Effect of radiation protraction in hypofractionated radiotherapy

Autor:	Vadim Y. Kuperman
Rok vydání:	2018
Předmět:	Organs at Risk Hypofractionated Radiotherapy Lung Neoplasms Time Factors Fractionation Radiation Models Biological Effective dose (radiation) 030218 nuclear medicine & medical imaging 03 medical and health sciences 0302 clinical medicine medicine Humans Irradiation Lung cancer Lung Cell Death Fixed bed Chemistry business.industry General Medicine medicine.disease Spinal Cord 030220 oncology & carcinogenesis Organ at risk Linear Models Radiation Dose Hypofractionation Nuclear medicine business Relative Biological Effectiveness
Zdroj:	Medical Physics. 45:3442-3448
ISSN:	2473-4209 0094-2405
DOI:	10.1002/mp.12936
Popis:	PURPOSE To evaluate how protracted delivery of radiation affects radiobiological properties of hypofractionated radiotherapy. METHODS The utilized approach is based on the concept of biologically effective dose (BED). The linear-quadratic model replete with a protraction factor is used to describe changes in biologically effective dose in normal tissue (BEDnt ) caused by varying number of fractions under the condition of fixed BED in the treatment target (BEDtar ). In the derivations, we study the influence of fraction time (T) and associated repair of sublethal damage of irradiated cells on BEDnt . RESULTS We have analytically derived conditions under which hypofractionation lowers BEDnt , in a parallel or serial organ at risk (OAR) in the presence of radiation protraction, as compared to standard fractionation. In the considered examples, maximum value of BEDnt in the spinal cord decreased with decreasing number of fraction when T was relatively short (e.g., T = 5 min). In contrast, in the case of long fraction times of 30 and 45 min, maximum BEDnt in the cord increased with decreasing number of fractions. In the case of lung cancer, the average BEDnt in the lung increased with decreasing number of fractions. The maximum increase in BEDnt varied between 4% for T = 1 min and 19% for T = 22 min. CONCLUSION In the case when repair of sublethal damage occurs faster in the target than in the affected OAR, shortening fraction time helps lower BEDnt in hypofractionated regimen as compared to standard fractionation. In contrast, in the case when repair rate is higher in the OAR than in the target, long fraction times can be radiobiologically beneficial for hypofractionated radiotherapy. Consequently, comparison of different fractionation schemes should take into account both repair rates in the target and OAR, and fraction time.
Databáze:	OpenAIRE
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