SU‐E‐T‐437: Dosimetric Effect of Uncorrected Rotations in Lung SBRT with Stereotactic Imaging Guidance

T. Zhuang, A. Markovich, P. Xia

Research output: Contribution to journalArticlepeer-review

Abstract

Purpose: The stereoscopic imaging guidance can detect three translational and three rotational corrections for the treatment setup in lung SBRT. The rotational corrections may not be performed if a 6‐degree treatment table is not available. We aim to investigate the dosimetric effect of uncorrected rotations for Lung SBRT. Methods: Twelve patients with NSCLC who received SBRT were selected for this study. To simulate uncorrected rotations, the planning CT and contours were rotated around the iso‐center by 1°, 2°, 3°, 4°, 5° in all three axes. For each patient, the initial plan was then applied to the rtated CT and contours, and the dose to the rotated CT was recalculated using a Monde Carlo dose calculation method. The ratio of D1, D95 and D99 of the PTV between plans on the original and rotated CT were computed. Results: The ratios of D95 for different rotations were: 100.0±0.6% (1°), 99.6±0.7% (2°), 99.4±1.0% (3°), 98.7±2.4% (4°), 98.6±1.0% (5°). The ratios of D1 were: 99.8±0.7% (1°), 99.6±0.8% (2°), 99.6±0.7% (3°), 99.5±1.0% (4°), 99.4±1.0% (5°). The ratios of D99 were: 99.0±1.1% (1°), 98.7±1.5% (2°), 98.1±2.2% (3°), 96.2±4.8% (4°), 96.0±4.4% (5°). Compared to the dose distribution in the original plans, less than 1% reduction in D95 of the PTV was observed if the uncorrected rotations were less than 3°. D1 of the PTV was less than 1% for uncorrected rotations up to 5°. D99 of the PTV exceeded 4% for uncorrected rotation greater than 4°. Conclusion: The rotation of less than 3° in all directions has negligible dose effects in Lung SBRT under stereoscopic image guidance.

Original languageEnglish (US)
Pages (from-to)306
Number of pages1
JournalMedical physics
Volume40
Issue number6
DOIs
StatePublished - Jun 2013
Externally publishedYes

ASJC Scopus subject areas

  • Biophysics
  • Radiology Nuclear Medicine and imaging

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