Abstract
BackgroundInvestigating reproducibility and instability of deep inspiration breath hold (DIBH) in the prone position to reduce heart dose for left-sided whole breast irradiation.MethodsThirty patients were included and underwent 2 prone DIBH CT-scans during simulation. Overlap indices were calculated for the ipsilateral breast, heart and lungs to evaluate the anatomical reproducibility of the DIBH maneuver. The breathing motion of 21 patients treated with prone DIBH were registered using magnetic probes. These breathing curves were investigated to gain data on intra-fraction reproducibility and instability of the different DIBH cycles during treatment.ResultsOverlap index was 0.98 for the ipsilateral breast and 0.96 for heart and both lungs between the 2 prone DIBH-scans. The magnetic sensors reported population amplitudes of 2.8 ± 1.3 mm for shallow breathing and 11.7 ± 4.7 mm for DIBH, an intra-fraction standard deviation of 1.0 ± 0.4 mm for DIBH, an intra-breath hold instability of 1.0 ± 0.6 mm and a treatment time of 300 ± 69 s.ConclusionProne DIBH can be accurately clinically implemented with acceptable reproducibility and instability.
Highlights
Investigating reproducibility and instability of deep inspiration breath hold (DIBH) in the prone position to reduce heart dose for left-sided whole breast irradiation
Whole breast irradiation (WBI) after surgery in earlystage breast cancer patients has been related to secondary cancer induction and cardiac toxicity [1,2,3]
Recent research in the field of breast radiotherapy has focused on techniques lowering the dose to the organs at risk (OARs) while maintaining an adequate dose to the ipsilateral breast
Summary
Investigating reproducibility and instability of deep inspiration breath hold (DIBH) in the prone position to reduce heart dose for left-sided whole breast irradiation. Whole breast irradiation (WBI) after surgery in earlystage breast cancer patients has been related to secondary cancer induction and cardiac toxicity [1,2,3]. These complications may potentially reduce the shown benefits of WBI on overall survival [4]. Recent research in the field of breast radiotherapy has focused on techniques lowering the dose to the organs at risk (OARs) while maintaining an adequate dose to the ipsilateral breast.
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