Journal of Medical Physics
 Home | Search | Ahead of print | Current Issue | Archives | Instructions | Subscription | Login  The official journal of AMPI, IOMP and AFOMP      
 Users online: 170  Home  EMail this page Print this page Decrease font size Default font size Increase font size 
This article has been cited by
1Clinical Acceptability of Automated Radiation Treatment Planning for Head and Neck Cancer Using the Radiation Planning Assistant
Adenike Olanrewaju,Laurence E. Court,Lifei Zhang,Komeela Naidoo,Hester Burger,Sameera Dalvie,Julie Wetter,Jeannette Parkes,Christoph J. Trauernicht,Rachel E. McCarroll,Carlos Cardenas,Christine B. Peterson,Kathryn R.K. Benson,Monique du Toit,Ricus van Reenen,Beth M. Beadle
Practical Radiation Oncology.2021;11(3)177
[DOI]
2Validated guidelines for tumor delineation on magnetic resonance imaging for laryngeal and hypopharyngeal cancer
Elise Anne Jager,Hans Ligtenberg,Joana Caldas-Magalhaes,Tim Schakel,Marielle E. Philippens,Frank A. Pameijer,Nicolien Kasperts,Stefan M. Willems,Christiaan H. Terhaard,Cornelis P. Raaijmakers
Acta Oncologica.2016;55(11)1305
[DOI]
3Evaluation of the impact of teaching on delineation variation during a virtual stereotactic ablative radiotherapy contouring workshop
Finbar Slevin,Romélie Rieu,Matthew Beasley,Richard Speight,Katharine Aitken,James Good,Fiona McDonald,Thomas Rackley,Ganesh Radhakrishna,Anoop Haridass,Louise J. Murray,Alison C. Tree,Ann M. Henry
Journal of Radiotherapy in Practice.2021;55(11)1
[DOI]
4Performance evaluation of head and neck contour adaptation with cone beam CT using two commercial software systems
Louise S. H. Bendall,Maria Najim,Rachel Stensmyr,Emily Flower,Shan Yau,David I. Thwaites,Jonathan R. Sykes
Acta Oncologica.2015;54(9)1693
[DOI]
5MRI-only based synthetic CT generation using dense cycle consistent generative adversarial networks
Yang Lei,Joseph Harms,Tonghe Wang,Yingzi Liu,Hui-Kuo Shu,Ashesh B. Jani,Walter J. Curran,Hui Mao,Tian Liu,Xiaofeng Yang
Medical Physics.2019;46(8)3565
[DOI]
6The use of six degrees of freedom couch is only clinically beneficial in stereotactic radio surgery
Christopher F. Njeh,Karen C. Snyder,Jing Cai
Medical Physics.2019;46(2)415
[DOI]
7An in-silico quality assurance study of contouring target volumes in thoracic tumors within a cooperative group setting
Hesham Elhalawani,Baher Elgohari,Timothy A. Lin,Abdallah S.R. Mohamed,Thomas J. Fitzgerald,Fran Laurie,Kenneth Ulin,Jayashree Kalpathy-Cramer,Thomas Guerrero,Emma B. Holliday,Gregory Russo,Abhilasha Patel,William Jones,Gary V. Walker,Musaddiq Awan,Mehee Choi,Roi Dagan,Omar Mahmoud,Anna Shapiro,Feng-Ming (Spring) Kong,Daniel Gomez,Jing Zeng,Roy Decker,Femke O.B. Spoelstra,Laurie E. Gaspar,Lisa A. Kachnic,Charles R. Thomas,Paul Okunieff,Clifton D. Fuller
Clinical and Translational Radiation Oncology.2019;15(2)83
[DOI]
8Impact of a Novel Bioabsorbable Implant on Radiation Treatment Planning for Breast Cancer
Michael J. Cross,Gail S. Lebovic,Joseph Ross,Scott Jones,Arnold Smith,Steven Harms
World Journal of Surgery.2017;41(2)464
[DOI]
9Qualitative Evaluation of a Novel 3D Volumetric Radiotherapy Segmentation Tool
Pete Bridge,Andrew Fielding,Pamela Rowntree,Andrew Pullar
Journal of Medical Imaging and Radiation Sciences.2017;48(2)178
[DOI]
10The impact of a radiologist-led workshop on MRI target volume delineation for radiotherapy
Shivani Kumar,Lois Holloway,Dale Roach,Elise Pogson,Jacqueline Veera,Vikneswary Batumalai,Karen Lim,Geoff P. Delaney,Elizabeth Lazarus,Nira Borok,Daniel Moses,Michael G. Jameson,Shalini Vinod
Journal of Medical Radiation Sciences.2018;65(4)300
[DOI]
11MR-guided radiotherapy for prostate cancer: state of the art and future perspectives
Kobika Sritharan,Alison Tree
The British Journal of Radiology.2022;95(1131)300
[DOI]
12Uncertainties in target volume delineation in radiotherapy – are they relevant and what can we do about them?
Barbara Segedin,Primoz Petric
Radiology and Oncology.2016;50(3)254
[DOI]
13Evaluating the potential for maximized T cell redistribution entropy to improve abscopal responses to radiotherapy
Rachel Walker,Jonathan D Schoenfeld,Shari Pilon-Thomas,Jan Poleszczuk,Heiko Enderling
Convergent Science Physical Oncology.2017;3(3)034001
[DOI]
14Imaging strategies in the management of oesophageal cancer: what’s the role of MRI?
Peter S. N. van Rossum,Richard van Hillegersberg,Frederiek M. Lever,Irene M. Lips,Astrid L. H. M. W. van Lier,Gert J. Meijer,Maarten S. van Leeuwen,Marco van Vulpen,Jelle P. Ruurda
European Radiology.2013;23(7)1753
[DOI]
15Imaging strategies in the management of oesophageal cancer: what’s the role of MRI?
Alex Dunlop
European Radiology.2017;23(7)13
[DOI]
16MRI-based radiomics in breast cancer: feature robustness with respect to inter-observer segmentation variability
R. W. Y. Granzier,N. M. H. Verbakel,A. Ibrahim,J. E. van Timmeren,T. J. A. van Nijnatten,R. T. H. Leijenaar,M. B. I. Lobbes,M. L. Smidt,H. C. Woodruff
Scientific Reports.2020;10(1)13
[DOI]
17Automatic planning of head and neck treatment plans
Irene Hazell,Karl Bzdusek,Prashant Kumar,Christian R Hansen,Anders Bertelsen,Jesper G. Eriksen,Jørgen Johansen,Carsten Brink
Journal of Applied Clinical Medical Physics.2016;17(1)272
[DOI]
18Systematic Clinical Evaluation of a Deep Learning Method for Medical Image Segmentation: Radiosurgery Application
Boris Shirokikh,Alexandra Dalechina,Alexey Shevtsov,Egor Krivov,Valery Kostjuchenko,Amayak Durgaryan,Mikhail Galkin,Andrey Golanov,Mikhail Belyaev
IEEE Journal of Biomedical and Health Informatics.2022;26(7)3037
[DOI]
19Generating synthetic CTs from magnetic resonance images using generative adversarial networks
Hajar Emami,Ming Dong,Siamak P. Nejad-Davarani,Carri K. Glide-Hurst
Medical Physics.2018;45(8)3627
[DOI]
20Vendor provided machine data should never be used as a substitute for fully commissioning a linear accelerator
Indra J. Das,Christopher F. Njeh,Colin G. Orton
Medical Physics.2012;39(2)569
[DOI]
21Image similarity evaluation of the bulk-density-assigned synthetic CT derived from MRI of intracranial regions for radiation treatment
Shin-Wook Kim,Hun-Joo Shin,Jin-Ho Hwang,Jin-Sol Shin,Sung-Kwang Park,Jin-Young Kim,Ki-Jun Kim,Chul-Seung Kay,Young-Nam Kang,Qinghui Zhang
PLOS ONE.2017;12(9)e0185082
[DOI]
22MR-Guided Adaptive Radiotherapy for Bladder Cancer
Adham Hijab,Boris Tocco,Ian Hanson,Hanneke Meijer,Christina Junker Nyborg,Anders Smedegaard Bertelsen,Robert Jan Smeenk,Gillian Smith,Jeff Michalski,Brian C. Baumann,Shaista Hafeez
Frontiers in Oncology.2021;11(9)e0185082
[DOI]
23Modeling the propagation of tumor fronts with shortest path and diffusion models—implications for the definition of the clinical target volume
Thomas Bortfeld,Gregory Buti
Physics in Medicine & Biology.2022;67(15)155014
[DOI]
24Modeling the propagation of tumor fronts with shortest path and diffusion models—implications for the definition of the clinical target volume
Willem Grootjans,Jennifer Dhont,Bas Gobets,Dirk Verellen
Physics in Medicine & Biology.2020;67(15)47
[DOI]
25Reduction of inter-observer contouring variability in daily clinical practice through a retrospective, evidence-based intervention
H. M. Patrick,L. Souhami,J. Kildea
Acta Oncologica.2021;60(2)229
[DOI]
26Contour Variability in Thyroid Eye Disease with Compressive Optic Neuropathy Treated with Radiation Therapy
Tavish Nanda,Andrew Sanchez,Juhi Purswani,Cheng-Chia Wu,Michael Kazim,Tony J.C. Wang
Advances in Radiation Oncology.2020;5(5)804
[DOI]
27Accounting for uncertainties in the position of anatomical barriers used to define the clinical target volume
Nadya Shusharina,Jonas Söderberg,David Lidberg,Maximilian Niyazi,Helen A Shih,Thomas Bortfeld
Physics in Medicine & Biology.2021;66(15)15NT01
[DOI]
28Variability in prostate and seminal vesicle delineations defined on magnetic resonance images, a multi-observer, -center and -sequence study
Tufve Nyholm,Joakim Jonsson,Karin Söderström,Per Bergström,Andreas Carlberg,Gunilla Frykholm,Claus F Behrens,Poul Flemming Geertsen,Redas Trepiakas,Scott Hanvey,Azmat Sadozye,Jawaher Ansari,Hazel McCallum,John Frew,Rhona McMenemin,Björn Zackrisson
Radiation Oncology.2013;8(1)15NT01
[DOI]
29Recommendations from GEC ESTRO Breast Cancer Working Group (II): Target definition and target delineation for accelerated or boost partial breast irradiation using multicatheter interstitial brachytherapy after breast conserving open cavity surgery
Tibor Major,Cristina Gutiérrez,Benjamin Guix,Erik van Limbergen,Vratislav Strnad,Csaba Polgár
Radiotherapy and Oncology.2016;118(1)199
[DOI]
30References
Tibor Major,Cristina Gutiérrez,Benjamin Guix,Erik van Limbergen,Vratislav Strnad,Csaba Polgár
Journal of the ICRU.2013;13(1-2)233
[DOI]
31The accuracy of target delineation in laryngeal and hypopharyngeal cancer
Joana Caldas-Magalhaes,Nina Kooij,Hans Ligtenberg,Elise A. Jager,Tim Schakel,Nicolien Kasperts,Frank A. Pameijer,Chris H. J. Terhaard,Luuk M. Janssen,Paul J. van Diest,Marielle E. P. Philippens,Cornelis P. J. Raaijmakers
Acta Oncologica.2015;54(8)1181
[DOI]
32Towards an integral clinical proton dose prediction uncertainty by considering delineation variation
Nils Peters,Ludvig P. Muren
Physics and Imaging in Radiation Oncology.2022;21(8)134
[DOI]
33The effect of image-guided radiation therapy on the margin between the clinical target volume and planning target volume in lung cancer
Jun Liang,Minghui Li,Tao Zhang,Wei Han,Dongfu Chen,Zhouguang Hui,Jima Lv,Zhong Zhang,Yin Zhang,Liansheng Zhang,Rong Zheng,Jianrong Dai,Luhua Wang
Journal of Medical Radiation Sciences.2014;61(1)30
[DOI]
34Variability of clinical target volume delineation for rectal cancer patients planned for neoadjuvant radiotherapy with the aid of the platform Anatom-e
Pierfrancesco Franco,Francesca Arcadipane,Elisabetta Trino,Elena Gallio,Stefania Martini,Giuseppe Carlo Iorio,Cristina Piva,Francesco Moretto,Maria Grazia Ruo Redda,Roberta Verna,Vassiliki Tseroni,Cristina Bona,Gabriele Pozzi,Christian Fiandra,Riccardo Ragona,Oscar Bertetto,Umberto Ricardi
Clinical and Translational Radiation Oncology.2018;11(1)33
[DOI]
35Improved adaptive radiotherapy to adjust for anatomical alterations during curative treatment for locally advanced lung cancer
Maria Moksnes Bjaanæs,Erlend Peter Skaug Sande,Øyvind Loe,Christina Ramberg,Tove Mette Næss,Andreas Ottestad,Lotte V. Rogg,Jørund Graadal Svestad,Vilde Drageset Haakensen
Physics and Imaging in Radiation Oncology.2021;18(1)51
[DOI]
36Correlation of in-vivo imaging with histopathology: A review
Anando Sen,Patricia Troncoso,Aradhana Venkatesan,Mark D. Pagel,Jasper A. Nijkamp,Yulun He,Anne-Cecille Lesage,McKell Woodland,Kristy K. Brock
European Journal of Radiology.2021;144(1)109964
[DOI]
37Clinical implementation of MRI-based organs-at-risk auto-segmentation with convolutional networks for prostate radiotherapy
Mark H. F. Savenije,Matteo Maspero,Gonda G. Sikkes,Jochem R. N. van der Voort van Zyp,Alexis N. T. J. Kotte,Gijsbert H. Bol,Cornelis A. T. van den Berg
Radiation Oncology.2020;15(1)109964
[DOI]
38How rapid advances in imaging are defining the future of precision radiation oncology
Laura Beaton,Steve Bandula,Mark N. Gaze,Ricky A. Sharma
British Journal of Cancer.2019;120(8)779
[DOI]
39MRI-only treatment planning: benefits and challenges
Amir M Owrangi,Peter B Greer,Carri K Glide-Hurst
Physics in Medicine & Biology.2018;63(5)05TR01
[DOI]
40Contour Propagation Using Feature-Based Deformable Registration for Lung Cancer
Yuhan Yang,Shoujun Zhou,Peng Shang,En Qi,Shibin Wu,Yaoqin Xie
BioMed Research International.2013;2013(5)1
[DOI]
41Retrospective Validation and Clinical Implementation of Automated Contouring of Organs at Risk in the Head and Neck: A Step Toward Automated Radiation Treatment Planning for Low- and Middle-Income Countries
Rachel E. McCarroll,Beth M. Beadle,Peter A. Balter,Hester Burger,Carlos E. Cardenas,Sameera Dalvie,David S. Followill,Kelly D. Kisling,Michael Mejia,Komeela Naidoo,Chris L. Nelson,Christine B. Peterson,Karin Vorster,Julie Wetter,Lifei Zhang,Laurence E. Court,Jinzhong Yang
Journal of Global Oncology.2018;2013(4)1
[DOI]
42Functional Imaging for Radiation Treatment Planning, Response Assessment, and Adaptive Therapy in Head and Neck Cancer
Priya Bhatnagar,Manil Subesinghe,Chirag Patel,Robin Prestwich,Andrew F. Scarsbrook
RadioGraphics.2013;33(7)1909
[DOI]
43Accurate FDG PET tumor segmentation using the peritumoral halo layer method: a study in patients with esophageal squamous cell carcinoma
Sungmin Jun,Jung Gu Park,Youngduk Seo
Cancer Imaging.2018;18(1)1909
[DOI]
44Survey of Image Processing Techniques for Brain Pathology Diagnosis: Challenges and Opportunities
Martin Cenek,Masa Hu,Gerald York,Spencer Dahl
Frontiers in Robotics and AI.2018;5(1)1909
[DOI]
45Improved Survival Prediction by Combining Radiological Imaging and S-100B Levels Into a Multivariate Model in Metastatic Melanoma Patients Treated With Immune Checkpoint Inhibition
Simon Burgermeister,Hubert S. Gabrys,Lucas Basler,Sabrina A. Hogan,Matea Pavic,Marta Bogowicz,Julia M. Martínez Gómez,Diem Vuong,Stephanie Tanadini-Lang,Robert Foerster,Martin W. Huellner,Reinhard Dummer,Mitchell P. Levesque,Matthias Guckenberger
Frontiers in Oncology.2022;12(1)1909
[DOI]
46Improving CT quality with optimized image parameters for radiation treatment planning and delivery guidance
Guang-Pei Chen,George Noid,An Tai,Feng Liu,Colleen Lawton,Beth Erickson,X. Allen Li
Physics and Imaging in Radiation Oncology.2017;4(1)6
[DOI]
47Sensitivity of postplanning target and OAR coverage estimates to dosimetric margin distribution sampling parameters
Huijun Xu,J. James Gordon,Jeffrey V. Siebers
Medical Physics.2011;38(2)1018
[DOI]
48Evaluating the repeatability and set-up sensitivity of a large field of view distortion phantom and software for magnetic resonance-only radiotherapy
Jonathan Wyatt,Stephen Hedley,Emily Johnstone,Richard Speight,Charles Kelly,Ann Henry,Susan Short,Louise Murray,David Sebag-Montefiore,Hazel McCallum
Physics and Imaging in Radiation Oncology.2018;6(2)31
[DOI]
49Accelerated Partial Breast Irradiation (APBI): A review of available techniques
Christopher F Njeh,Mark W Saunders,Christian M Langton
Radiation Oncology.2010;5(1)31
[DOI]
50Lung tumor segmentation methods: Impact on the uncertainty of radiomics features for non-small cell lung cancer
Constance A. Owens,Christine B. Peterson,Chad Tang,Eugene J. Koay,Wen Yu,Dennis S. Mackin,Jing Li,Mohammad R. Salehpour,David T. Fuentes,Laurence E. Court,Jinzhong Yang,Yong Fan
PLOS ONE.2018;13(10)e0205003
[DOI]
51Feasibility of magnetic resonance guided radiotherapy for the treatment of bladder cancer
A. Hunt,I. Hanson,A. Dunlop,H. Barnes,L. Bower,J. Chick,C. Cruickshank,E. Hall,T. Herbert,R. Lawes,D. McQuaid,H. McNair,A. Mitchell,J. Mohajer,T. Morgan,U. Oelfke,G. Smith,S. Nill,R. Huddart,S. Hafeez
Clinical and Translational Radiation Oncology.2020;25(10)46
[DOI]
52Target volume delineation and margins in the management of lung cancers in the era of image guided radiation therapy
Robert Lin
Journal of Medical Radiation Sciences.2014;61(1)1
[DOI]
53Multi-institutional study of the variability in target delineation for six targets commonly treated with radiosurgery
Helena Sandström,Hidefumi Jokura,Caroline Chung,Iuliana Toma-Dasu
Acta Oncologica.2018;57(11)1515
[DOI]
54Dosimetric comparison of automatically propagated prostate contours with manually drawn contours in MRI-guided radiotherapy: a step towards a contouring free workflow?
Kobika Sritharan,Alex Dunlop,Jonathan Mohajer,Gillian Adair-Smith,Helen Barnes,Douglas Brand,Emily Greenlay,Adham Hijab,Uwe Oelfke,Angela Pathmanathan,Adam Mitchell,Julia Murray,Simeon Nill,Chris Parker,Nora Sundahl,Alison C. Tree
Clinical and Translational Radiation Oncology.2022;57(11)1515
[DOI]
55Accuracy in contouring of small and low contrast lesions: Comparison between diagnostic quality computed tomography scanner and computed tomography simulation scanner—A phantom study
Yick Wing Ho,Wing Kei Rebecca Wong,Siu Ki Yu,Wai Wang Lam,Hui Geng
Medical Dosimetry.2012;37(4)401
[DOI]
56Internal Fiducial Markers and Susceptibility Effects in MRI—Simulation and Measurement of Spatial Accuracy
Joakim H. Jonsson,Anders Garpebring,Magnus G. Karlsson,Tufve Nyholm
International Journal of Radiation Oncology*Biology*Physics.2012;82(5)1612
[DOI]
57New target volume delineation and PTV strategies to further personalise radiotherapy
David Bernstein,Alexandra Taylor,Simeon Nill,Uwe Oelfke
Physics in Medicine & Biology.2021;66(5)055024
[DOI]
58Adaptive threshold segmentation of pituitary adenomas from FDG PET images for radiosurgery
Hannah M. Thomas T,Devakumar Devadhas,Danie K. Heck,Ari G. Chacko,Grace Rebekah,Regi Oommen,E. James J. Samuel
Journal of Applied Clinical Medical Physics.2014;15(6)279
[DOI]
59Benchmarking of a treatment planning system for spot scanning proton therapy: Comparison and analysis of robustness to setup errors of photon IMRT and proton SFUD treatment plans of base of skull meningioma
R. Harding,P. Trnková,S. J. Weston,J. Lilley,C. M. Thompson,S. C. Short,C. Loughrey,V. P. Cosgrove,A. J. Lomax,D. I. Thwaites
Medical Physics.2014;41(11)111710
[DOI]
60Imaging of oesophageal cancer with FDG-PET/CT and MRI
P.S.N. van Rossum,A.L.H.M.W. van Lier,I.M. Lips,G.J. Meijer,O. Reerink,M. van Vulpen,M.G.E.H. Lam,R. van Hillegersberg,J.P. Ruurda
Clinical Radiology.2015;70(1)81
[DOI]
61The Potential and Pitfalls of Crowdsourced Algorithm Development in Radiation Oncology
Hesham Elhalawani,Clifton David Fuller,Reid F. Thompson
JAMA Oncology.2019;5(5)662
[DOI]
62Quantitative assessment of target delineation variability for thymic cancers: agreement evaluation of a prospective segmentation challenge
Emma Holliday,Clifton D. Fuller,Jayashree Kalpathy-Cramer,Daniel Gomez,Andreas Rimner,Ying Li,Suresh Senan,Lynn D. Wilson,Jehee Choi,Ritsuko Komaki,Charles R. Thomas
Journal of Radiation Oncology.2016;5(1)55
[DOI]
63Uncertainties of target volume delineation in MRI guided adaptive brachytherapy of cervix cancer: A multi-institutional study
Primož Petric,Robert Hudej,Peter Rogelj,Mateja Blas,Kari Tanderup,Elena Fidarova,Christian Kirisits,Daniel Berger,Johannes Carl Athanasios Dimopoulos,Richard Pötter,Taran Paulsen Hellebust
Radiotherapy and Oncology.2013;107(1)6
[DOI]
64Uncertainties of target volume delineation in MRI guided adaptive brachytherapy of cervix cancer: A multi-institutional study
Oliver Jäkel
Radiotherapy and Oncology.2012;320(1)489
[DOI]
65Evaluation of diffusion weighted imaging for tumor delineation in head-and-neck radiotherapy by comparison with automatically segmented 18F-fluorodeoxyglucose positron emission tomography
Tim Schakel,Boris Peltenburg,Jan-Willem Dankbaar,Carlos E. Cardenas,Michalis Aristophanous,Chris H.J. Terhaard,Johannes M. Hoogduin,Marielle E.P. Philippens
Physics and Imaging in Radiation Oncology.2018;5(1)13
[DOI]
66Evaluation of deep learning-based multiparametric MRI oropharyngeal primary tumor auto-segmentation and investigation of input channel effects: Results from a prospective imaging registry
Kareem A. Wahid,Sara Ahmed,Renjie He,Lisanne V. van Dijk,Jonas Teuwen,Brigid A. McDonald,Vivian Salama,Abdallah S.R. Mohamed,Travis Salzillo,Cem Dede,Nicolette Taku,Stephen Y. Lai,Clifton D. Fuller,Mohamed A. Naser
Clinical and Translational Radiation Oncology.2022;32(1)6
[DOI]
67Clinical utility of convolutional neural networks for treatment planning in radiotherapy for spinal metastases
Sebastiaan R.S. Arends,Mark H.F. Savenije,Wietse S.C. Eppinga,Joanne M. van der Velden,Cornelis A.T. van den Berg,Joost J.C. Verhoeff
Physics and Imaging in Radiation Oncology.2022;21(1)42
[DOI]
68Evaluation of treatment plans using target and normal tissue DVHs is no longer appropriate
Christopher F. Njeh,Brent C. Parker,Colin G. Orton
Medical Physics.2015;42(5)2099
[DOI]
69Key Technology Considerations in Developing and Deploying Machine Learning Models in Clinical Radiology Practice
Viraj Kulkarni,Manish Gawali,Amit Kharat
JMIR Medical Informatics.2021;9(9)e28776
[DOI]
70Dosimetric impact of inter-observer variability for 3D conformal radiotherapy and volumetric modulated arc therapy: the rectal tumor target definition case
Francesca Lobefalo,Mario Bignardi,Giacomo Reggiori,Angelo Tozzi,Stefano Tomatis,Filippo Alongi,Antonella Fogliata,Anna Gaudino,Piera Navarria,Luca Cozzi,Marta Scorsetti,Pietro Mancosu
Radiation Oncology.2013;8(1)e28776
[DOI]
71A review of automatic lung tumour segmentation in the era of 4DCT
Nadine Wong Yuzhen,Sarah Barrett
Reports of Practical Oncology & Radiotherapy.2019;24(2)208
[DOI]
72FIELDRT: an open-source platform for the assessment of target volume delineation in radiation therapy
Concetta Piazzese,Elin Evans,Betsan Thomas,John Staffurth,Sarah Gwynne,Emiliano Spezi
The British Journal of Radiology.2021;94(1126)20210356
[DOI]
73Local recurrences after curative IMRT for HNSCC: Effect of different GTV to high-dose CTV margins
Ruta Zukauskaite,Christian R. Hansen,Cai Grau,Eva Samsøe,Jørgen Johansen,Jørgen B.B. Petersen,Elo Andersen,Carsten Brink,Jens Overgaard,Jesper G. Eriksen
Radiotherapy and Oncology.2018;126(1)48
[DOI]
74Evaluating diffusion-weighted magnetic resonance imaging for target volume delineation in head and neck radiotherapy
Michael Cardoso,Myo Min,Michael Jameson,Simon Tang,Christopher Rumley,Allan Fowler,Vanessa Estall,Elise Pogson,Lois Holloway,Dion Forstner
Journal of Medical Imaging and Radiation Oncology.2019;63(3)399
[DOI]
75Variability of gross tumour volume delineation: MRI and CT based tumour and lymph node delineation for lung radiotherapy
Shivani Kumar,Lois Holloway,Miriam Boxer,Mei Ling Yap,Phillip Chlap,Daniel Moses,Shalini Vinod
Radiotherapy and Oncology.2022;167(3)292
[DOI]
76The use of deformable image registration to integrate diagnostic MRI into the radiotherapy planning pathway for head and neck cancer
Robert Chuter,Robin Prestwich,David Bird,Andrew Scarsbrook,Jonathan Sykes,Daniel Wilson,Richard Speight
Radiotherapy and Oncology.2017;122(2)229
[DOI]
77Semi-automatic tumor segmentation of rectal cancer based on functional magnetic resonance imaging
Franziska Knuth,Aurora R. Groendahl,René M. Winter,Turid Torheim,Anne Negård,Stein Harald Holmedal,Kine Mari Bakke,Sebastian Meltzer,Cecilia M. Futsæther,Kathrine R. Redalen
Physics and Imaging in Radiation Oncology.2022;22(2)77
[DOI]
78The influence of automation on tumor contouring
Anet Aselmaa,Marcel van Herk,Yu Song,Richard H. M. Goossens,Anne Laprie
Cognition, Technology & Work.2017;19(4)795
[DOI]
79Modern Radiation Oncology: From IMRT to Particle Therapy—Present Status and the Days to Come
Sarbani Ghosh Laskar,Sangeeta Kakoti
Indian Journal of Medical and Paediatric Oncology.2022;43(01)047
[DOI]
80Segmentation of the prostate and organs at risk in male pelvic CT images using deep learning
Samaneh Kazemifar,Anjali Balagopal,Dan Nguyen,Sarah McGuire,Raquibul Hannan,Steve Jiang,Amir Owrangi
Biomedical Physics & Engineering Express.2018;4(5)055003
[DOI]
81Applications and limitations of machine learning in radiation oncology
Daniel Jarrett,Eleanor Stride,Katherine Vallis,Mark J. Gooding
The British Journal of Radiology.2019;92(1100)20190001
[DOI]
82Critical discussion of evaluation parameters for inter-observer variability in target definition for radiation therapy
I. Fotina,C. Lütgendorf-Caucig,M. Stock,R. Pötter,D. Georg
Strahlentherapie und Onkologie.2012;188(2)160
[DOI]
83Compared planning dosimetry of TOMO, VMAT and IMRT in rectal cancer with different simulated positions
Jang-Chun Lin,Jo-Ting Tsai,Li-Jhen Chen,Ming-Hsien Li,Wei-Hsiu Liu
Oncotarget.2017;8(26)42020
[DOI]
84Applications of Artificial Intelligence to Prostate Multiparametric MRI (mpMRI): Current and Emerging Trends
Michelle D. Bardis,Roozbeh Houshyar,Peter D. Chang,Alexander Ushinsky,Justin Glavis-Bloom,Chantal Chahine,Thanh-Lan Bui,Mark Rupasinghe,Christopher G. Filippi,Daniel S. Chow
Cancers.2020;12(5)1204
[DOI]
85Task group 284 report: magnetic resonance imaging simulation in radiotherapy: considerations for clinical implementation, optimization, and quality assurance
Carri K. Glide-Hurst,Eric S. Paulson,Kiaran McGee,Neelam Tyagi,Yanle Hu,James Balter,John Bayouth
Medical Physics.2021;48(7)1204
[DOI]
86Optimal delineation of the clinical target volume for thymomas in the post-resection setting: A multi-center study
Florit Marcuse,Stephanie Peeters,Kato Herman,Femke Vaassen,Wouter van Elmpt,Alexander P.W.M. Maat,John Praag,Charlotte Billiet,Paul Van Schil,Maarten Lambrecht,Dirk Van Raemdonck,Kim Cao,Madalina Grigoroiu,Nicolas Girard,Monique Hochstenbag,Jos Maessen,Dirk De Ruysscher
Radiotherapy and Oncology.2021;165(7)8
[DOI]
87Prospective Randomized Double-Blind Pilot Study of Site-Specific Consensus Atlas Implementation for Rectal Cancer Target Volume Delineation in the Cooperative Group Setting
Clifton D. Fuller,Jasper Nijkamp,Joop C. Duppen,Coen R.N. Rasch,Charles R. Thomas,Samuel J. Wang,Paul Okunieff,William E. Jones,Daniel Baseman,Shilpen Patel,Carlo G.N. Demandante,Anna M. Harris,Benjamin D. Smith,Alan W. Katz,Camille McGann,Jennifer L. Harper,Daniel T. Chang,Stephen Smalley,David T. Marshall,Karyn A. Goodman,Niko Papanikolaou,Lisa A. Kachnic
International Journal of Radiation Oncology*Biology*Physics.2011;79(2)481
[DOI]
88The use of hyaluronic acid hydrogel as a tumour bed marker in breast-conserving therapy
Judyta Wiercinska,Janusz Winiecki,Anna Wronczewska,Andrzej Lebioda,Krzysztof Plawski,Piotr Rhone,Roman Makarewicz
Radiotherapy and Oncology.2020;152(2)8
[DOI]
89Impact of the introduction of weekly radiotherapy quality assurance meetings at one UK cancer centre
C V Brammer,L Pettit,R Allerton,M Churn,M Joseph,P Koh,I Sayers,M King
The British Journal of Radiology.2014;87(1043)20140422
[DOI]
90Clinical value of (dedicated) 3 Tesla and 7 Tesla MRI for cT1 glottic carcinoma: A feasibility study
Sylvia L. van Egmond,Bernard M.D. Vonck,Johanna J. Bluemink,Frank A. Pameijer,Jan Willem Dankbaar,Inge Stegeman,Marielle E.P. Philippens,Cornelis A.T. van den Berg,Luuk M. Janssen,Chris H. Terhaard
Laryngoscope Investigative Otolaryngology.2019;4(1)95
[DOI]
91Use of auto-segmentation in the delineation of target volumes and organs at risk in head and neck
Jia Yi Lim,Michelle Leech
Acta Oncologica.2016;55(7)799
[DOI]
92Automatic segmentation software in locally advanced rectal cancer: READY (REsearch program in Auto Delineation sYstem)-RECTAL 02: prospective study
Maria A. Gambacorta,Luca Boldrini,Chiara Valentini,Nicola Dinapoli,Gian C. Mattiucci,Giuditta Chiloiro,Danilo Pasini,Stefania Manfrida,Nicola Caria,Bruce D. Minsky,Vincenzo Valentini
Oncotarget.2106;7(27)42579
[DOI]
93Short interactive workshops reduce variability in contouring treatment volumes for spine stereotactic body radiation therapy: Experience with the ESTRO FALCON programme and EduCase™ training tool
Berardino De Bari,Max Dahele,Miika Palmu,Scott Kaylor,Luis Schiappacasse,Matthias Guckenberger
Radiotherapy and Oncology.2018;127(1)150
[DOI]
94Assessing tumor centrality in lung stereotactic ablative body radiotherapy (SABR): the effects of variations in bronchial tree delineation and potential for automated methods
Wsam Ghandourh,Jason Dowling,Phillip Chlap,Andrew Oar,Susannah Jacob,Vikneswary Batumalai,Lois Holloway
Medical Dosimetry.2021;46(1)94
[DOI]
95Development and initial evaluation of a novel 3D volumetric outlining system
Pete Bridge,Andrew Fielding,Andrew Pullar,Pamela Rowntree
Journal of Radiotherapy in Practice.2016;15(1)38
[DOI]
96Assessment of the Impact of Deformable Registration of Diagnostic MRI to Planning CT on GTV Delineation for Radiotherapy for Oropharyngeal Carcinoma in Routine Clinical Practice
Alice Taylor,Mehmet Sen,Robin Prestwich
Healthcare.2018;6(4)135
[DOI]
97Comprehensive MRI simulation methodology using a dedicated MRI scanner in radiation oncology for external beam radiation treatment planning
Eric S. Paulson,Beth Erickson,Chris Schultz,X. Allen Li
Medical Physics.2014;42(1)28
[DOI]
98Coverage-based treatment planning to accommodate delineation uncertainties in prostate cancer treatment
Huijun Xu,J. James Gordon,Jeffrey V. Siebers
Medical Physics.2015;42(9)5435
[DOI]
99PET based volume segmentation with emphasis on the iterative TrueX algorithm
Barbara Knäusl,Albert Hirtl,Georg Dobrozemsky,Helmar Bergmann,Kurt Kletter,Robert Dudczak,Dietmar Georg
Zeitschrift für Medizinische Physik.2012;22(1)29
[DOI]
100Accelerated partial breast irradiation using external beam conformal radiation therapy: A review
Christopher F. Njeh,Mark W. Saunders,Christian M. Langton
Critical Reviews in Oncology/Hematology.2012;81(1)1
[DOI]
101Evaluation of tomotherapy MVCT image enhancement program for tumor volume delineation
Spencer Martin,George Rodrigues,Quan Chen,Simon Pavamani,Nancy Read,Belal Ahmad,J. Alex Hammond,Varagur Venkatesan,James Renaud,Slav Yartsev
Journal of Applied Clinical Medical Physics.2011;12(3)112
[DOI]
102Improving fiducial and prostate capsule visualization for radiotherapy planning usingMRI
Angela U. Pathmanathan,Maria A. Schmidt,Douglas H. Brand,Evanthia Kousi,Nicholas J. As,Alison C. Tree
Journal of Applied Clinical Medical Physics.2019;20(3)27
[DOI]
103Impact of contouring variability on oncological PET radiomics features in the lung
F. Yang,G. Simpson,L. Young,J. Ford,N. Dogan,L. Wang
Scientific Reports.2020;10(1)27
[DOI]
104Visualization of 4D multimodal imaging data and its applications in radiotherapy planning
Matthias Schlachter,Tobias Fechter,Sonja Adebahr,Tanja Schimek-Jasch,Ursula Nestle,Katja Bühler
Journal of Applied Clinical Medical Physics.2017;18(6)183
[DOI]
105Improving Target Definition for Head and Neck Radiotherapy: A Place for Magnetic Resonance Imaging and 18-Fluoride Fluorodeoxyglucose Positron Emission Tomography?
R.J.D. Prestwich,J. Sykes,B. Carey,M. Sen,K.E. Dyker,A.F. Scarsbrook
Clinical Oncology.2012;24(8)577
[DOI]
106Four years with FALCON – An ESTRO educational project: Achievements and perspectives
Jesper Grau Eriksen,Carl Salembier,Sofia Rivera,Berardino De Bari,Daniel Berger,Giovanna Mantello,Arndt-Christian Müller,Arturo Navarro Martin,Danilo Pasini,Kari Tanderup,Miika Palmu,Christine Verfaillie,Richard Pötter,Vincenzo Valentini
Radiotherapy and Oncology.2014;112(1)145
[DOI]
107Atlas-based segmentation technique incorporating inter-observer delineation uncertainty for whole breast
L R Bell,J A Dowling,E M Pogson,P Metcalfe,L Holloway
Journal of Physics: Conference Series.2017;777(1)012002
[DOI]
108Autodelineation of cervical cancers using multiparametric magnetic resonance imaging and machine learning
Turid Torheim,Eirik Malinen,Knut Håkon Hole,Kjersti Vassmo Lund,Ulf G. Indahl,Heidi Lyng,Knut Kvaal,Cecilia M. Futsaether
Acta Oncologica.2017;56(6)806
[DOI]
109The need for, and implementation of, image guidance in radiation therapy
G.S. Ibbott
Annals of the ICRP.2018;47(3-4)160
[DOI]
110The need for, and implementation of, image guidance in radiation therapy
Antonio Diaz-Parra,Estanislao Arana,David Moratal
Annals of the ICRP.2014;47(3-4)5518
[DOI]
111Practice patterns for the radical treatment of nasopharyngeal cancer by head and neck oncologists in the United Kingdom
Imran Petkar,Shreerang Bhide,Kate Newbold,Kevin Harrington,Chris Nutting
The British Journal of Radiology.2018;47(3-4)20170590
[DOI]
112A Systematic Review of the Clinical Implementation of Pelvic Magnetic Resonance Imaging–Only Planning for External Beam Radiation Therapy
David Bird,Ann M. Henry,David Sebag-Montefiore,David L. Buckley,Bashar Al-Qaisieh,Richard Speight
International Journal of Radiation Oncology*Biology*Physics.2019;105(3)479
[DOI]
113A Multiphase Validation of Atlas-Based Automatic and Semiautomatic Segmentation Strategies for Prostate MRI
Spencer Martin,George Rodrigues,Nikhilesh Patil,Glenn Bauman,David D'Souza,Tracy Sexton,David Palma,Alexander V. Louie,Farzad Khalvati,Hamid R. Tizhoosh,Stewart Gaede
International Journal of Radiation Oncology*Biology*Physics.2013;85(1)95
[DOI]
114Prospective International Pilot Study Evaluating the Efficacy of a Self-Guided Contouring Teaching Module With Integrated Feedback for Transitioning From 2D to 3D Treatment Planning
Mustafa Abugideiri,Eduard Schreibmann,Jeffrey Switchenko,Mark W. McDonald,Jonathan J. Beitler,Walter J. Curran,Deborah Bruner,Pretesh Patel,Wondemagegnhu Tigeneh,Miressa Mijena,Sibo Tian,Anees Dhabaan,Natia Esiashvili,Tian Liu,Arif N. Ali
Journal of Global Oncology.2019;85(5)1
[DOI]
115The clinical target distribution: a probabilistic alternative to the clinical target volume
Nadya Shusharina,David Craft,Yen-Lin Chen,Helen Shih,Thomas Bortfeld
Physics in Medicine & Biology.2018;63(15)155001
[DOI]
116End-to-end test of an online adaptive treatment procedure in MR-guided radiotherapy using a phantom with anthropomorphic structures
A Elter,S Dorsch,P Mann,A Runz,W Johnen,C K Spindeldreier,S Klüter,C P Karger
Physics in Medicine & Biology.2019;64(22)225003
[DOI]
117Quantitative Metrics for Assessing Plan Quality
Kevin L. Moore,R. Scott Brame,Daniel A. Low,Sasa Mutic
Seminars in Radiation Oncology.2012;22(1)62
[DOI]
118Using a contextualized sensemaking model for interaction design: A case study of tumor contouring
Anet Aselmaa,Marcel van Herk,Anne Laprie,Ursula Nestle,Irina Götz,Nicole Wiedenmann,Tanja Schimek-Jasch,Francois Picaud,Charlotte Syrykh,Leonel V. Cagetti,Maria Jolnerovski,Yu Song,Richard H.M. Goossens
Journal of Biomedical Informatics.2017;65(1)145
[DOI]
119Quality Assurance in Modern Gynecological HDR-Brachytherapy (Interventional Radiotherapy): Clinical Considerations and Comments
Tamer Soror,Frank-André Siebert,Valentina Lancellotta,Elisa Placidi,Bruno Fionda,Luca Tagliaferri,György Kovács
Cancers.2021;13(4)912
[DOI]
120A multimodality segmentation framework for automatic target delineation in head and neck radiotherapy
Jinzhong Yang,Beth M. Beadle,Adam S. Garden,David L. Schwartz,Michalis Aristophanous
Medical Physics.2015;42(9)5310
[DOI]
121MRI-guided Radiation Therapy: An Emerging Paradigm in Adaptive Radiation Oncology
Ricardo Otazo,Philippe Lambin,Jean-Philippe Pignol,Mark E. Ladd,Heinz-Peter Schlemmer,Michael Baumann,Hedvig Hricak
Radiology.2021;298(2)248
[DOI]
122The future of image-guided radiotherapy will be MR guided
Julianne M Pollard,Zhifei Wen,Ramaswamy Sadagopan,Jihong Wang,Geoffrey S Ibbott
The British Journal of Radiology.2017;90(1073)20160667
[DOI]
123Intra- and inter-physician variability in target volume delineation in radiation therapy
Indra J Das,Julia J Compton,Amishi Bajaj,Peter A Johnstone
Journal of Radiation Research.2021;90(1073)20160667
[DOI]
124Assessment of Image Quality and Dosimetric Performance of CT Simulators
Mohammad Rezaee,Daniel Letourneau
Journal of Medical Imaging and Radiation Sciences.2019;50(2)297
[DOI]
125Implementation of carbon fibre treatment couches in the XiO® and Monaco® Treatment Planning Systems
Christoffel Jacobus Van Reenen,Christoph Jan Trauernicht
Polish Journal of Medical Physics and Engineering.2020;26(4)211
[DOI]
126Multimodality imaging with CT, MR and FDG-PET for radiotherapy target volume delineation in oropharyngeal squamous cell carcinoma
David Bird,Andrew F. Scarsbrook,Jonathan Sykes,Satiavani Ramasamy,Manil Subesinghe,Brendan Carey,Daniel J. Wilson,Neil Roberts,Gary McDermott,Ebru Karakaya,Evrim Bayman,Mehmet Sen,Richard Speight,Robin J.D. Prestwich
BMC Cancer.2015;15(1)211
[DOI]
127Probabilistic definition of the clinical target volume—implications for tumor control probability modeling and optimization
Thomas Bortfeld,Nadya Shusharina,David Craft
Physics in Medicine & Biology.2021;66(1)01NT01
[DOI]
128State-of-the-Art Report: Visual Computing in Radiation Therapy Planning
M. Schlachter,R.G. Raidou,L.P. Muren,B. Preim,P.M. Putora,K. Bühler
Computer Graphics Forum.2019;38(3)753
[DOI]
129A Deep Learning-Based Automated CT Segmentation of Prostate Cancer Anatomy for Radiation Therapy Planning-A Retrospective Multicenter Study
Timo Kiljunen,Saad Akram,Jarkko Niemelä,Eliisa Löyttyniemi,Jan Seppälä,Janne Heikkilä,Kristiina Vuolukka,Okko-Sakari Kääriäinen,Vesa-Pekka Heikkilä,Kaisa Lehtiö,Juha Nikkinen,Eduard Gershkevitsh,Anni Borkvel,Merve Adamson,Daniil Zolotuhhin,Kati Kolk,Eric Pei Ping Pang,Jeffrey Kit Loong Tuan,Zubin Master,Melvin Lee Kiang Chua,Timo Joensuu,Juha Kononen,Mikko Myllykangas,Maigo Riener,Miia Mokka,Jani Keyriläinen
Diagnostics.2020;10(11)959
[DOI]
130Imaging for Target Delineation in Head and Neck Cancer Radiotherapy
Kenneth Jensen,Gina Al-Farra,Danijela Dejanovic,Jesper G. Eriksen,Annika Loft,Christian R. Hansen,Frank A. Pameijer,Ruta Zukauskaite,Cai Grau
Seminars in Nuclear Medicine.2021;51(1)59
[DOI]
131The role of computational methods for automating and improving clinical target volume definition
Jan Unkelbach,Thomas Bortfeld,Carlos E. Cardenas,Vincent Gregoire,Wille Hager,Ben Heijmen,Robert Jeraj,Stine S. Korreman,Roman Ludwig,Bertrand Pouymayou,Nadya Shusharina,Jonas Söderberg,Iuliana Toma-Dasu,Esther G.C. Troost,Eliana Vasquez Osorio
Radiotherapy and Oncology.2020;153(1)15
[DOI]
132Investigating a novel split-filter dual-energy CT technique for improving pancreas tumor visibility for radiation therapy
Lianna D. Di Maso,Jessie Huang,Michael F. Bassetti,Larry A. DeWerd,Jessica R. Miller
Journal of Applied Clinical Medical Physics.2018;19(5)676
[DOI]
133Cross-modality (CT-MRI) prior augmented deep learning for robust lung tumor segmentation from small MR datasets
Jue Jiang,Yu-Chi Hu,Neelam Tyagi,Pengpeng Zhang,Andreas Rimner,Joseph O. Deasy,Harini Veeraraghavan
Medical Physics.2019;46(10)4392
[DOI]
134IGRT has limited clinical value due to lack of accurate tumor delineation
Christopher F. Njeh,Lei Dong,Colin G. Orton
Medical Physics.2013;40(4)040601
[DOI]
135Interobserver Variability in the Delineation of Gross Tumour Volume and Specified Organs-at-risk During IMRT for Head and Neck Cancers and the Impact of FDG-PET/CT on Such Variability at the Primary Site
Shivakumar Gudi,Sarbani Ghosh-Laskar,Jai Prakash Agarwal,Suresh Chaudhari,Venkatesh Rangarajan,Siji Nojin Paul,Rituraj Upreti,Vedang Murthy,Ashwini Budrukkar,Tejpal Gupta
Journal of Medical Imaging and Radiation Sciences.2017;48(2)184
[DOI]
136A novel geometry-dosimetry label fusion method in multi-atlas segmentation for radiotherapy: a proof-of-concept study
Jina Chang,Zhen Tian,Weiguo Lu,Xuejun Gu,Mingli Chen,Steve B Jiang
Physics in Medicine and Biology.2017;62(9)3656
[DOI]
137Improving generalization in MR-to-CT synthesis in radiotherapy by using an augmented cycle generative adversarial network with unpaired data
Kévin N. D. Brou Boni,John Klein,Akos Gulyban,Nick Reynaert,David Pasquier
Medical Physics.2021;48(6)3003
[DOI]
138Intraoperative verification of resection margins of maxillary malignancies by cone-beam computed tomography
O. Ivashchenko,B. Pouw,J.K. de Witt,E. Koudounarakis,J. Nijkamp,R.L.P. van Veen,T.J.M. Ruers,B.M. Karakullukcu
British Journal of Oral and Maxillofacial Surgery.2019;57(2)174
[DOI]
 
  Search this journal
    
  Advance Search
 
  Editorial Board 
  The Journal 
  The Association 
  Alerting 
  Feedback 
  Contact Us 

Submit Articles

Alerts