Bladder Filling Variation in Cancer Cervix Patients Treated by Image Guided Radiation Therapy
DOI:
https://doi.org/10.30683/1927-7229.2025.14.12Keywords:
Cervix cancer, Bladder filling, Cone Beam CT, Image Guided Radiation TherapyAbstract
Variable bladder filling during radiotherapy for carcinoma cervix significantly affects the position of target volumes to be treated. This directly impacts the precision with which advanced radiotherapy plans are delivered using specific margins to target volumes. The aim is to study mean bladder volumes and mean range of bladder motion in all three dimensions in patients of carcinoma cervix treated with Image guided radiation therapy (IGRT), and compare them to the baseline planning Computed tomography (CT) scans. For this, a total number of 25 patients/ 150 CT scans, i.e. 25 planning scan and 125 CBCT (cone-beam CT) were analyzed. The bladder volumes and bladder wall dimension were analyzed using offline views of CBCT imaging, conducted weekly for cervix cancer patients, thus adding considerable understanding to the bladder wall motions. The mean bladder volume for all 25 patients was 263.41 cc with standard deviation of 110.174 cc. When mean CBCT bladder volumes of each patient were compared to their respective planning CT bladder volumes, P was found to be insignificant (p=0.25), showing consistent bladder filling or reproducibility during treatment. The mean ± standard deviation of bladder’s transverse, anteroposterior and supero-inferior dimension was 9.55 ± 0.923 cm; 6.92 ± 2.387 cm and 7.22 ± 0.967 cm. The mean supero-inferior bladder diameter had significant variation from that of the planning CT (7.84 ± 2.749 cm vs 6.92 ± 2.387) with p = 0.018. This study shows that more liberal margins should be considered in supero-inferior dimensions and considerable lesser margins could be given on the lateral sides, as there is less displacement in transverse diameter.
References
[1] Ahmad R, Hoogeman MS, Quint S, Mens JW, de Pree I, Heijmen BJ. Inter-fraction bladder filling variations and time trends for cervical cancer patients assessed with a portable 3-dimensional ultrasound bladder scanner. Radiother Oncol 2008; 89: 172-9.
[2] Pos FJ, Koedooder K, Hulshof MC, van Tienhoven G, González González D. Influence of bladder and rectal volume on spatial variability of a bladder tumor during radical radiotherapy. Int J Radiat Oncol Biol Phys 2003; 55: 835-41.
[3] Lim K, Small Jr W, Portelance L, Creutzberg C, Jürgenliemk-Schulz IM, Mundt A, Mell LK, et al. Consensus guidelines for delineation of clinical target volume for intensity-modulated pelvic radiotherapy for the definitive treatment of cervix cancer. Inter J Rad Onc Bio Phy 2011; 79(2): 348-55.
[4] IBM Corp. IBM SPSS Statistics for Windows, Version 26.0. Armonk, NY: IBM Corp 2019.
[5] Liu H, Zhang Z, Guo X, Wang T, Hu J, Shao J, Chi F, He H. The Effect of Bladder and Rectum Volume Changes on Exposed Organ Volume During Intensity-Modulated Radiotherapy for Cervical Cancer. Clinical Medicine Insights: Oncology 2025; 19: 11795549251377910.
[6] Yee D, Parliament M, Rathee S, Ghosh S, Ko L, Murray B. Cone beam CT imaging analysis of interfractional variations in bladder volume and position during radiotherapy for bladder cancer. Int J Radiat Oncol Biol Phys 2010; 76: 1045-53.
[7] Nishioka K, Shimizu S, Kinoshita R, Inoue T, Onodera S, Yasuda K, et al. Evaluation of inter-observer variability of bladder boundary delineation on cone-beam CT. Radiat Oncol 2013; 8: 185.
[8] Jhingran A, Salehpour M, Sam M, Levy L, Eifel PJ. Vaginal motion and bladder and rectal volumes during pelvic intensity-modulated radiation therapy after hysterectomy. Int J Radiat Oncol Biol Phys 2012; 82: 256-62.
[9] Wang J, Li T, Xing L. Low-dose CBCT imaging for external beam radiotherapy. Int J Radiat Oncol Biol Phys 2008; 72: S109-10.
[10] Fokdal L, Honoré H, Høyer M, Meldgaard P, Fode K, von der Maase H.Impact of changes in bladder and rectal filling volume on organ motion and dose distribution of the bladder in radiotherapy for urinary bladder cancer. Int J Radiat Oncol Biol Phys 2004; 59: 436-44.
[11] Shah M, Agarwal S, Agarwal R, Subramanian B, Gupta S, De S, Mishra S. Observational study of cone beam computed tomography based interfractional urinary bladder filling variation during image guided radiation therapy in pelvic malignancies. Journal of Cancer Research and Therapeutics 2021; 17(1): 152-6.
[12] Nanda DS, Meher DP, Mishra DS, Parihar DA, Dhakar DM. Observational Study Based on Interfractional Urinary Bladder Filling Variations during Image Guided Radiotherapy in Cervical Cancer Patients Using Cone Beam Computed Tomography. International Journal of Radiation Oncology, Biology, Physics 2024; 120(2): e92.
[13] Zhang F, Zhou M, Wang G, Li X, Yue L, Deng L et al. Evaluation of bladder filling effects on the dose distribution during radiotherapy for cervical cancer based on daily CT images. Journal of Applied Clinical Medical Physics 2023; 24(11): e14097.
[14] Wang H, Li Z, Shi D, Yin P, Liang B, Zou J et al. Assessing intra-and interfraction motion and its dosimetric impacts on cervical cancer adaptive radiotherapy based on 1.5 T MR-Linac. Radiation Oncology 2024; 19(1): 176.
[15] Koca T, AKSOY R, Atak E, Kizilkaya M, BİLEK Y, Tunçel N et al. Evaluation of the Dosimetric Effects of Bladder and Rectum Filling in Patients with Gynecologic Cancer Receiving Adjuvant Radiotherapy. Turk Onkoloji Dergisi 2025; 40(1).
[16] Nair SR, Gupta S, Krishnan AS, Chophy A, Rastogi A, Kumar RR, Namitha RS, Joseph DM, Gupta M. Volumetric and Dosimetric Changes in Bladder and Rectum and Target During Intensity-Modulated Radiotherapy in Patients of Locally Advanced Carcinoma Cervix. Indian Journal of Gynecologic Oncology 2025; 23(1): 31.
[17] Fischer J, Fischer LA, Bensberg J, Bojko N, Bouabdallaoui M, Frohn J, Hüttenrauch P, Klingebiel M, Schmitt D, Tegeler K, Wagner D. CBCT-based online adaptive radiotherapy of the bladder–geometrical and dosimetrical considerations compared to conventional IGRT. Radiation Oncology 2025; 20(1): 128.
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