Abstract
Purpose: The purpose of present study was to experimentally evaluate the dosimetric uncertainties in 3-dimensional conformal radiotherapy (3DCRT), dynamic intensity modulated radiotherapy (D-IMRT), step-shoot (SS-IMRT), and volumetric modulated arc therapy (VMAT) treatment delivery techniques due to intra- and inter-fractional target motion. Methods: A previously treated lung patient was selected for this study and was replanned for 60 Gy in 30 fractions using four techniques (3DCRT, D-IMRT, SS-IMRT, and VMAT). These plans were delivered in a clinical linear accelerator equipped with HexaPOD™ evo RT System. The target dose of static QUASAR phantom was calculated that served as reference dose to the target. The QUASAR respiratory body phantom along with patients breathing wave form and HexaPOD™ evo RT System was used to simulate the intra-fraction and inter-fraction motions. Dose measurements were done by applying the intra-fractional and inter-fractional motions in all the four treatment delivery techniques. Results: The maximum percentage deviation in a single field was -4.3%, 10.4%, and -12.2% for 3DCRT, D-IMRT and SS-IMRT deliveries, respectively. Similarly, the deviation for a single fraction was -1.51%, -1.88%, -2.22%, and -3.03% for 3DCRT, D-IMRT, SS-IMRT and VMAT deliveries, respectively. Conclusion: The impact of inter-fractional and intra-fractional uncertainties calculated as deviation between dynamic and static condition dose was large in some fractions, however average deviation calculated for thirty fractions was well within 0.5% in all the four techniques. Therefore, inter- and intra-fractional uncertainties could be concern in fewer fraction treatments such as stereotactic body radiation therapy, and should be used in conjunction with intra- and inter-fractional motion management techniques.
Highlights
Treatment of upper abdomen and thorax using ionizing radiation is challenging issue in the radiotherapy due to inter- and intra-fractional movement.[1]
Dosimetric effect of intra- and inter-fractional target motion was studied for 3-dimensional conformal radiotherapy (3DCRT), SS-IMRT, dynamic intensity modulated radiotherapy (D-IMRT), and volumetric modulated arc therapy (VMAT) treatment deliveries
The target dose measured for 120 fractions (30 fractions in each modality) using the 0.6 cc ionization chamber with inter- and intra-fractional motion in superior and inferior (SI) direction only, as well as for static reference condition as depicted in [Table 3 (a), (b), (c) and (d)]
Summary
Treatment of upper abdomen and thorax using ionizing radiation is challenging issue in the radiotherapy due to inter- and intra-fractional movement.[1]. Apart from respiratory motion which varies from day to day, tumor and normal tissues can shrink, grow and shift in response to radiation therapy and potentially to other concomitant therapies.[2] Studies on respiratory induced tumour motion have indicated that major movement is in superior-inferior (SI) direction and tumors located in the lower lobe of the lung exhibited the greatest amount of motion along the SI axis.[3,4] The motion of the lung in SI direction play important role in dosimetric uncertainties compared to lateral and anterior-posterior (AP) motions during lung cancer radiotherapy.[5] The inter-fractional setup errors which arise as a result of deviation of anatomic structures between the pre-treatment position and planning computed tomography (CT), produce deviation of delivered dose from planned dose affecting the treatment accuracy.[6] Apart from these, relative movement of target and multileaf collimator (MLC) known as interplay effect is an important factor to be considered in treatment delivery techniques that involve intensity modulation. The interplay effect can produce cold/hot spots within the target. These sources of error become limiting factor in achieving the goal of the radiotherapy
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