Gains from real-time tracking of prostate motion during external beam radiation therapy.
about
Ultrasound Imaging in Radiation Therapy: From Interfractional to Intrafractional GuidanceTarget margins in radiotherapy of prostate cancerReduction of prostate intrafractional motion from shortening the treatment time.Technological advances in radiation therapy for prostate cancer.Evolution of advanced technologies in prostate cancer radiotherapy.Comparison between electromagnetic transponders and radiographic imaging for prostate localization: A pelvic phantom study with rotations and translations.Clinical development of a failure detection-based online repositioning strategy for prostate IMRT-Experiments, simulation, and dosimetry study.Prostate bed motion during intensity-modulated radiotherapy treatment.Six-Dimensional Correction of Intra-Fractional Prostate Motion with CyberKnife Stereotactic Body Radiation Therapy.The dosimetric impact of prostate rotations during electromagnetically guided external-beam radiation therapyProstate rotation detected from implanted markers can affect dose coverage and cannot be simply dismissed.A new method to reconstruct intra-fractional prostate motion in volumetric modulated arc therapy.Determination of action thresholds for electromagnetic tracking system-guided hypofractionated prostate radiotherapy using volumetric modulated arc therapy.Dose-volume factors to select patient-specific image-guidance action thresholds in prostate cancer.Using daily diagnostic quality images to validate planning margins for prostate interfractional variationsImpact of inter- and intrafraction deviations and residual set-up errors on PTV margins. Different alignment techniques in 3D conformal prostate cancer radiotherapy.
P2860
Q26800485-6431704B-E945-4DA8-A1E1-8C006D1CA135Q36067678-2B358E11-0158-4CEE-9681-8331DD56CEEBQ37613689-C1B9C886-A1FF-4100-9850-62F9DB892B65Q37738793-FC5071EC-0B63-46D2-9DDE-2463D8366693Q38135708-E54C62CE-5799-4E81-A27D-9FF6E8333B6BQ38682989-7A2886EF-B2F7-4CD3-B097-9D9AAB83E797Q38775153-BA38A709-21B0-48C6-BED1-23610589C51CQ41483713-FA1881B3-8276-4D5C-A797-7388E3601DBFQ42175056-B84A0D97-9E1A-46B7-B404-6D38DDDF5627Q42265348-C5473CCC-D5DC-4632-9223-40B6C7A94D37Q44438348-9F558771-6B26-4BFA-B4AB-7CD90ED41965Q48023240-8B3D69E4-9F0F-4D75-9CAD-A67FA5D64776Q50674136-4C47FEF6-1823-4D19-BEA9-33E4151D11FDQ50682681-3CD6DC1D-FE84-4446-AA17-8865F47EF039Q52983030-C31CDDF9-6513-49A2-A547-56C352B53172Q53119315-4512483B-A83E-4A93-9D56-9D68F1BB6675
P2860
Gains from real-time tracking of prostate motion during external beam radiation therapy.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh-hant
name
Gains from real-time tracking of prostate motion during external beam radiation therapy.
@en
Gains from real-time tracking of prostate motion during external beam radiation therapy.
@nl
type
label
Gains from real-time tracking of prostate motion during external beam radiation therapy.
@en
Gains from real-time tracking of prostate motion during external beam radiation therapy.
@nl
prefLabel
Gains from real-time tracking of prostate motion during external beam radiation therapy.
@en
Gains from real-time tracking of prostate motion during external beam radiation therapy.
@nl
P2093
P1476
Gains from real-time tracking of prostate motion during external beam radiation therapy.
@en
P2093
Alan Pollack
Chang-Ming Ma
Eric M Horwitz
Jin Sheng Li
Mark K Buyyounouski
Robert A Price
P304
P356
10.1016/J.IJROBP.2009.05.022
P407
P577
2009-10-14T00:00:00Z