Reduction of normal lung irradiation in locally advanced non-small-cell lung cancer patients, using ventilation images for functional avoidance.
about
Reproducibility of registration-based measures of lung tissue expansion.Clinical validation of 4-dimensional computed tomography ventilation with pulmonary function test data.Comparison of 4-dimensional computed tomography ventilation with nuclear medicine ventilation-perfusion imaging: a clinical validation study.Optimal beam arrangement for pulmonary ventilation image-guided intensity-modulated radiotherapy for lung cancerOn Voxel based Iso-Tumor Control Probabilty and Iso-Complication Maps for Selective Boosting and Selective Avoidance Intensity Modulated Radiotherapy.Functional and molecular image guidance in radiotherapy treatment planning optimization.Functional lung avoidance for individualized radiotherapy (FLAIR): study protocol for a randomized, double-blind clinical trialComparison of image registration based measures of regional lung ventilation from dynamic spiral CT with Xe-CT.Radiation pneumonitis in patients with lung and mediastinal tumours: a retrospective study of risk factors focused on pulmonary emphysema.IMRT treatment plans and functional planning with functional lung imaging from 4D-CT for thoracic cancer patients.Reproducibility of intensity-based estimates of lung ventilation.4D CT lung ventilation images are affected by the 4D CT sorting methodAn image acquisition and registration strategy for the fusion of hyperpolarized helium-3 MRI and x-ray CT images of the lung.Respiratory effort correction strategies to improve the reproducibility of lung expansion measurements.Functional image-based radiotherapy planning for non-small cell lung cancer: A simulation study.Use of 4-dimensional computed tomography-based ventilation imaging to correlate lung dose and function with clinical outcomes.Reproducibility of four-dimensional computed tomography-based lung ventilation imaging.Imaging of normal lung, liver and parotid gland function for radiotherapy.Magnetic resonance imaging biomarkers of chronic obstructive pulmonary disease prior to radiation therapy for non-small cell lung cancer.Functional lung avoidance and response-adaptive escalation (FLARE) RT: Multimodality plan dosimetry of a precision radiation oncology strategy.Evaluating Which Dose-Function Metrics Are Most Critical for Functional-Guided Radiation Therapy.Assessing lung function using contrast-enhanced dual energy computed tomography for potential applications in radiation therapy.Deformable image registration in radiation therapy.A complete 4DCT-ventilation functional avoidance virtual trial: Developing strategies for prospective clinical trials.Assessing the use of 4DCT-ventilation in pre-operative surgical lung cancer evaluation.Measuring interfraction and intrafraction lung function changes during radiation therapy using four-dimensional cone beam CT ventilation imaging.Regional Lung Function Profiles of Stage I and III Lung Cancer Patients: An Evaluation for Functional Avoidance Radiation Therapy.4DCT-based measurement of changes in pulmonary function following a course of radiation therapy.Priority-driven plan optimization in locally advanced lung patients based on perfusion SPECT imaging.Multimodal hypoxia imaging and intensity modulated radiation therapy for unresectable non-small-cell lung cancer: the HIL trial.Measurement of regional compliance using 4DCT images for assessment of radiation treatment.On the use of hyperpolarized helium MRI for conformal avoidance lung radiotherapy.Four-dimensional computed tomography pulmonary ventilation images vary with deformable image registration algorithms and metrics.Evaluating the Toxicity Reduction With Computed Tomographic Ventilation Functional Avoidance Radiation Therapy.Should regional ventilation function be considered during radiation treatment planning to prevent radiation-induced complications?Use of weekly 4DCT-based ventilation maps to quantify changes in lung function for patients undergoing radiation therapy.Clinical validation of a 4D-CT based method for lung ventilation measurement in phantoms and patients.Fluctuation in measurements of pulmonary nodule under tidal volume ventilation on four-dimensional computed tomography: preliminary results.Validating and improving CT ventilation imaging by correlating with ventilation 4D-PET/CT using 68Ga-labeled nanoparticles.Intensity modulated radiotherapy of non-small-cell lung cancer incorporating SPECT ventilation imaging.
P2860
Q30422261-6DAB27A1-D688-4316-9D5D-B72EAEF66D4CQ30918126-DAE2F475-6A1F-4B7D-B668-50D0C3160039Q34003070-32736AAB-E58B-4B9F-B2EE-DD78CF7CCA97Q34079183-AA656294-48A3-4017-80F5-07EFA637F9D2Q34399725-F4E77B48-99D7-432D-AFC9-0B7535A97D80Q34706820-0B8FDD5B-E41E-46D1-934A-71DBB03F5FFCQ35190878-5272A948-7945-4503-BB36-1BB1F333F644Q36157056-99882C3F-DCC4-4B6B-9F7D-5BB99E634E12Q36325572-EFDA3635-6329-4BC3-B24B-E4D1003A0DD5Q36555998-BD3B8844-2783-44F1-B967-06FC62B4F3C5Q36912424-8B38CE33-3596-4FA3-810E-2B651549F47EQ37203264-DFDE89EC-95F5-464D-A627-91D28D95B531Q37269927-B02DCB57-6BDD-41CF-9C54-EC27D8342CA3Q37350488-44A2E3D2-8598-4BEA-B0FF-D09B9F9D1F49Q37369904-53558FD6-1CEE-41B3-9532-603C831844E0Q37419489-3A6B8936-8401-41B9-8279-72E078CC58AFQ37710105-D8123A32-5D1D-4FC9-9618-6A03F4121883Q37787277-A9FA14C8-79A7-4B20-AAA5-9E12000BBC75Q38367001-6A17E246-0650-42C4-ADF2-91B9CA86788AQ38401313-98AAC593-8234-42DB-A6EB-50B627BBE229Q38620694-3EF39210-1400-4DD6-8B4B-5E99772F90BEQ38674098-E2F477D9-18AA-4978-B66B-AAF00FBD13C1Q38677041-F974E7A0-6565-47BE-83E5-BDE52EF97803Q38823746-0A6C7638-CBAF-4B31-9E58-0700112402E1Q39012541-2EC985B1-3DD6-45D8-9594-68DCAE82DD9EQ39033458-DDB3B4C6-ED81-4728-B37A-6F8B6FE6A7F0Q39647382-35887338-A095-4382-B6F0-4485EB94B6F2Q39713770-0009AA6B-89E9-4A0F-B2B8-E02F055582D7Q41039705-661F771A-9055-4A16-9AE8-41F1224F0FEEQ41686423-C4D58A7C-4D85-44A8-AA44-763F3A432BE1Q41833970-0124E6F1-55CB-4A0A-A75D-C4E7C4A03A9BQ42110893-5B8D1526-B80F-47F1-AC53-8C4992470440Q45965399-8CF46BE1-69F4-4ABF-875C-B2A5FC242F30Q46504108-7DC09160-FA8D-44A8-8896-F64DCDD11FAEQ48684136-9B3D3890-A37B-4840-9ADC-91B8A84B987BQ50666567-3CFD141B-662F-49A0-8153-35186A13161BQ51547382-3EEFF851-1F3A-485A-B89F-CA88AFD1EF7BQ51886992-E487C617-0618-4ED6-AD5A-79F525123438Q53084240-20EDA2C1-5859-43CA-B0A4-78F6519ABFD5Q53296883-93196B0E-681F-430E-BD82-75492B4E9FBC
P2860
Reduction of normal lung irradiation in locally advanced non-small-cell lung cancer patients, using ventilation images for functional avoidance.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh
2007年學術文章
@zh-hant
name
Reduction of normal lung irrad ...... ages for functional avoidance.
@ast
Reduction of normal lung irrad ...... ages for functional avoidance.
@en
type
label
Reduction of normal lung irrad ...... ages for functional avoidance.
@ast
Reduction of normal lung irrad ...... ages for functional avoidance.
@en
prefLabel
Reduction of normal lung irrad ...... ages for functional avoidance.
@ast
Reduction of normal lung irrad ...... ages for functional avoidance.
@en
P2093
P2860
P1476
Reduction of normal lung irrad ...... ages for functional avoidance.
@en
P2093
Brian P Yaremko
David G Lege
James D Cox
Josue Noyola-Martinez
Linda T Nguyen
Peter A Balter
Rudy Guerra
Thomas M Guerrero
P2860
P304
P356
10.1016/J.IJROBP.2007.01.044
P407
P577
2007-03-29T00:00:00Z