AbstractsOther

The treatment of advanced cervical cancer patients consists of chemo-radiation and brachytherapy. After decades of conventional treatment, 3D imaging (CT and/or MRI) was introduced into the brachytherapy treatment procedure. MRI has been shown to be superior to radiography and CT for accurate tumour differentiation, and is therefore recommended for treatment planning. MRI-guided brachytherapy allows tailoring the dose to the target volume, resulting in high tumour doses. Furthermore, MRI information revealed the limitations of the traditionally used intracavitary applicators, and resulted in the development of the MRI compatible Utrecht applicator. The Utrecht applicator is a tandem-ovoid applicator of which the ovoids are used as a template for interstitial needle placement. Insertion of the needles proved to be feasible and safe and provided a better coverage of the target, while sparing the surrounding organs. Different centres deal differently with the use of additional needles. A treatment comparison study showed that some centres tailor the dose to the target volume, while others are more conservative in maintaining their traditional peer-shaped dose distribution. Interestingly, another finding of this study was that MRI-guided brachytherapy treatment planning can result in similar dose parameters while the dose distribution varies. The question whether high dose areas will lead to necroses and more severe morbidity can only be answered when during meaningful follow up morbidity is scored. An outcome and morbidity study of the first patients treated with chemo-radiation and MRI-guided brachytherapy in the UMC Utrecht showed excellent outcome, especially with respect to local control and acceptable treatment related morbidity. Despite respecting the dose constraints for the surrounding organs, vaginal and gastro-intestinal morbidity occurred in 5 and 10% respectively. Unfortunately, no association between severe morbidity and dose parameters could be found. The unique setting of a 1.5 Tesla MRI scanner integrated in the brachytherapy theatre of the UMC Utrecht allowed additional MRI scanning during the course of brachytherapy. For pulsed dose rate treated patients (delivered in about 30 hours) re-imaging was performed ones during treatment and revealed an increase in rectum dose systemically over time. This might explain that no dose response relationship for gastro-intestinal morbidity could be found. A systematic increase in dose was not seen in high dose rate (HDR) treated patients. For HDR treatments, intra-fractional dose differences for the organs were generally small. However, incidental high rectal dose deviations were found in individual patients, due to rectal volume changes. Re-imaging before irradiation is valuable, at least for treatment plans where dose parameters meet the organ dose constraints. If necessary, small interventions can help to stabilize the anatomical position before dose delivery. Overall, the impact of organ movement on the target dose was small. Chemo-radiation and…