Autor: |
Kasamatsu, Koki, Tanaka, Sodai, Miyazaki, Koichi, Takao, Seishin, Miyamoto, Naoki, Hirayama, Shusuke, Nishioka, Kentaro, Hashimoto, Takayuki, Aoyama, Hidefumi, Umegaki, Kikuo, Matsuura, Taeko |
Předmět: |
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Zdroj: |
Medical Physics; Jan2022, Vol. 49 Issue 1, p702-713, 12p |
Abstrakt: |
Purpose: In the scanning beam delivery of protons, different portions of the target are irradiated with different linear energy transfer protons with various time intervals and irradiation times. This research aimed to evaluate the spatially dependent biological effectiveness of protracted irradiation in scanning proton therapy. Methods: One and two parallel opposed fields plans were created in water phantom with the prescribed dose of 2 Gy. Three scenarios (instantaneous, continuous, and layered scans) were used with the corresponding beam delivery models. The biological dose (physical dose × relative biological effectiveness) was calculated using the linear quadratic model and the theory of dual radiation action to quantitatively evaluate the dose delivery time effect. In addition, simulations using clinical plans (postoperative seminoma and prostate tumor cases) were conducted to assess the impact of the effects on the dose volume histogram parameters and homogeneity coefficient (HC) in targets. Results: In a single‐field plan of water phantom, when the treatment time was 19 min, the layered‐scan scenario showed a decrease of <0.2% (almost 3.3%) in the biological dose from the plan on the distal (proximal) side because of the high (low) dose rate. This is in contrast to the continuous scenario, where the biological dose was almost uniformly decreased over the target by approximately 3.3%. The simulation with clinical geometry showed that the decrease rates in D99% were 0.9% and 1.5% for every 10 min of treatment time prolongation for postoperative seminoma and prostate tumor cases, respectively, whereas the increase rates in HC were 0.7% and 0.2%. Conclusions: In protracted irradiation in scanning proton therapy, the spatially dependent dose delivery time structure in scanning beam delivery can be an important factor for accurate evaluation of biological effectiveness. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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