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SU‐GG‐J‐52: Inclusion of KV CBCT Dose in the Patient Treatment Plans and Evaluation of Dose to Normal Tissue and Critical Organs
Author(s) -
Alaei P,
Spezi E,
Downes P,
Jarvis R,
Radu E,
Reynolds M
Publication year - 2010
Publication title -
medical physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.473
H-Index - 180
eISSN - 2473-4209
pISSN - 0094-2405
DOI - 10.1118/1.3468276
Subject(s) - radiation treatment planning , imaging phantom , pinnacle , head and neck , nuclear medicine , cone beam computed tomography , cone beam ct , medicine , image guided radiation therapy , dosimetry , medical physics , medical imaging , radiation therapy , computed tomography , radiology , surgery
Purpose : Daily kilovoltage cone beam CT (kV CBCT) patient localization adds to the dose to organs at risk and normal tissues near the planning target volume (PTV). This dose, which is highly dependent on the techniques used for imaging, is routinely ignored at the time of treatment planning and delivery. Adding this dose to the treatment plan will give a more accurate indication of the dose to normal tissues and critical organs. Method and Materials : The kV CBCT beam from the Elekta XVI system has been modeled in Pinnacle treatment planning system and the accuracy of the model has been verified by phantom measurements. A number of head and neck IMRT treatment plans have been selected and the dose from the daily CBCT procedure has been added to the treatment plans. The effect of this dose on the DVH of all organs has been studied. Results : The modeling provides an agreement of 3% or better between measured and computed profiles within the field. Utilizing the standard preset of the Elekta XVI system for head and neck CBCT, the dose from each scan is added to the treatment plan. The computed dose agrees with that reported in the literature for the head and neck presets. The magnitude of this dose, however, depends on the technique used. Therefore, the dose as a result of using a different technique has also been calculated. Conclusion : This work demonstrates the feasibility of adding the dose from kV CBCT to the patient treatment plans. Similar work in the past has been done using the MV CBCT but this is the first time the kV dose is added to plans. Accounting for this dose at the time of treatment planning will help to optimize the plan accordingly, avoiding possible overdose of critical organs.