Comparison of 2D radiographic images and 3D cone beam computed tomography for positioning head-and-neck radiotherapy patients.
about
Estimation of daily interfractional larynx residual setup error after isocentric alignment for head and neck radiotherapy: quality assurance implications for target volume and organs-at-risk margination using daily CT on- rails imagingAutomatic fusion of lateral cephalograms and digital volume tomography data-perspective for combining two modalities in the future.Evaluating positional accuracy using megavoltage cone-beam computed tomography for IMRT with head-and-neck cancerComparison of set up accuracy among three common immobilisation systems for intensity modulated radiotherapy of nasopharyngeal carcinoma patientsComparison of the effectiveness of different immobilization systems in different body regions using daily megavoltage CT in helical tomotherapy.Accurate positioning for head and neck cancer patients using 2D and 3D image guidance.Applications of linac-mounted kilovoltage Cone-beam Computed Tomography in modern radiation therapy: A review.Technical guidelines for head and neck cancer IMRT on behalf of the Italian association of radiation oncology - head and neck working group.Evaluation of inter-fraction and intra-fraction errors during volumetric modulated arc therapy in nasopharyngeal carcinoma patients.Estimation of adequate setup margins and threshold for position errors requiring immediate attention in head and neck cancer radiotherapy based on 2D image guidance.Impact of body-mass factors on setup displacement in patients with head and neck cancer treated with radiotherapy using daily on-line image guidanceRecent advances in image-guided radiotherapy for head and neck carcinoma.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.Adaptive radiation therapy for head and neck cancer-can an old goal evolve into a new standard?kV cone-beam CT-based IGRT: a clinical review.Current progress in adaptive radiation therapy for head and neck cancer.Survey of image-guided radiotherapy use in Australia.Faculty of Radiation Oncology Position Paper on the use of Image-Guided Radiation Therapy.Four-dimensional volume-of-interest reconstruction for cone-beam computed tomography-guided radiation therapy.Development of digital reconstructed radiography software at new treatment facility for carbon-ion beam scanning of National Institute of Radiological Sciences.Use of planar kV vs. CBCT in evaluation of setup errors in oesophagus carcinoma radiotherapy.Robotic-based carbon ion therapy and patient positioning in 6 degrees of freedom: setup accuracy of two standard immobilization devices used in carbon ion therapy and IMRT.MRI to delineate the gross tumor volume of nasopharyngeal cancers: which sequences and planes should be used?Multi-system verification of registrations for image-guided radiotherapy in clinical trialsDifferent setup errors assessed by weekly cone-beam computed tomography on different registration in nasopharyngeal carcinoma treated with intensity-modulated radiation therapy.Utility of daily image guidance with intensity-modulated radiotherapy for tumors of the base of skull.Cone-beam computed tomography (CBCT) for adaptive image guided head and neck radiation therapy.Spine Stereotactic Body Radiation Therapy Residual Setup Errors and Intra-Fraction Motion Using the Stereotactic X-Ray Image Guidance Verification System.Is ExacTrac x-ray system an alternative to CBCT for positioning patients with head and neck cancers?3D-Printed masks as a new approach for immobilization in radiotherapy - a study of positioning accuracy.A prospective analysis of inter- and intrafractional errors to calculate CTV to PTV margins in head and neck patients.Evaluation of techniques for slice sensitivity profile measurement and analysis.The dosimetric consequences of anatomic changes in head and neck radiotherapy patients.Upright cone beam CT imaging using the onboard imager.Assessment of setup uncertainties for various tumor sites when using daily CBCT for more than 2200 VMAT treatments.Dosimetric consequences of rotational setup errors with direct simulation in a treatment planning system for fractionated stereotactic radiotherapy.Comparisons of multiple automated anatomy‐based image‐guidance methods for patient setup before head/neck external beam radiotherapy.Estimation of daily interfractional larynx residual setup error after isocentric alignment for head and neck radiotherapy: quality assurance implications for target volume and organs‐at‐risk margination using daily CT on‐rails imaging.How much margin do we need for pelvic lymph nodes irradiation in the era of IGRT?
P2860
Q30809590-2D17C32A-EDED-4F86-AEF5-C7A2D1228D11Q30977197-CEC23A43-91DE-4158-936F-2CB1E37BBF6CQ33582650-B5795771-C9B2-46CA-90F7-3F97D3BCA203Q33753735-94694409-5F98-4582-9E4E-8B3C0A54835EQ33782060-EB0DBD0D-5903-4C5B-856F-86A7E86FF794Q33823554-2A23B0BB-0E7C-4DC1-B3A8-DC8EFF1862A6Q34663053-5B9DE200-A031-4064-A588-0C038912E12DQ35534813-49082548-076B-4459-A71B-9F56A6D16A07Q36770586-82DB8131-D1C0-4244-B471-4F6D5D60EA8DQ37364996-41B81DE5-1C8B-4743-A7A4-27F32212E000Q37523693-856399F7-A67B-4250-9C25-11243A567B6BQ37567466-E2A2F9A4-04FB-44A8-B172-9A2782E6A46BQ37690595-1FCD1F3C-5990-4A2E-BF8E-3E503FB14793Q37789625-8F65D2F8-ED00-4576-870D-A7D5CA37B169Q37870806-EA3642BB-DA7D-41A4-A642-68A4BC399BABQ37983506-6AFE3399-0EC6-4648-A8A7-01CCE7105DEAQ38793601-2D6C4175-424E-44B6-8994-E733916A7E51Q38819438-2A46643E-18DE-40F0-82AE-00D993C6CB29Q39907214-FBB55BE6-1AD3-4DF5-8A68-FC84B292752CQ40042488-B3B77B61-F1A3-4954-9F8D-9B47B60A5BBCQ42087110-4340F7A2-1269-4AA4-A829-8F5EA75E6609Q42136607-C4344DAA-D880-49B5-86D7-7FDFADE9A684Q42747616-0E57E304-6598-4ECC-839F-FC15A86DC92DQ42786373-4494EF38-28A4-49B7-82B3-C7AA067F4ADCQ43002834-D6D89473-98F4-46DF-BD29-C55B47859731Q46672919-35D491F8-0DB3-4ABC-A37A-AC36AE26522EQ47613010-11C91C2E-671F-4BA3-AA07-3B8BA776170DQ48892234-1CF64940-B5E0-43F7-B0C2-B4AD4C07DE54Q48908070-3D484737-6808-4F27-8BDB-CB5B11038B6FQ49787416-81A53F3C-ADA9-477C-A4CE-16155FD15482Q50655951-6A939A61-63E3-4ECD-8EC1-922CE06518A1Q51095886-0C4E193C-C8D1-4B32-B980-EE2F6D55C0B3Q53265511-C4C06722-21D3-4952-80CE-827B5B7F5F86Q53538591-F930A75D-8E2D-495A-A6D2-9955E1DD3743Q54986154-B38D343E-A1A6-467A-94AB-525214867916Q55171391-9BAF6131-C5F9-4B19-B66A-D491F35283C8Q55195218-BF66C78D-3829-46EF-9DED-D7F2A692AAB6Q55709048-26149DB6-C288-4C54-8737-7F18A3A6B994Q58555629-0263D9C8-003A-4D3C-9F69-2C3A2B7170FC
P2860
Comparison of 2D radiographic images and 3D cone beam computed tomography for positioning head-and-neck radiotherapy patients.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh-hant
name
Comparison of 2D radiographic ...... nd-neck radiotherapy patients.
@en
Comparison of 2D radiographic ...... nd-neck radiotherapy patients.
@nl
type
label
Comparison of 2D radiographic ...... nd-neck radiotherapy patients.
@en
Comparison of 2D radiographic ...... nd-neck radiotherapy patients.
@nl
prefLabel
Comparison of 2D radiographic ...... nd-neck radiotherapy patients.
@en
Comparison of 2D radiographic ...... nd-neck radiotherapy patients.
@nl
P2093
P50
P1476
Comparison of 2D radiographic ...... nd-neck radiotherapy patients.
@en
P2093
Adam S Garden
Anesa Ahamad
David L Schwartz
K S Clifford Chao
Lifei Zhang
William H Morrison
X Ronald Zhu
P304
P356
10.1016/J.IJROBP.2008.01.008
P407
P577
2008-04-18T00:00:00Z