Abstract
Background and purposeRecently published HyTEC report summarized lung toxicity data and proposed guidelines of mean lung dose (MLD) <8 Gy and normal lung receiving at least 20 Gy, V20Gy<10-15% to avoid lung toxicity. Support for preferred use of a particular dosimetric parameter has been limited. We performed a detailed dose-volume analysis of data on radiation pneumonitis (RP) following lung stereotactic body radiation therapy (SBRT) to search for parameters showing the strongest correlation with RP.Materials and methodsTwo patient cohorts (primary and metastatic lung tumor patients) from previously reported studies were analyzed. Total number of patients was 96, and incidence of grade ≥2 RP was 13.5% (13/96). Fitting to the logistic function was performed to investigate correlation between incidence of RP and reported dosimetric and volumetric parameters. Another independent cohort was used to explore correlation between dosimetric parameters.ResultsAmong normal lung parameters (MLD and reported Vx), only MLD consistently showed significant correlation with incidence of RP. Gross tumor volume (GTV), internal target volume, planning target volume (PTV), and minimum dose covering 95% of GTV or PTV did not show statistical significance. A significant correlation between reported Vx and MLD was observed in all cohorts.ConclusionsIn considering tumor- and target-specific (e.g., GTV, PTV) and normal lung-specific (e.g., MLD, Vx) metrics, MLD was the only parameter that consistently correlated with incidence of RP across both cohorts. Because SBRT planning constraints allow small normal lung volumes to receive high doses, utility of MLD is not obvious. The parallel structure of lung is one possible explanation, but correlation between dosimetric parameters obscures elucidation of the preferred or mechanistically based parameter to guide radiotherapy planning.
Highlights
It has been 10 years since the QUANTEC (Quantitative Analyses of Normal Tissue Effects in the Clinic) reports have been published [1]
In considering tumor- and target-specific (e.g., Gross tumor volume (GTV), planning target volume (PTV)) and normal lung-specific (e.g., mean lung dose (MLD), Vx) metrics, MLD was the only parameter that consistently correlated with incidence of radiation pneumonitis (RP) across both cohorts
We explored the incidence of RP as a function of various parameters, normal lung dose-volume metrics and tumor-related metrics
Summary
It has been 10 years since the QUANTEC (Quantitative Analyses of Normal Tissue Effects in the Clinic) reports have been published [1]. Each working group has been assigned a similar set of tasks: to summarize available literature, to model normal tissue complication probability (NTCP) based upon pooled published data, to provide dosimetric recommendations, and to inform future studies. One of the main challenges has been to find and justify preferred metrics associated with outcomes This task is challenging because the published literature is inconsistent with respect to the scales used to grade toxicities as well as dosimetric parameters analyzed, and because patient-specific data, which would allow for pooling more granular. We performed a detailed dose-volume analysis of data on radiation pneumonitis (RP) following lung stereotactic body radiation therapy (SBRT) to search for parameters showing the strongest correlation with RP
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
