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PUBMED FOR HANDHELDS

Journal Abstract Search


154 related items for PubMed ID: 9369132

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  • 4. Magnetic resonance imaging (MRI) compared with computed tomography (CT) for interobserver agreement of gross tumor volume delineation in pancreatic cancer: a multi-institutional contouring study on behalf of the AIRO group for gastrointestinal cancers.
    Caravatta L, Cellini F, Simoni N, Rosa C, Niespolo RM, Lupattelli M, Picardi V, Macchia G, Sainato A, Mantello G, Dionisi F, Rosetto ME, Fusco V, Navarria F, De Paoli A, Guido A, Vecchi C, Basilico R, Cianci R, Delli Pizzi A, Di Nicola M, Mattiucci GC, Valentini V, Morganti AG, Genovesi D.
    Acta Oncol; 2019 Apr; 58(4):439-447. PubMed ID: 30632876
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  • 5. Target Volume Delineation Based on Diffusion-weighted magnetic Resonance Imaging for Locally Advanced Head and Neck Cancer.
    DE Felice F, Musio D, Bulzonetti N, Maghella F, Tombolini V.
    Anticancer Res; 2016 Aug; 36(8):4181-5. PubMed ID: 27466529
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  • 6. Interobserver variations in gross tumor volume delineation of brain tumors on computed tomography and impact of magnetic resonance imaging.
    Weltens C, Menten J, Feron M, Bellon E, Demaerel P, Maes F, Van den Bogaert W, van der Schueren E.
    Radiother Oncol; 2001 Jul; 60(1):49-59. PubMed ID: 11410304
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  • 7. Interobserver and intermodality variability in GTV delineation on simulation CT, FDG-PET, and MR Images of Head and Neck Cancer.
    Anderson CM, Sun W, Buatti JM, Maley JE, Policeni B, Mott SL, Bayouth JE.
    Jacobs J Radiat Oncol; 2014 Sep; 1(1):006. PubMed ID: 25568889
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  • 8. Impact of FDG-PET/CT fused imaging on tumor volume assessment of head-and-neck squamous cell carcinoma: intermethod and interobserver variations.
    Murakami R, Uozumi H, Hirai T, Nishimura R, Katsuragawa S, Shiraishi S, Toya R, Tashiro K, Kawanaka K, Oya N, Tomiguchi S, Yamashita Y.
    Acta Radiol; 2008 Jul; 49(6):693-9. PubMed ID: 18568563
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  • 9. Evaluating diffusion-weighted magnetic resonance imaging for target volume delineation in head and neck radiotherapy.
    Cardoso M, Min M, Jameson M, Tang S, Rumley C, Fowler A, Estall V, Pogson E, Holloway L, Forstner D.
    J Med Imaging Radiat Oncol; 2019 Jun; 63(3):399-407. PubMed ID: 30816646
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  • 12. High-grade glioma radiation therapy target volumes and patterns of failure obtained from magnetic resonance imaging and 18F-FDOPA positron emission tomography delineations from multiple observers.
    Kosztyla R, Chan EK, Hsu F, Wilson D, Ma R, Cheung A, Zhang S, Moiseenko V, Benard F, Nichol A.
    Int J Radiat Oncol Biol Phys; 2013 Dec 01; 87(5):1100-6. PubMed ID: 24161427
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  • 14. Reduction of observer variation using matched CT-PET for lung cancer delineation: a three-dimensional analysis.
    Steenbakkers RJ, Duppen JC, Fitton I, Deurloo KE, Zijp LJ, Comans EF, Uitterhoeve AL, Rodrigus PT, Kramer GW, Bussink J, De Jaeger K, Belderbos JS, Nowak PJ, van Herk M, Rasch CR.
    Int J Radiat Oncol Biol Phys; 2006 Feb 01; 64(2):435-48. PubMed ID: 16198064
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  • 15. Comparison of five segmentation tools for 18F-fluoro-deoxy-glucose-positron emission tomography-based target volume definition in head and neck cancer.
    Schinagl DA, Vogel WV, Hoffmann AL, van Dalen JA, Oyen WJ, Kaanders JH.
    Int J Radiat Oncol Biol Phys; 2007 Nov 15; 69(4):1282-9. PubMed ID: 17967318
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  • 17. MRI to delineate the gross tumor volume of nasopharyngeal cancers: which sequences and planes should be used?
    Popovtzer A, Ibrahim M, Tatro D, Feng FY, Ten Haken RK, Eisbruch A.
    Radiol Oncol; 2014 Sep 15; 48(3):323-30. PubMed ID: 25177248
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  • 19. The contribution of integrated PET/CT to the evolving definition of treatment volumes in radiation treatment planning in lung cancer.
    Ashamalla H, Rafla S, Parikh K, Mokhtar B, Goswami G, Kambam S, Abdel-Dayem H, Guirguis A, Ross P, Evola A.
    Int J Radiat Oncol Biol Phys; 2005 Nov 15; 63(4):1016-23. PubMed ID: 15979817
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