Critical discussion of evaluation parameters for inter-observer variability in target definition for radiation therapy.
about
Improving radiotherapy quality assurance in clinical trials: assessment of target volume delineation of the pre-accrual benchmark case.Assessment of volume segmentation in radiotherapy of adolescents; a treatment planning study by the Swedish Workgroup for Paediatric Radiotherapy.Dosimetric consequences of interobserver variability in delineating the organs at risk in gynecologic interstitial brachytherapy.The utility of atlas-assisted segmentation in the male pelvis is dependent on the interobserver agreement of the structures segmentedProspective randomized double-blind study of atlas-based organ-at-risk autosegmentation-assisted radiation planning in head and neck cancerConsequences of anorectal cancer atlas implementation in the cooperative group setting: radiobiologic analysis of a prospective randomized in silico target delineation study.Inter-observer variability of clinical target volume delineation in radiotherapy treatment of pancreatic cancer: a multi-institutional contouring experience.GTV delineation in supraglottic laryngeal carcinoma: interobserver agreement of CT versus CT-MR delineationDoes ultrasound provide any added value in breast contouring for radiotherapy after conserving surgery for cancer?Auto-segmentation of the brachial plexus assessed with TaCTICS - a software platform for rapid multiple-metric quantitative evaluation of contoursThe tumor shape changes of nasopharyngeal cancer during chemoradiotherapy: the estimated margin to cover the geometrical variation.Prospective assessment of an atlas-based intervention combined with real-time software feedback in contouring lymph node levels and organs-at-risk in the head and neck: Quantitative assessment of conformance to expert delineation.Evaluation of inter-observer variability of bladder boundary delineation on cone-beam CT.Uncertainties in target volume delineation in radiotherapy - are they relevant and what can we do about them?Automatic segmentation software in locally advanced rectal cancer: READY (REsearch program in Auto Delineation sYstem)-RECTAL 02: prospective study.Quality control of involved-field radiotherapy for patients with early stage Hodgkin's lymphoma based on a central prospective review. Comparison of the results between two study generations of the German Hodgkin Study Group.A novel CBCT-based method for derivation of CTV-PTV margins for prostate and pelvic lymph nodes treated with stereotactic ablative radiotherapy.A review of interventions to reduce inter-observer variability in volume delineation in radiation oncology.A new CT reconstruction technique using adaptive deformation recovery and intensity correction (ADRIC).Kinetic Models for Predicting Cervical Cancer Response to Radiation Therapy on Individual Basis Using Tumor Regression Measured In Vivo With Volumetric Imaging.Impact of target volume segmentation accuracy and variability on treatment planning for 4D-CT-based non-small cell lung cancer radiotherapy.Modelling tumour volume variations in head and neck cancer: contribution of magnetic resonance imaging for patients undergoing induction chemotherapy.Prostate positioning using cone-beam computer tomography based on manual soft-tissue registration: interobserver agreement between radiation oncologists and therapists.Can treatment of pediatric Hodgkin's lymphoma be improved by PET imaging and proton therapy?Multicenter evaluation of different target volume delineation concepts in pediatric Hodgkin's lymphoma. A case study.An evaluation of the robustness of organ-at-risk recommendations made by GEC/ESTRO according to interobserver variability: a single-center experience.Target volume delineation of anal cancer based on magnetic resonance imaging or positron emission tomographyVariabilities of Magnetic Resonance Imaging-, Computed Tomography-, and Positron Emission Tomography-Computed Tomography-Based Tumor and Lymph Node Delineations for Lung Cancer Radiation Therapy Planning.High-risk CTV delineation for cervix brachytherapy: Application of GEC-ESTRO guidelines in Australia and New Zealand.Quantification of uncertainty in the assessment of coronary plaque in CCTA through a dynamic cardiac phantom and 3D-printed plaque model.Delineation of the larynx as organ at risk in radiotherapy: a contouring course within "Rete Oncologica Piemonte-Valle d'Aosta" network to reduce inter- and intraobserver variability.A Biomechanical Modeling Guided CBCT Estimation Technique.Optimal gross tumor volume definition in lung-sparing intensity modulated radiotherapy for pleural mesothelioma: an in silico study.The role of delineation education programs for improving interobserver variability in target volume delineation in gastric cancer.Analysis of geometric variation of neck node levels during image-guided radiotherapy for nasopharyngeal carcinoma: recommended planning margins
P2860
Q27690859-853EAAE4-FB14-4DFE-BA55-223C06A85165Q33274765-D74E98D0-723B-4524-B930-EA8D38567F0EQ34267834-FD2C0787-9EDC-47C1-97BF-B298927F287EQ34392066-47D1B817-156A-4A52-82D4-2E88FB8AB9FCQ34615769-8C33AB1B-97E2-4F7A-864D-9CC17DCEF7A8Q34643927-8B06114D-8415-4A8B-8DC4-4D9AEE38F7F8Q34667324-1C5DBBCA-FD70-4683-9D58-4533D7637537Q35082546-2E938581-1C93-494F-B3C5-EE17A2CAD1A6Q36010025-FED2F435-1221-4EE9-AA23-E337885DF473Q36711250-75FEF5E8-C951-4695-A019-8F32C320A6A7Q36874525-815C3399-5CAA-4756-A2D0-54BD8BADA450Q36996679-C73EB2C3-C805-410D-AA73-8ACE2F93312BQ37053632-92EAAA3E-31D9-4344-8292-F3B4149786BAQ37258706-C1960F69-8C5E-4504-AF91-8F21D2D398A0Q37520623-54439BFA-AF9C-4D79-AEFB-1ADCA834E9A1Q38018249-A800372D-CD06-45E7-939C-E927AB8A8AFEQ38640375-1C6C397A-4B04-48FB-A7D4-FEA634F39E80Q38832522-7E783A5C-8768-41F7-AB5A-76BDD11F3E3EQ38852489-A72E6C51-EFE9-4E07-8DB5-CBB6B7BDD945Q39030618-F35FAEDD-83F3-45C8-9E79-8EE100309079Q39107060-981FECA2-BC1C-45B6-8EEF-4EB3354A2489Q39145943-3B8A0C9A-A71C-44EA-B85A-9E4AB15E2CADQ39366278-3EFCDCDB-AF42-44CF-9067-E500382C9FC6Q39518368-B31DDAD1-514D-4A40-8EB9-4B1FE7FBD121Q39539001-9942A125-2E4B-4C4E-8350-966B43BB26B7Q41061949-D99FEA0B-D0F9-41AB-9F3E-33219D2A7F9AQ41625221-F3375C6F-4857-4DF3-9113-402B4BCD5969Q45065502-C76FDF51-1BC5-467D-8349-CC0B27C84105Q48111220-556ACE5E-5AE5-4944-9E30-D0500708DBD2Q48154137-59112FC5-2518-4D83-8A6C-101D62D0CE92Q48157099-AD0C8584-8068-4908-9B08-EA56E2854F49Q49341270-6B3151D9-AA01-45A7-A2A0-E5B8B5EA64DAQ50484415-8023B84A-BE08-478B-B23C-F952A4B1C944Q53239142-BA51F999-29E6-4750-9856-1741E13062A3Q58804643-0B5A5692-799E-4DF6-A615-1B49D71F6CF4
P2860
Critical discussion of evaluation parameters for inter-observer variability in target definition for radiation therapy.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Critical discussion of evaluat ...... inition for radiation therapy.
@en
Critical discussion of evaluat ...... inition for radiation therapy.
@nl
type
label
Critical discussion of evaluat ...... inition for radiation therapy.
@en
Critical discussion of evaluat ...... inition for radiation therapy.
@nl
prefLabel
Critical discussion of evaluat ...... inition for radiation therapy.
@en
Critical discussion of evaluat ...... inition for radiation therapy.
@nl
P2093
P2860
P1476
Critical discussion of evaluat ...... inition for radiation therapy.
@en
P2093
C Lütgendorf-Caucig
P2860
P2888
P304
P356
10.1007/S00066-011-0027-6
P577
2012-01-27T00:00:00Z