TY - JOUR
T1 - The effect of dose grid resolution on dose volume histograms for slender organs at risk during pelvic intensity-modulated radiotherapy
AU - Rosewall, Tara
AU - Kong, Vickie
AU - Heaton, Robert
AU - Currie, Geoffrey
AU - Milosevic, Michael
AU - Wheat, Janelle
N1 - Includes bibliographical references.
PY - 2014/1/1
Y1 - 2014/1/1
N2 - Purpose: There are enduring uncertainties regarding the optimal dose grid resolution for use with pelvic intensity-modulated radiotherapy (IMRT) plans in which the adjacent organs at risk are slender and transect the field edge. Therefore, this study evaluated the effect of dose grid resolution on bladder wall dose-volume histogram (DVH) calculations for prostate IMRT plans. Materials and Methods: The planning computed tomography scans and clinical plans from 15 prostate cancer patients were included in this analysis. For each study computed tomography, the entire inner and outer bladder surfaces were delineated. Nine versions of the clinical plan were created, varying interval between the dose grid calculation points uniformly in three dimensions, whereas all other plan parameters were kept constant. The dose grid increments tested were 1-10 mm. The plans were recalculated and the bladder wall DVH compared against the study benchmark (1 mm grid). Results: All the dose grid increments evaluated resulted in a systematic overestimation of the bladder wall volume receiving low doses and an underestimation of the volume receiving high doses. Grid increments <2.5 mm all resulted in mean volume differences less than 1 cm3 across the whole DVH. Grid increments >5.0 mm resulted in mean volume differences greater than 2 cm3. Individual patient analysis revealed that only the 1.5 mm increment resulted in maximum volume differences ≤1 cm3 for every patient across the full length of the DVH curve. Bladder wall thickness ranged from 1.7 to 4.4mmand displayed no correlation with the magnitude of the dose grid effect. Conclusions: For an accurate DVH calculation for bladder wall during IMRT planning for prostate cancer, a 1.5 mm dose grid increment is recommended. This finding was unaffected by a normal range in bladder wall thickness. It is suggested that the application of any new treatment planning technique or organ delineation method be accompanied with an evaluation of optimal dose grid resolution.
AB - Purpose: There are enduring uncertainties regarding the optimal dose grid resolution for use with pelvic intensity-modulated radiotherapy (IMRT) plans in which the adjacent organs at risk are slender and transect the field edge. Therefore, this study evaluated the effect of dose grid resolution on bladder wall dose-volume histogram (DVH) calculations for prostate IMRT plans. Materials and Methods: The planning computed tomography scans and clinical plans from 15 prostate cancer patients were included in this analysis. For each study computed tomography, the entire inner and outer bladder surfaces were delineated. Nine versions of the clinical plan were created, varying interval between the dose grid calculation points uniformly in three dimensions, whereas all other plan parameters were kept constant. The dose grid increments tested were 1-10 mm. The plans were recalculated and the bladder wall DVH compared against the study benchmark (1 mm grid). Results: All the dose grid increments evaluated resulted in a systematic overestimation of the bladder wall volume receiving low doses and an underestimation of the volume receiving high doses. Grid increments <2.5 mm all resulted in mean volume differences less than 1 cm3 across the whole DVH. Grid increments >5.0 mm resulted in mean volume differences greater than 2 cm3. Individual patient analysis revealed that only the 1.5 mm increment resulted in maximum volume differences ≤1 cm3 for every patient across the full length of the DVH curve. Bladder wall thickness ranged from 1.7 to 4.4mmand displayed no correlation with the magnitude of the dose grid effect. Conclusions: For an accurate DVH calculation for bladder wall during IMRT planning for prostate cancer, a 1.5 mm dose grid increment is recommended. This finding was unaffected by a normal range in bladder wall thickness. It is suggested that the application of any new treatment planning technique or organ delineation method be accompanied with an evaluation of optimal dose grid resolution.
KW - Dose grid
KW - Penumbra
KW - Bladder
KW - Intensity-modulated radiotherapy
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U2 - 10.1016/j.jmir.2014.01.006
DO - 10.1016/j.jmir.2014.01.006
M3 - Article
C2 - 31051970
SN - 1939-8654
VL - 45
SP - 204
EP - 209
JO - Journal of Medical Imaging and Radiation Sciences
JF - Journal of Medical Imaging and Radiation Sciences
IS - 3
ER -