- Title
- An investigation of MRI dose planning for high precision prostate radiotherapy
- Creator
- Greer, P.; Dahl, K.; Ostwald, P.; Denham, J.; Lau, P.; Hughes, C. F.; White, M.
- Relation
- Engineering & Physical Sciences In Medicine (EPSM) 2006 Conference. EPSM 2006 Conference Abstracts: Radiation Oncology Physics Talks (presented in Australasian Physical & Engineering Sciences in Medicine, Vol. 29 No. 4) (Noosa, Qld 17-21 September, 2006) p. 353-353
- Relation
- http://www.acpsem.org.au/journal/index_journal.html
- Publisher
- Australasian College of Physical Scientists and Engineers in Medicine
- Resource Type
- conference paper
- Date
- 2006
- Description
- INTRODUCTION: To achieve high precision prostate radiotherapy requires accurate delineation of the prostate combined with accurate targeting of treatment with image-guided techniques. MRI scans have been shown to have lower inter-observer variability in prostate contouring than CT scans. If dose planning could also be performed on MRI scans then uncertainties due to registration to a CT scan would be reduced, as well as the resources required to use two imaging modalities. The feasibility of dose planning directly on MRI scans is investigated in this study. METHODS: Ten patients treated at the Newcastle Mater Hospital had three 0.9 × 7 mm gold markers implanted by a urologist under trans-rectal guidance. Each patient then underwent a planning CT with urethral contrast. The prostate was delineated on the CT for field definition as per our normal protocol. Patients were treated with daily on-line corrections using electronic portal images of the implanted markers. The patients also received a MRI scan in the treatment position following their planning CT. Several MRI sequences were utilized; a T2 whole pelvis scan, a T2 small field-of-view scan to visualise prostate borders, and a T2* gradient echo scan to visualise implanted markers. All scans were transferred to the Pinnacle treatment planning system. The CT and MRI scans were registered using bony anatomy. Dose plans were produced on both sets of scans. For the CT scans, plans were produced with full electron density information, a bulk uniform density of 1, and bulk density plus a density of 1.3 assigned to the bone regions. For the MRI plans, uniform and uniform+bone densities were assigned to the scans and dose plans using the same beam arrangements produced. The doses to the ICRU point for the dose plans were then compared. RESULTS: Dose plans for two patients have been analyzed to date. Assigning a bulk uniform density to the CT scan was found to give average dose errors of 2.7% to the ICRU point compared to the full density plan. When the bulk density of bony anatomy was added, this was reduced to within 1%. Bulk density MRI plans gave average dose errors of 3.7%, which was reduced to 2.3% with bulk density of bone added. [Figure 1. Example of bulk density CT and MRI dose plans.] DISCUSSION & CONCLUSIONS: The CT results suggest that scans with bulk densities assigned produce reasonably accurate dose plans for prostate. By optimizing the densities used, further improvements may be achieved. However the errors when bulk densities were assigned to MRI scans were greater. This is due to differences in patient contour due to both MRI spatial uniformity and patient positioning differences. Futher work is required to quantify the errors due to spatial unformity differences with a rigid phantom.
- Subject
- prostate radiotherapy; MRI scans; CT scans; bulk uniform density; dose errors
- Identifier
- http://hdl.handle.net/1959.13/31966
- Identifier
- uon:2876
- Identifier
- ISSN:0158-9938
- Language
- eng
- Full Text
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