CONCLUSION: This study indicates that intra-fraction anatomical changes can have a substantial dosimetric impact on target coverage in an online-adaptive IMPT scenario, for patients subject to large uterus motion. A margin of 5 mm was sufficient to compensate for the intra-fraction motion due to bladder filling for up to 10... Read more

CONCLUSION: This study indicates that intra-fraction anatomical changes can have a substantial dosimetric impact on target coverage in an online-adaptive IMPT scenario, for patients subject to large uterus motion. A margin of 5 mm was sufficient to compensate for the intra-fraction motion due to bladder filling for up to 10... Read more

CONCLUSION: This study indicates that intra-fraction anatomical changes can have a substantial dosimetric impact on target coverage in an online-adaptive IMPT scenario, for patients subject to large uterus motion. A margin of 5 mm was sufficient to compensate for the intra-fraction motion due to bladder filling for up to 10... Read more

CONCLUSION: This study indicates that intra-fraction anatomical changes can have a substantial dosimetric impact on target coverage in an online-adaptive IMPT scenario, for patients subject to large uterus motion. A margin of 5 mm was sufficient to compensate for the intra-fraction motion due to bladder filling for up to 10... Read more

CONCLUSION: This study indicates that intra-fraction anatomical changes can have a substantial dosimetric impact on target coverage in an online-adaptive IMPT scenario, for patients subject to large uterus motion. A margin of 5 mm was sufficient to compensate for the intra-fraction motion due to bladder filling for up to 10... Read more

CONCLUSIONS: This study indicates that intrafraction anatomic changes can have a substantial dosimetric effect on target coverage in an online-adaptive IMPT scenario for patients subject to large uterus motion. A margin of 5 mm was sufficient to compensate for the intrafraction motion due to bladder filling for up to 10... Read more

CONCLUSIONS: By combining two detector responses, we enabled the determination of the absolute source co-ordinates. The combination of the mPSD and the ISD in vivo dosimetry constitutes a promising alternative for real-time 3D source tracking in HDR brachytherapy.... Read more