Purpose: To quantify intrafraction patient motion and its time dependence in immobilized intracranial and extracranial patients. The data can be used to optimize the intrafraction imaging frequency and consequent patient setup correction with an image guidance and tracking system, and to establish the required safety margins in the absence of such a system. Method and Materials: The intrafraction motion of 32 intracranial patients, immobilized with a thermoplastic mask, and 11 supine- and 14 prone-treated extracranial spine patients, immobilized with a vacuum bag, were analyzed. The motion was recorded by an X-ray, stereoscopic, image-guidance system. For each group, we calculated separately the systematic (overall mean and SD) and the rand...
Increasing evidence shows that intrafraction tumour motion monitoring must include both six degrees ...
The purpose of this study was to evaluate and quantify the interfraction reproducibility and intrafr...
PURPOSE: To quantify intrafractional motion to determine population-based radiotherapy treatment mar...
Purpose: To quantify intrafraction patient motion and its time dependence in immobilized intracrania...
The safety margins used to define the Planning Target Volume (PTV) should reflect the accuracy of th...
Background and purpose: Patients receiving cranial radiotherapy are immobilized with a thermoplastic...
PURPOSE: Stereotactic radiation therapy is an established treatment technique for intracranial malig...
The accuracy of radiation delivery is increasingly important as radiotherapy technology continues to...
AimTo analyze intrafraction movement in patients undergoing frameless robotic radiosurgery and evalu...
PURPOSE: One of the major challenges in stereotactic body radiation therapy (SBRT) of renal cell car...
Abstract Background The objective of this study was to analyze the amplitude of translational and ro...
Introduction: Inherent to SRS and the small treatment fields used are the tight margins and resultin...
Purpose: Determine the time-dependent magnitude of intrafraction prostate displacement and a cutoff ...
Background: Immobilization devices are crucial to minimize patient positioning uncertainties in radi...
Purpose: To investigate size and frequency of interfractional patient setup variability in hypofract...
Increasing evidence shows that intrafraction tumour motion monitoring must include both six degrees ...
The purpose of this study was to evaluate and quantify the interfraction reproducibility and intrafr...
PURPOSE: To quantify intrafractional motion to determine population-based radiotherapy treatment mar...
Purpose: To quantify intrafraction patient motion and its time dependence in immobilized intracrania...
The safety margins used to define the Planning Target Volume (PTV) should reflect the accuracy of th...
Background and purpose: Patients receiving cranial radiotherapy are immobilized with a thermoplastic...
PURPOSE: Stereotactic radiation therapy is an established treatment technique for intracranial malig...
The accuracy of radiation delivery is increasingly important as radiotherapy technology continues to...
AimTo analyze intrafraction movement in patients undergoing frameless robotic radiosurgery and evalu...
PURPOSE: One of the major challenges in stereotactic body radiation therapy (SBRT) of renal cell car...
Abstract Background The objective of this study was to analyze the amplitude of translational and ro...
Introduction: Inherent to SRS and the small treatment fields used are the tight margins and resultin...
Purpose: Determine the time-dependent magnitude of intrafraction prostate displacement and a cutoff ...
Background: Immobilization devices are crucial to minimize patient positioning uncertainties in radi...
Purpose: To investigate size and frequency of interfractional patient setup variability in hypofract...
Increasing evidence shows that intrafraction tumour motion monitoring must include both six degrees ...
The purpose of this study was to evaluate and quantify the interfraction reproducibility and intrafr...
PURPOSE: To quantify intrafractional motion to determine population-based radiotherapy treatment mar...