scholarly article | Q13442814 |
P2093 | author name string | Masahiro Hiraoka | |
Takashi Mizowaki | |||
Manabu Nakata | |||
Yoshiki Norihisa | |||
Itaru Ikeda | |||
Yohei Sawada | |||
Masakazu Ogura | |||
P2860 | cites work | Internal organ motion in prostate cancer patients treated in prone and supine treatment position | Q33178745 |
Detection of internal organ movement in prostate cancer patients using portal images | Q33180124 | ||
Cine-magnetic resonance imaging assessment of intrafraction motion for prostate cancer patients supine or prone with and without a rectal balloon | Q33499974 | ||
Phase III pilot study of dose escalation using conformal radiotherapy in prostate cancer: PSA control and side effects | Q36617012 | ||
Detailed dosimetric evaluation of intensity-modulated radiation therapy plans created for stage C prostate cancer based on a planning protocol | Q39702333 | ||
Daily online localization using implanted fiducial markers and its impact on planning target volume for carcinoma prostate | Q42973351 | ||
Comparison of megavoltage position verification for prostate irradiation based on bony anatomy and implanted fiducials | Q47730582 | ||
A randomized comparison of interfraction and intrafraction prostate motion with and without abdominal compression | Q47908541 | ||
Electromagnetic tracking of intrafraction prostate displacement in patients externally immobilized in the prone position | Q48835838 | ||
Three-dimensional intrafractional movement of prostate measured during real-time tumor-tracking radiotherapy in supine and prone treatment positions | Q49015968 | ||
An evaluation of intrafraction motion of the prostate in the prone and supine positions using electromagnetic tracking. | Q50683826 | ||
Planning target margin calculations for prostate radiotherapy based on intrafraction and interfraction motion using four localization methods. | Q50895563 | ||
Prostate planning treatment volume margin calculation based on the ExacTrac X-Ray 6D image-guided system: margins for various clinical implementations. | Q50905971 | ||
The probability of correct target dosage: dose-population histograms for deriving treatment margins in radiotherapy. | Q51644928 | ||
Dosimetric comparison of four target alignment methods for prostate cancer radiotherapy. | Q51932445 | ||
Quantification and predictors of prostate position variability in 50 patients evaluated with multiple CT scans during conformal radiotherapy. | Q52212214 | ||
Impact of double-balloon rectal catheter use in external-beam radiotherapy for prostate cancer | Q53268483 | ||
Calcifications are potential surrogates for prostate localization in image-guided radiotherapy. | Q53389379 | ||
Dosimetric effects of the prone and supine positions on image guided localized prostate cancer radiotherapy. | Q53440508 | ||
Analysis of Interfraction Prostate Motion Using Megavoltage Cone Beam Computed Tomography | Q57598666 | ||
The effect of patient position and treatment technique in conformal treatment of prostate cancer | Q57619712 | ||
A randomized trial of supine vs. prone positioning in patients undergoing escalated dose conformal radiotherapy for prostate cancer | Q59009140 | ||
Variation in prostate position relative to adjacent bony anatomy | Q71058287 | ||
The effect of treatment positioning on normal tissue dose in patients with prostate cancer treated with three-dimensional conformal radiotherapy | Q73120361 | ||
Evaluation of daily online set-up errors and organ displacement uncertainty during conformal radiation treatment of the prostate | Q79712382 | ||
Comparisons of the impact of systematic uncertainties in patient setup and prostate motion on doses to the target among different plans for definitive external-beam radiotherapy for prostate cancer | Q80790248 | ||
A phase II trial for the optimisation of treatment position in the radiation therapy of prostate cancer | Q81204682 | ||
Adaptive radiotherapy for prostate cancer using kilovoltage cone-beam computed tomography: first clinical results | Q81297814 | ||
Assessment of planning target volume margins for intensity-modulated radiotherapy of the prostate gland: role of daily inter- and intrafraction motion | Q84229797 | ||
A prospective study of intrafraction prostate motion in the prone vs. supine position | Q84399396 | ||
P433 | issue | 1 | |
P304 | page(s) | 168-174 | |
P577 | publication date | 2013-07-16 | |
P1433 | published in | Journal of Radiation Research | Q2330802 |
P1476 | title | Assessment of interfractional prostate motion in patients immobilized in the prone position using a thermoplastic shell | |
P478 | volume | 55 |
Q40000280 | Impact of pitch angle setup error and setup error correction on dose distribution in volumetric modulated arc therapy for prostate cancer |
Q38885414 | Particle therapy of moving targets-the strategies for tumour motion monitoring and moving targets irradiation |
Q55379312 | Positioning error and expanding margins of planning target volume with kilovoltage cone beam computed tomography for prostate cancer radiotherapy. |
Q36067678 | Target margins in radiotherapy of prostate cancer |
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