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Efficient approach for determining four-dimensional computed tomography-based internal target volume in stereotactic radiotherapy of lung cancer
Seung-Gu Yeo, Eun Seog Kim
Radiation Oncology Journal. 2013;31(4):247-251.   Published online 2013 December 31    DOI: https://doi.org/10.3857/roj.2013.31.4.247

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Efficient approach for determining four-dimensional computed tomography-based internal target volume in stereotactic radiotherapy of lung cancer
Seung-Gu Yeo, Eun Seog Kim
Radiation Oncology Journal. 2013;31(4):247   Crossref logo
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Comparison of internal target volume delineation using CT datasets of four-dimensional computed tomography in lung cancer radiotherapy
S. Bushra, A. Tibdewal, N. Mummudi, R. Kinhikar, Y. Ghadi, J.P. Agarwal
Annals of Oncology. 2019;30:ii21   Crossref logo
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Investigation of approaches for internal target volume definition using 4-dimensional computed tomography in stereotactic body radiotherapy of lung cancer
Canan Koksal, Nazmiye Donmez Kesen, Murat Okutan, Sule Karaman, Nergiz Dagoglu Sakin, Hatice Bilge
Medical Dosimetry. 2021;46(2):136-142   Crossref logo
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Time-Adjusted Internal Target Volume (TTV) based on Four-Dimensional Computed Tomography (4D-CT) for Radiotherapy Planning of Lung Cancer
I. Nishibuchi, T. Kimura, T. Nakashima, Y. Ochi, Y. Murakami, M. Kenjo, Y. Kaneyasu, Y. Nagata
International Journal of Radiation Oncology*Biology*Physics. 2010;78(3):S535   Crossref logo
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Both four-dimensional computed tomography and four-dimensional cone beam computed tomography under-predict lung target motion during radiotherapy
Elisabeth Steiner, Chun-Chien Shieh, Vincent Caillet, Jeremy Booth, Ricky O'Brien, Adam Briggs, Nicholas Hardcastle, Dasantha Jayamanne, Kathryn Szymura, Thomas Eade, Paul Keall
Radiotherapy and Oncology. 2019;135:65-73   Crossref logo
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Defining Target Volumes for Stereotactic Ablative Radiotherapy of Early-stage Lung Tumours: A Comparison of Three-dimensional 18F-fluorodeoxyglucose Positron Emission Tomography and Four-dimensional Computed Tomography
G.G. Hanna, J.R. van Sörnsen de Koste, M.R. Dahele, K.J. Carson, C.J.A. Haasbeek, R. Migchielsen, A.R. Hounsell, S. Senan
Clinical Oncology. 2012;24(6):e71-e80   Crossref logo
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Usefulness of target delineation based on the two extreme phases of a four-dimensional computed tomography scan in stereotactic body radiation therapy for lung cancer
Seong Soon Jang, Gil Ja Huh, Suk Young Park, Po Song Yang, EunYoun Cho
Thoracic Cancer. 2015;6(3):239-246   Crossref logo
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187 Is imaging with co-registered positron emission tomography and computed tomography (PET-CT) superior to computed tomography (CT) alone for determining the gross tumour volume (GTV) and clinical target volume (CTV) in radical conformal radiotherapy for non-small cell lung cancer (NSCLC)?
M. Dahele, G. Darling, M. Tsao, D. Hwang, M. Yaffe, L. Ehrlich, K. Mah, H. Miller, S. Raphael, Y. Ung
Radiotherapy and Oncology. 2006;80:S54-S55   Crossref logo
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The accuracy of extracted target motion trajectories in four-dimensional cone-beam computed tomography for lung cancer patients
Hiraku Iramina, Mitsuhiro Nakamura, Yusuke Iizuka, Takamasa Mitsuyoshi, Yukinori Matsuo, Takashi Mizowaki, Masahiro Hiraoka, Ikuo Kanno
Radiotherapy and Oncology. 2016;121(1):46-51   Crossref logo
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Variation in Lung Tumour Breathing Motion between Planning Four-dimensional Computed Tomography and Stereotactic Ablative Radiotherapy Delivery and its Dosimetric Implications: Any Role for Four-dimensional Set-up Verification?
J.D. Ruben, A. Seeley, V. Panettieri, T. Ackerly
Clinical Oncology. 2016;28(1):21-27   Crossref logo
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