle therapy-Recommendations, technical challenges, and future research directions.Validating Dose Uncertainty Estimates Produced by AUTODIRECT: An Automated Program to Evaluate Deformable Image Registration Accuracy.Fiducial marker guided prostate radiotherapy: a review.Validation of a deformable image registration technique for cone beam CT-based dose verification.Quantification of organ motion based on an adaptive image-based scale invariant feature method.Using patient-specific phantoms to evaluate deformable image registration algorithms for adaptive radiation therapy.A method to estimate the effect of deformable image registration uncertainties on daily dose mapping.Validation of a dose warping algorithm using clinically realistic scenarios.The ANACONDA algorithm for deformable image registration in radiotherapy.Evaluation of various deformable image registration algorithms for thoracic images.VMAT-SBRT planning based on an average intensity projection for lung tumors located in close proximity to the diaphragm: a phantom and clinical validity study.A stochastic approach to estimate the uncertainty of dose mapping caused by uncertainties in b-spline registration.A finite element head and neck model as a supportive tool for deformable image registration.On the need for comprehensive validation of deformable image registration, investigated with a novel 3-dimensional deformable dosimeter.
P2860
Q30366911-6A4BBA66-9D58-4D68-8A4B-90D6226E3199Q30479777-91F82537-7BDC-4001-9F41-530B6E54DC5AQ34066905-8AB4BB72-A05B-4D83-801E-3C6CE7CC2413Q34493753-55B1BDEE-8CD8-47FA-B002-A19A50B65CCBQ34500974-9EA1A478-53BA-48FE-8D72-B94C20929ECCQ34556487-53A68324-2FA2-4C68-9BFD-A5B227E81A55Q34756625-7D533E05-595A-46AC-B507-86072288E798Q34773793-1CB6C38F-393C-4B4E-A152-905C82452CC2Q35062720-C5D0DE66-6631-4DAF-BFC0-B9DFA5633547Q35132617-BCFFDBDC-97EA-4745-AD7E-EAF72D239E99Q35701599-2982B559-340F-4D76-9EDB-B0BA83437D0FQ35950027-72B51EEE-2AAE-4335-959E-1C06F2D76070Q35990167-B68F2C82-200F-4C68-889F-5559FF9C9231Q36011188-849BAC6D-80CB-48C4-A239-37764531A117Q36139219-5EA01E52-F2CE-4585-A33A-5A22DDCF62F1Q36550547-0C546C1C-07AE-4100-ADF6-F7DA5244F48EQ37065928-F8F371F0-6980-4A12-907A-589C7B79F766Q37248648-E54B2289-48C9-49A8-8F19-70A3A5968DB8Q37301022-6A2140EF-2163-4C0A-BDAF-C2AB3B7FD45BQ37408494-79D8FAD7-6362-4978-91F2-CBD3EBDFA4C8Q37553437-A305877F-2982-4BEA-AD5B-9738F6296937Q37695541-35D21B2C-ADDE-4473-B748-11F1936FF20AQ37736122-60DDF079-C2D9-4A95-8C8A-768F62D7F456Q38411693-9102BB33-F994-413E-9E0A-432BAD0930C4Q38646761-AC40C1CF-C4AF-48E2-85A1-D11E3A90B323Q38677041-B9E72109-E976-4BAE-B587-42E631F79F46Q38775109-038422BF-303C-4286-9A23-B17456B903ACQ38793926-6C79B4E1-17FA-41CE-AA71-822E3F6290D4Q38944077-15060697-0A11-4B2C-9B89-2A3783F6BC97Q39063659-552D7D81-69CD-43BB-8CBF-46DF9ED5D9AEQ39298674-50F8AEEF-B5C7-4831-BD31-E6B9BA5CA1A0Q40166079-F169488C-01B9-4185-986E-65871D49DB77Q40712479-A441F5C9-7337-48D6-A37E-3D8288EFD18BQ41190978-93FE47D4-6174-4C7F-B5CE-E2F22B8E0B8FQ41618908-D5D84487-0BA5-46F6-9B59-93133427A6EDQ41859468-85852AF0-C629-442E-B4F1-66C4396DDBA5Q41963189-3E7A5855-19E4-4E2B-9BAF-C1CD4EAD160FQ42058823-916EB8A1-4951-495F-B46E-9F34588B1609Q42549876-A7B021F1-DD2F-4BD0-931E-EF9CB6008704Q42971186-78A54636-EDB5-4B92-A71D-296566CF8065
P2860
Objective assessment of deformable image registration in radiotherapy: a multi-institution study.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Objective assessment of deform ...... py: a multi-institution study.
@en
Objective assessment of deform ...... py: a multi-institution study.
@nl
type
label
Objective assessment of deform ...... py: a multi-institution study.
@en
Objective assessment of deform ...... py: a multi-institution study.
@nl
prefLabel
Objective assessment of deform ...... py: a multi-institution study.
@en
Objective assessment of deform ...... py: a multi-institution study.
@nl
P2093
P2860
P50
P356
P1433
P1476
Objective assessment of deform ...... py: a multi-institution study.
@en
P2093
David Hawkes
James M Balter
Lifei Zhang
Marc L Kessler
Martina Hub
Rojano Kashani
Sarang Joshi
P2860
P304
P356
10.1118/1.3013563
P407
P577
2008-12-01T00:00:00Z