Abstract
BackgroundTo evaluate the lifetime secondary cancer risk (SCR) of stereotactic body radiotherapy (SBRT) using the CyberKnife (CK) M6 system with a lung-optimized treatment (LOT) module for lung cancer patients.MethodsWe retrospectively enrolled 11 lung cancer patients curatively treated with SBRT using the CK M6 robotic radiosurgery system. The planning treatment volume (PTV) and common organs at risk (OARs) for SCR analysis included the spinal cord, total lung, and healthy normal lung tissue (total lung volume - PTV). Schneider’s full model was used to calculate SCR according to the concept of organ equivalent dose (OED).ResultsCK-LOT-SBRT delivers precisely targeted radiation doses to lung cancers and achieves good PTV coverage and conformal dose distribution, thus posing limited SCR to surrounding tissues. The three OARs had similar risk equivalent dose (RED) values among four different models. However, for the PTV, differences in RED values were observed among the models. The cumulative excess absolute risk (EAR) value for the normal lung, spinal cord, and PTV was 70.47 (per 10,000 person-years). Schneider’s Lnt model seemed to overestimate the EAR/lifetime attributable risk (LAR).ConclusionFor lung cancer patients treated with CK-LOT optimized with the Monte Carlo algorithm, the SCR might be lower. Younger patients had a greater SCR, although the dose–response relationship seemed be non-linear for the investigated organs, especially with respect to the PTV. Despite the etiological association, the SCR after CK-LOT-SBRT for carcinoma and sarcoma, is low, but not equal to zero. Further research is required to understand and to show the lung SBRT SCR comparisons and differences across different modalities with motion management strategies.
Highlights
Stereotactic body radiotherapy (SBRT) is an external beam radiotherapy method for accurately delivering high-dose (∼6– 30 Gy), highly localized, and conformal radiation in five or fewer fractions with steep dose gradients (Benedict et al, 2010; Guckenberger et al, 2014; Ceniceros et al, 2016)
This study assessed the Secondary cancer risk (SCR) for carcinoma using all available models, i.e., linear, plateau, linear-exponential, and full models, where there is still a lack of understanding of the dose–response relationship for patients exposed to CK-lungoptimized treatment (LOT)-SBRT
Our study showed similar results to Xu et al (2008) for the spinal cord, normal lung, and total lung with respect to the risk equivalent dose (RED) values, which were in the linear region because the patients received low-tointermediate doses
Summary
Stereotactic body radiotherapy (SBRT) is an external beam radiotherapy method for accurately delivering high-dose (∼6– 30 Gy), highly localized, and conformal radiation in five or fewer fractions with steep dose gradients (Benedict et al, 2010; Guckenberger et al, 2014; Ceniceros et al, 2016). This is an attractive, non-invasive, well-tolerated outpatient treatment option for lung cancers (Guckenberger et al, 2019). To evaluate the lifetime secondary cancer risk (SCR) of stereotactic body radiotherapy (SBRT) using the CyberKnife (CK) M6 system with a lung-optimized treatment (LOT) module for lung cancer patients
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