Purpose: To investigate size and frequency of interfractional patient setup variability in hypofractionated stereotactic extracranial radiotherapy. Methods and Materials: Infrared optical 3D tracking of surface markers was applied to quantify setup variability on 51 patients. Isocenter position repeatability was assessed by means of frameless anatomic calibration and was compared with portal image evaluation. Specific data analysis allowed for compensation of patients' breathing movements and for separation of the effects of operator-dependent misalignments and respiration-induced displacements. Effects of patient position (supine vs. prone) and treatment table configuration were investigated. Results: Patient positioning assisted by the op...
Purpose: To assess the accuracy of patient repositioning and clinical outcomes of frameless stereota...
Background and purpose: Patients receiving cranial radiotherapy are immobilized with a thermoplastic...
Background/Purpose: This study determines and compares the geometric setup errors between stereoscop...
In the field of extra-cranial radiotherapy, several inaccuracies can make the application of framele...
To compare infrared (IR) optical vs. stereoscopic X-ray technologies for patient setup in image-guid...
Purpose: To evaluate the setup accuracy that can be achieved with a novel noninvasive patient fixati...
Abstract Background The purpose of this study is to investigate intra-fraction setup variability in ...
Background: To assess the accuracy of fractionated stereotactic radiotherapy (FSRT) using a stereota...
The aim of this study is to evaluate the patient positioning uncertainty in noncoplanar stereotactic...
An optical 3D sensor provides an additional tool for verification of correct patient settlement on a...
The safety margins used to define the Planning Target Volume (PTV) should reflect the accuracy of th...
BACKGROUND: Hypofractionated radiotherapy has been used for the treatment of AVMs and brain metastas...
Purpose: To assess the impact of different reference CT datasets on manual image registration with f...
Graduation date: 2011Purpose: Stereotactic radiation therapy and stereotactic radiosurgery deliver r...
Purpose: To assess the accuracy of patient repositioning and clinical outcomes of frameless stereota...
Background and purpose: Patients receiving cranial radiotherapy are immobilized with a thermoplastic...
Background/Purpose: This study determines and compares the geometric setup errors between stereoscop...
In the field of extra-cranial radiotherapy, several inaccuracies can make the application of framele...
To compare infrared (IR) optical vs. stereoscopic X-ray technologies for patient setup in image-guid...
Purpose: To evaluate the setup accuracy that can be achieved with a novel noninvasive patient fixati...
Abstract Background The purpose of this study is to investigate intra-fraction setup variability in ...
Background: To assess the accuracy of fractionated stereotactic radiotherapy (FSRT) using a stereota...
The aim of this study is to evaluate the patient positioning uncertainty in noncoplanar stereotactic...
An optical 3D sensor provides an additional tool for verification of correct patient settlement on a...
The safety margins used to define the Planning Target Volume (PTV) should reflect the accuracy of th...
BACKGROUND: Hypofractionated radiotherapy has been used for the treatment of AVMs and brain metastas...
Purpose: To assess the impact of different reference CT datasets on manual image registration with f...
Graduation date: 2011Purpose: Stereotactic radiation therapy and stereotactic radiosurgery deliver r...
Purpose: To assess the accuracy of patient repositioning and clinical outcomes of frameless stereota...
Background and purpose: Patients receiving cranial radiotherapy are immobilized with a thermoplastic...
Background/Purpose: This study determines and compares the geometric setup errors between stereoscop...