• Title of article

    Dosimetric uncertainties related to the elasticity of bladder and rectal walls: Adenocarcinoma of the prostate

  • Author/Authors

    Voyant، نويسنده , , C. and Biffi، نويسنده , , K. and Leschi، نويسنده , , D. and Briançon، نويسنده , , J. and Lantieri، نويسنده , , C.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2011
  • Pages
    9
  • From page
    270
  • To page
    278
  • Abstract
    Purpose herapy is an important treatment for prostate cancer. During treatment sessions, bladder and rectal repletion is difficult to quantify and cannot be measured with a single and initial CT scan acquisition. Some methods, such as image-guided radiation therapy and dose-guided radiation therapy, aim to compensate this missing information through periodic CT acquisitions. The aim is to adapt patientʹs position, beam configuration or prescribed dose for a dosimetric compliance. s luated organ motion (and repletion) for 54 patients after having computed the original ballistic on a new CT scan acquisition. A new delineation was done on the prostate, bladder and rectum to determine the new displacements and define organ doses mistakes (equivalent uniform dose, average dose and dose–volume histograms). s w CT acquisitions confirmed that bladder and rectal volumes were not constant during sessions. Some cases showed that previously validated treatment plan became unsuitable. A proposed solution is to correct dosimetries when bladder volume modifications are significant. The result is an improvement for the stability of bladder doses, D50 error is reduced by 25.3%, mean dose error by 5.1% and equivalent uniform dose error by 2.6%. For the rectum this method decreases errors by only 1%. This process can reduce the risk of mismatch between the initial scan and following treatment sessions. sion e proposed method, the cone-beam CT is necessary to properly position the isocenter and to quantify bladder and rectal volume variation and deposited doses. The dosimetries are performed in the event that bladder (or rectum) volume modification limits are exceeded. To identify these limits, we have calculated that a tolerance of 10% for the equivalent uniform dose (compared to the initial value of the first dosimetry), this represents 11% of obsolete dosimetries for the bladder, and 4% for the rectum.
  • Keywords
    Rectum , radiotherapy , pelvis , Bladder , DGRT , Erreur de positionnement , Mouvement des organes , Marges , IGRT , Rectum , Setup error , pelvis , margin , organ motion , DGRT , Vessie , prostate , Radiothérapie , IGRT , prostate
  • Journal title
    Cancer Radiotherapie
  • Serial Year
    2011
  • Journal title
    Cancer Radiotherapie
  • Record number

    1846970