ESTRO meets Asia 2024 - Abstract Book

S361

RTT – Patient care, preparation, immobilisation and IGRT verification protocols

ESTRO meets Asia 2024

1. Thamronganantasakul K, Supakalin N, Kietpeerakool C, Pattanittum P, Lumbiganon P. Extended ‐ field radiotherapy for locally advanced cervical cancer. Cochrane Database of Systematic Reviews. 2018(10).

2. Portelance L, Chao KC, Grigsby PW, Bennet H, Low D. Intensity-modulated radiation therapy (IMRT) reduces small bowel, rectum, and bladder doses in patients with cervical cancer receiving pelvic and para-aortic irradiation. International Journal of Radiation Oncology* Biology* Physics. 2001;51(1):261-6. 3. Chen W, Bai P, Pan J, Xu Y, Chen K. Changes in tumor volumes and spatial locations relative to normal tissues during cervical cancer radiotherapy assessed by cone beam computed tomography. Technology in cancer research & treatment. 2017;16(2):246-52. 4. Albuquerque K, Giangreco D, Morrison C, Siddiqui M, Sinacore J, Potkul R, et al. Radiation-related predictors of hematologic toxicity after concurrent chemoradiation for cervical cancer and implications for bone marrow– sparing pelvic IMRT. International Journal of Radiation Oncology* Biology* Physics. 2011;79(4):1043-7. 5. Mell LK, Kochanski JD, Roeske JC, Haslam JJ, Mehta N, Yamada SD, et al. Dosimetric predictors of acute hematologic toxicity in cervical cancer patients treated with concurrent cisplatin and intensity-modulated pelvic radiotherapy. International Journal of Radiation Oncology* Biology* Physics. 2006;66(5):1356-65. 6. Kim YS, Kim JH, Do Ahn S, Lee S-w, Shin SS, Nam J-H, et al. High-dose extended-field irradiation and high dose-rate brachytherapy with concurrent chemotherapy for cervical cancer with positive para-aortic lymph nodes. International Journal of Radiation Oncology* Biology* Physics. 2009;74(5):1522-8. 7. Sood BM, Gorla GR, Garg M, Anderson PS, Fields AL, Runowicz CD, et al. Extended ‐ field radiotherapy and high–dose ‐ rate brachytherapy in carcinoma of the uterine cervix: Clinical experience with and without concomitant chemotherapy. Cancer: Interdisciplinary International Journal of the American Cancer Society. 2003;97(7):1781-8. 8. Jou J, Coulter E, Roberts T, Binder P, Saenz C, McHale M, et al. Assessment of malnutrition by unintentional weight loss and its implications on oncologic outcomes in patient with locally advanced cervical cancer receiving primary chemoradiation. Gynecologic oncology. 2021;160(3):721-8. 9. Andreou L, Burrows T, Surjan Y. The effect of nutritional interventions involving dietary counselling on gastrointestinal toxicities in adults receiving pelvic radiotherapy–A systematic review. Journal of medical radiation sciences. 2021;68(4):453-64.

10. Asfia A, Novak JI, Mohammed MI, Rolfe B, Kron T. A review of 3D printed patient specific immobilisation devices in radiotherapy. Physics and imaging in radiation oncology. 2020;13:30-5.

11. Dieterich S, Ford E, Pavord D, Zeng J. Chapter 6-Immobilization Techniques in Radiotherapy. Practical Radiat Oncol Phys Philadelphia: Elsevier. 2016:87-94.

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Digital Poster

Analysis of factors causing cancer patients to discontinue radiotherapy in a Taiwan medical center

Huei-Fang Yang 1 , Hsiu-Man Chan 1 , Ya-Fang ke 1 , Pei-Fang Tsai 1 , Yueh-Chun Lee 2,3