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Journal Abstract Search

839 related items for PubMed ID: 25884892

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  • 3. Impact of tumour motion compensation and delineation methods on FDG PET-based dose painting plan quality for NSCLC radiation therapy.
    Thomas HM, Kinahan PE, Samuel JJE, Bowen SR.
    J Med Imaging Radiat Oncol; 2018 Feb; 62(1):81-90. PubMed ID: 29193781
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  • 5. Impact of planned dose reporting methods on Gamma pass rates for IROC lung and liver motion phantoms treated with pencil beam scanning protons.
    Kang Y, Shen J, Liu W, Taylor PA, Mehrens HS, Ding X, Hu Y, Tryggestad E, Keole SR, Schild SE, Wong WW, Fatyga M, Bues M.
    Radiat Oncol; 2019 Jun 17; 14(1):108. PubMed ID: 31208439
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  • 6. Generating lung tumor internal target volumes from 4D-PET maximum intensity projections.
    Lamb JM, Robinson C, Bradley J, Laforest R, Dehdashti F, White BM, Wuenschel S, Low DA.
    Med Phys; 2011 Oct 17; 38(10):5732-7. PubMed ID: 21992387
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  • 7. PET motion compensation for radiation therapy using a CT-based mid-position motion model: methodology and clinical evaluation.
    Kruis MF, van de Kamer JB, Houweling AC, Sonke JJ, Belderbos JS, van Herk M.
    Int J Radiat Oncol Biol Phys; 2013 Oct 01; 87(2):394-400. PubMed ID: 23910710
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  • 8. Quantifying the impact of respiratory-gated 4D CT acquisition on thoracic image quality: a digital phantom study.
    Bernatowicz K, Keall P, Mishra P, Knopf A, Lomax A, Kipritidis J.
    Med Phys; 2015 Jan 01; 42(1):324-34. PubMed ID: 25563272
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  • 9. 4D VMAT planning and verification technique for dynamic tracking using a direct aperture deformation (DAD) method.
    Zhang Y, Yang Y, Fu W, Li X, Li T, Heron DE, Huq MS.
    J Appl Clin Med Phys; 2017 Mar 01; 18(2):50-61. PubMed ID: 28300367
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  • 10. Planning 4D intensity-modulated arc therapy for tumor tracking with a multileaf collimator.
    Niu Y, Betzel GT, Yang X, Gui M, Parke WC, Yi B, Yu CX.
    Phys Med Biol; 2017 Feb 21; 62(4):1480-1500. PubMed ID: 28052050
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  • 11. Geometric validation of self-gating k-space-sorted 4D-MRI vs 4D-CT using a respiratory motion phantom.
    Yue Y, Fan Z, Yang W, Pang J, Deng Z, McKenzie E, Tuli R, Wallace R, Li D, Fraass B.
    Med Phys; 2015 Oct 21; 42(10):5787-97. PubMed ID: 26429253
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  • 12. Optimized PET imaging for 4D treatment planning in radiotherapy: the virtual 4D PET strategy.
    Gianoli C, Riboldi M, Fontana G, Giri MG, Grigolato D, Ferdeghini M, Cavedon C, Baroni G.
    Technol Cancer Res Treat; 2015 Feb 21; 14(1):99-110. PubMed ID: 24325135
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  • 13. Experimental evaluations of the accuracy of 3D and 4D planning in robotic tracking stereotactic body radiotherapy for lung cancers.
    Chan MK, Kwong DL, Ng SC, Tong AS, Tam EK.
    Med Phys; 2013 Apr 21; 40(4):041712. PubMed ID: 23556882
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  • 16. Dynamic volume vs respiratory correlated 4DCT for motion assessment in radiation therapy simulation.
    Coolens C, Bracken J, Driscoll B, Hope A, Jaffray D.
    Med Phys; 2012 May 21; 39(5):2669-81. PubMed ID: 22559637
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  • 17. Evaluation of image guided motion management methods in lung cancer radiotherapy.
    Zhuang L, Yan D, Liang J, Ionascu D, Mangona V, Yang K, Zhou J.
    Med Phys; 2014 Mar 21; 41(3):031911. PubMed ID: 24593729
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  • 18. Dosimetric Consequences of 3D Versus 4D PET/CT for Target Delineation of Lung Stereotactic Radiotherapy.
    Siva S, Chesson B, Callahan JW, Hardcastle N, Crawford L, Antippa P, Wright G, MacManus MP, Hicks RJ, Kron T, Ball DL.
    J Thorac Oncol; 2015 Jul 21; 10(7):1112-5. PubMed ID: 26134229
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  • 19. PET/CT-guided biopsy with respiratory motion correction.
    Zhang R, Zukić D, Byrd DW, Enquobahrie A, Alessio AM, Cleary K, Banovac F, Kinahan PE.
    Int J Comput Assist Radiol Surg; 2019 Dec 21; 14(12):2187-2198. PubMed ID: 31512193
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  • 20. Advances in 4D medical imaging and 4D radiation therapy.
    Li G, Citrin D, Camphausen K, Mueller B, Burman C, Mychalczak B, Miller RW, Song Y.
    Technol Cancer Res Treat; 2008 Feb 21; 7(1):67-81. PubMed ID: 18198927
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