Journal of Peking University (Health Sciences) ›› 2020, Vol. 52 ›› Issue (4): 688-691. doi: 10.19723/j.issn.1671-167X.2020.04.017

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Individual control of urine volume to improve stability of bladder volume in radiotherapy of urinary tumor

Hao WANG1,Shu-kun JIANG1,Ran PENG1,Yi HUANG2,(),Ming-qing WANG1,Jun-jie WANG1,Cheng LIU2,Fan ZHANG2,Lu-lin MA2   

  1. 1. Department of Radiation Oncology, Peking University Third Hospital, Beijing 100191, China
    2. Department of Urology, Peking University Third Hospital, Beijing 100191, China
  • Received:2020-03-16 Online:2020-08-18 Published:2020-08-06
  • Contact: Yi HUANG E-mail:pku_huang@163.com
  • Supported by:
    Clinical Key Projects of Peking University Third Hospital(BYSY2018012)

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Abstract:

Objective: To explore the training mode of individual urine volume control, to take indi-vidual expected urine volume as the goal of bladder control in patients with urinary system tumors, and to improve the accuracy of bladder control during radiotherapy by active training of bladder receptivity. Methods: Twenty-five patients of urinary system tumors were enrolled from May 2019 to September 2019, of whom, 21 patients had prostate cancer, and 4 had bladder cancer. Training of bladder filling started before CT simulation. The patients were required to take the individual bladder filling as the training goal, and the optimal bladder volume range was suggested to be 200-400 mL. After 2-4 weeks of training, the prescribed volume of the bladder was determined according to the patient’s bladder receptivity. The volume of the bladder was measured by images of plain CT and images 8-minutes after intravenous contrast injection. The patient’s bladder volume was measured using BladderScan before treatment. CBCT (Cone-beam CT) was performed, and bladder volume was measured before treatment. The bladder volume was measured again using BladderScan after treatment. Results: The mean bladder volume of simulation (VCT01) was (262±130) mL, ranging from 78 mL to 505 mL. The mean self-evaluation bladder volume before radiotherapy (VEVA01) was (238±107) mL, ranging from 100 mL to 400 mL. The mean BladderScan measured volume before radiotherapy (VBVI01) was (253±123) mL, ranging from 60 mL to 476 mL. The mean cone-beam CT measured volume before radiotherapy (VCBCT) was (270±120) mL, ranging from 104 mL to 513 mL. There was a correlation between VEVA01 and VBVI01, VCT01 and VBVI01, VCT01, and VBVI01, and there was no significant difference in paired t-test. There was a correlation between differences of self-evaluation bladder volume before radiotherapy(VEVA01) and simulation CT (VCT01) and differences of self-evaluation bladder volume before radiotherapy (VEVA01) and cone-beam CT (VCBCT), and there was no significant difference in paired samples by t-test. Conclusion: During radiotherapy for urinary system tumors, such as prostate cancer and bladder cancer, with the assistance of BladderScan, the patients could try to hold their urine moderately according to their conditions, and individualized bladder prescription may be beneficial to achieve stable bladder volume during radiotherapy.

Key words: Bladder volume, Radiotherapy, Urinary system tumor, Ultrasound scanner

CLC Number: 

  • R737

Table 1

Comparation of bladder volume of BladderScan, simulation CT and CBCT"

Items Correlation analysis Paired t test
Correlation index P value t value P value 95%CI
VCT01 vs. VBVI01 0.915 <0.001 0.890 0.382 -12.295-30.935
VBVI01 vs. VCBCT 0.940 <0.001 -2.506 0.081 -34.947-6.712
VCT01 vs. VCBCT 0.912 <0.001 -0.762 0.453 -30.099-13.859

Table 2

Difference comparation of bladder volume between BladderScan, simulation CT and CBCT"

Items Correlation analysis Paired t test
Correlation index P value t value P value 95%CI
VCT01-VBVI01 vs. VCT01-VCBCT 0.480 0.015 -0.431 0.670 -19.449- 12.729
VCT01-VBVI01 vs. VCBCT-VBVI01 0.226 0.277 -0.272 0.788 -19.566-15.006
VCT01-VCT02 vs. VBVI01-VBVI02 0.595 0.002 1.642 0.114 -3.235-28.435
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