Proton radiotherapy (PT) requires accurate target alignment before each treatment fraction, ideally utilizing 3D in-room X-ray computed tomography (CT) imaging. Typically, the optimal patient position is determined based on anatomical landmarks or implanted markers. In the presence of non-rigid anatomical changes, however, the planning scenario cannot be exactly reproduced and positioning should rather aim at finding the optimal position in terms of the actually applied dose. In this work, dose-guided patient alignment, implemented as multicriterial optimization (MCO) problem, was investigated in the scope of intensity-modulated and double-scattered PT (IMPT and DSPT) for the first time. A method for automatically determining the optimal pa...
The purpose of this study is to evaluate a geometric image guidance strategy that simultaneously cor...
Purpose: Interfractional organ motion and patient positioning errors during prostate radiotherapy ca...
The aim of this thesis is to provide a practical framework for dose escalation in the prostate using...
In intensity-modulated radiation therapy (IMRT), 3D in-room imaging data is typically utilized for a...
In the current practice of radiation therapy, daily patient alignments have been based on external s...
The main advantage for using protons in radiotherapy is their finite range in patients, allowing for...
The dosimetric advantages of proton therapy (PT) treatment plans are demonstrably superior to photon...
AbstractBackgroundRadiotherapy treatment requires delivering high homogenous dose to target volume w...
Background and purpose: Our aim was to evaluate the feasibility and potential advantages of dose gui...
For proton spot scanning, use of a real-time-image gating technique incorporating an implanted marke...
Abstract Background Modern radiotherapy offers the possibility of highly accurate tumor treatment. T...
Background and purpose: Our aim was to evaluate the feasibility and potential advantages of dose gui...
Intensity modulated proton therapy (IMPT) in the form of pencil beam scanning (PBS) has shown improv...
To exploit the full potential of proton therapy, accurate and on-line methods to verify the patient ...
Background and purpose: Proton therapy (PT) of extra-cranial tumour sites is challenged by density c...
The purpose of this study is to evaluate a geometric image guidance strategy that simultaneously cor...
Purpose: Interfractional organ motion and patient positioning errors during prostate radiotherapy ca...
The aim of this thesis is to provide a practical framework for dose escalation in the prostate using...
In intensity-modulated radiation therapy (IMRT), 3D in-room imaging data is typically utilized for a...
In the current practice of radiation therapy, daily patient alignments have been based on external s...
The main advantage for using protons in radiotherapy is their finite range in patients, allowing for...
The dosimetric advantages of proton therapy (PT) treatment plans are demonstrably superior to photon...
AbstractBackgroundRadiotherapy treatment requires delivering high homogenous dose to target volume w...
Background and purpose: Our aim was to evaluate the feasibility and potential advantages of dose gui...
For proton spot scanning, use of a real-time-image gating technique incorporating an implanted marke...
Abstract Background Modern radiotherapy offers the possibility of highly accurate tumor treatment. T...
Background and purpose: Our aim was to evaluate the feasibility and potential advantages of dose gui...
Intensity modulated proton therapy (IMPT) in the form of pencil beam scanning (PBS) has shown improv...
To exploit the full potential of proton therapy, accurate and on-line methods to verify the patient ...
Background and purpose: Proton therapy (PT) of extra-cranial tumour sites is challenged by density c...
The purpose of this study is to evaluate a geometric image guidance strategy that simultaneously cor...
Purpose: Interfractional organ motion and patient positioning errors during prostate radiotherapy ca...
The aim of this thesis is to provide a practical framework for dose escalation in the prostate using...