Effect of MLC Leaf Width and PTV Margin on the Treatment Planning of Intensity-Modulated Stereotactic Radiosurgery (IMSRS) or Radiotherapy (IMSRT)
| Autor: | Kailiu Jiang, Jenghwa Chang, Kamil M. Yenice, Margie Hunt, Ashwatha Narayana |
|---|---|
| Rok vydání: | 2009 |
| Předmět: |
medicine.medical_treatment
Radiosurgery Models Biological Sensitivity and Specificity medicine Relative biological effectiveness Humans Computer Simulation Radiology Nuclear Medicine and imaging Radiometry Radiation treatment planning Brain Diseases Radiological and Ultrasound Technology business.industry Radiotherapy Planning Computer-Assisted Reproducibility of Results Intensity (physics) Radiation therapy Multileaf collimator Leaf width Oncology Radiotherapy Conformal Nuclear medicine business Intensity modulation Relative Biological Effectiveness |
| Zdroj: | Medical Dosimetry. 34:110-116 |
| ISSN: | 0958-3947 |
| DOI: | 10.1016/j.meddos.2008.06.002 |
| Popis: | We studied the effect of MLC (multileaf collimator) leaf width and PTV (planning target volume) margin on treatment planning of intensity modulated stereotactic radiosurgery (IMSRS) or radiotherapy (IMSRT). Twelve patients previously treated with IMSRS/IMSRT were retrospectively planned with 5- and 3-mm MLC leaf widths and 3- and 2-mm PTV margins using the already contoured clinical target volume and critical structures. The same beam arrangement, planning parameters, and optimization method were used in each of the 4 plans for a given patient. Each plan was normalized so that the prescription dose covered at least 99% of the PTV. Plan indices--D(mean) (mean dose), conformity index (CI), V(70) (volume receiving >or= 70% of the prescription dose), and V(50) (volume receiving >or= 50% of the prescription dose)--were calculated from the dose-volume histograms (DVHs) of the PTV, normal tissue, and organs at risk (OARs). Hypothesis testing was performed on the mean ratios of plan indices to determine the statistical significance of the relative differences. The PTV was well covered for all plans, as no significant differences were observed for D(95), V(95), D(max), D(min), and D(mean) of the PTV. The irradiated volume was approximately 23% smaller when 2-mm instead of 3-mm PTV margin was used, but it was only reduced by approximately 6% when the MLC leaf width was reduced from 5 mm to 3 mm. For normal tissue and brainstem, V(70), V(50), and D(mean) were reduced more effectively by a decrease in MLC width, while D(mean) of optic nerve and chiasm were more sensitive to a change in PTV margin. The DVH statistics for the PTV and normal structures from the treatment plan with 5-mm MLC and 2-mm PTV margin were equal to those with 3-mm MLC and 3-mm PTV margin. PTV margin reduction is more effective in sparing the normal tissue and OARs than a reduction in MLC leaf width. For IMSRS, where highly accurate setup and small PTV margins are routinely employed, the use of 5-mm MLC is therefore less desirable. |
| Databáze: | OpenAIRE |
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