Cone-beam-CT guided radiation therapy: technical implementation.
about
Intra-operative Localization of Brachytherapy Implants Using Intensity-based Registration.Evaluation of three types of reference image data for external beam radiotherapy target localization using digital tomosynthesis (DTS).Integral test phantom for dosimetric quality assurance of image guided and intensity modulated stereotactic radiotherapy.Semiautomatic vertebrae visualization, detection, and identification for online palliative radiotherapy of bone metastases of the spine.Advances in technology for intracranial stereotactic radiosurgery.Geometric calibration of a mobile C-arm for intraoperative cone-beam CT.Development of a QA phantom and automated analysis tool for geometric quality assurance of on-board MV and kV x-ray imaging systems.Stochastic formulation of patient positioning using linac-mounted cone beam imaging with prior knowledge.Image-based modeling of tumor shrinkage in head and neck radiation therapy.A survey of image-guided radiation therapy use in the United States.An integrated approach to segmentation and nonrigid registration for application in image-guided pelvic radiotherapy.Defining the radiation target on a daily basisAnalysis of Prostate Deformation during a Course of Radiation Therapy for Prostate Cancer.A moving blocker-based strategy for simultaneous megavoltage and kilovoltage scatter correction in cone-beam computed tomography image acquired during volumetric modulated arc therapyAlgorithm-enabled exploration of image-quality potential of cone-beam CT in image-guided radiation therapyInterfractional and intrafractional errors assessed by daily cone-beam computed tomography in nasopharyngeal carcinoma treated with intensity-modulated radiation therapy: a prospective studyThe role of external-beam radiation therapy in the treatment of clinically localized prostate cancer.Image-guided radiation therapy: current and future directions.Margin evaluation of translational and rotational set-up errors in intensity modulated radiotherapy for cervical cancer.Image reconstruction in circular cone-beam computed tomography by constrained, total-variation minimization.Region-of-interest image reconstruction with intensity weighting in circular cone-beam CT for image-guided radiation therapy.Optimizing monoscopic kV fluoro acquisition for prostate intrafraction motion evaluation.Inferences about prostate intrafraction motion from pre- and posttreatment volumetric imaging.A quantitative comparison of the performance of three deformable registration algorithms in radiotherapyDemons deformable registration for CBCT-guided procedures in the head and neck: convergence and accuracy.Method comparison of automated matching software-assisted cone-beam CT and stereoscopic kilovoltage x-ray positional verification image-guided radiation therapy for head and neck cancer: a prospective analysis.Metabolic syndrome-related hepatocellular carcinoma treated by volumetric modulated arc therapy.Image-guided radiation therapy for muscle-invasive bladder cancer.Adaptive optimization by 6 DOF robotic couch in prostate volumetric IMRT treatment: rototranslational shift and dosimetric consequences.A tetrahedron beam computed tomography benchtop system with a multiple pixel field emission x-ray tube.Registration between ultrasound and fluoroscopy or CT in prostate brachytherapy.Fast shading correction for cone beam CT in radiation therapy via sparse sampling on planning CT.Image-guided radiation therapy (IGRT): practical recommendations of Italian Association of Radiation Oncology (AIRO).Validation of a deformable image registration technique for cone beam CT-based dose verification.Prediction of high-dimensional states subject to respiratory motion: a manifold learning approach.Automatic registration between reference and on-board digital tomosynthesis images for positioning verification.Characteristics of megavoltage cone-beam digital tomosynthesis.Clinical evaluation of positioning verification using digital tomosynthesis and bony anatomy and soft tissues for prostate image-guided radiotherapy.Optimization of the design of thick, segmented scintillators for megavoltage cone-beam CT using a novel, hybrid modeling technique.A continuous surface reconstruction method on point cloud captured from a 3D surface photogrammetry system.
P2860
Q30478311-D47C0DFE-EF3D-4DFE-91B5-102BB8F068F8Q31129950-6CCDE0CF-0F1A-4FAC-A109-635B764A1091Q33287031-6B773C08-BA15-445F-A36D-34026394334AQ33320850-505C4A4A-21A0-41B8-B70F-86C0C2E2A1F2Q33488966-C35F6B53-CE38-4791-99FC-6277EE3D587FQ33603820-72D769C6-A257-4961-A6AE-D9E9CB488006Q33611229-724350DA-8176-4562-917B-9B85B783A01DQ33858578-DD05F127-D8DA-4251-838B-6D9E132F75F9Q33866878-53D82512-21FA-48D6-BE44-D9B20E59B351Q34057764-807969D0-B179-4A88-8779-335674A41BD2Q35188787-159C8935-F970-4C68-B591-1D826A1FC2C9Q35214862-836605A1-FCC8-45F1-8E60-4A87B41DD058Q35676937-8608034E-AF6B-4C19-A8E2-075D92769618Q35868139-04E86BB4-FDF5-48F9-AC78-8C92BA6279F7Q36175728-0A5D4A1B-B677-4E74-BD44-5A113A8F5C68Q36355762-33EF5D31-2AFD-4515-A2CC-FC4090E154DAQ36555656-931FBCE5-B8CE-46AC-B5A9-41ABD4E0AC39Q36572525-0833610A-3A01-4852-A538-DC7836024AE2Q36614822-364357A5-697C-4521-A280-FE7F77E1E154Q37072211-5F8F4529-42F2-460F-B98B-EA91BC25664DQ37170425-EC931C81-FAD4-4275-A33A-E14B6B8338E1Q37189888-0E5A2159-406E-4ECA-92AA-72BA3481A265Q37314455-3389333A-580A-4BC8-B4A4-BBB9D4D05DB3Q37397569-B6D750EE-89B8-439A-9102-6C54E3349F56Q37408494-7FE08BD9-0DE2-4DF9-BE28-C32FD4A65795Q37690595-1604EDE7-2057-4B96-8ED2-AC8031C0C15AQ37719640-D364176A-7917-4746-A35F-F99B1CD839B6Q37953815-E06A0E78-448C-4F1F-AB10-B1E880941AE8Q38677734-132CC8A3-905B-47AA-8F0C-61676584F547Q38731015-1773F37E-C571-4167-AC8B-2A76EA33F169Q38781415-E91BA35F-535A-4AAA-90ED-22EB78440C7AQ38928145-39D2FCC8-B320-49B4-8986-CF4A9E0B0F71Q38947922-205B87AB-545E-460D-AAE6-594A1C434BC9Q39063659-E82528B3-D3CD-404D-A1CE-C351526691ECQ39684663-DEE52AD0-82C4-4815-AE68-BEE3691C8C45Q39841740-6FEDFC70-B9F8-4D0C-ABF5-5D5059816B84Q39847031-D10EA391-E60D-4044-B8F0-64CDB42EB5CAQ39867016-08D6065C-E239-43F2-960F-51F30D83E7FCQ40105995-3EB3B2AA-D862-4AC8-9EB3-3C30B52C5DDDQ40370920-DB27B639-7198-4A65-9D07-561832714F94
P2860
Cone-beam-CT guided radiation therapy: technical implementation.
description
2005 nî lūn-bûn
@nan
2005 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
name
Cone-beam-CT guided radiation therapy: technical implementation.
@ast
Cone-beam-CT guided radiation therapy: technical implementation.
@en
type
label
Cone-beam-CT guided radiation therapy: technical implementation.
@ast
Cone-beam-CT guided radiation therapy: technical implementation.
@en
prefLabel
Cone-beam-CT guided radiation therapy: technical implementation.
@ast
Cone-beam-CT guided radiation therapy: technical implementation.
@en
P2093
P1476
Cone-beam-CT guided radiation therapy: technical implementation.
@en
P2093
Alvaro A Martinez
Jeffrey H Siewerdsen
John W Wong
Lindsay Watt
Mark Oldham
Misbah Gulam
P304
P356
10.1016/J.RADONC.2005.03.001
P577
2005-06-01T00:00:00Z