Purpose: The Synchrony respiratory motion tracking of the CyberKnife system purports to provide real-time tumor motion compensation during robotic radiosurgery. Such a complex delivery system requires thorough quality assurance. In this work, RADPOS applicability as a dose and position quality assurance tool for CyberKnife treatments is assessed quantitatively for different phantom types and breathing motions, which increase in complexity to more closely resemble clinical situations. Methods: Two radiotherapy treatment experiments were performed where dose and position were measured with the RADPOS probe housed within a Solid Water phantom. For the first experiment, a Solid Water breast phantom was irradiated using isocentric beam delivery ...
© 2019 Institute of Physics and Engineering in Medicine. In this study we develop and characterise a...
Introduction. Radiotherapy is a double-edged sword as this technique inevitably irradiates healthy t...
The RADPOS system is a new in vivo dosimetry tool that combines a MOSFET dosimeter with an electroma...
Purpose: To evaluate a novel 4D dosimetry system (RADPOS) in conjunction with a deformable lung phan...
Purpose: To evaluate the geometric and dosimetric accuracies of the CyberKnife Synchrony respiratory...
Purpose: To present the latest data on the newly‐developed RADPOS 4D in vivo dosimetry system includ...
The benefits of using Synchrony (TM) Respiratory Tracking System (RTS) in conjunction with the Cyber...
Purpose: The RADPOS in vivo dosimetry system combines an electromagnetic positioning sensor with MOS...
The Accuray CyberKnife (R) system provides radiotherapy for the treatment of moving lung tumors, tha...
PURPOSE:Several studies have demonstrated potential improvements in treatment time through the use o...
Purpose: To describe results from an ongoing clinical trial that aims to evaluate the potential of t...
PURPOSE: To evaluate a novel 4D Monte Carlo simulation tool by comparing calculations to physical me...
The Accuray CyberKnife® system provides radiotherapy for the treatment of moving lung tumors, thanks...
Abstract: Recent developments in radiotherapy have focused on the management of patient motion durin...
Purpose: To quantify the clinical accuracy of the respiratory motion tracking system of the CyberKni...
© 2019 Institute of Physics and Engineering in Medicine. In this study we develop and characterise a...
Introduction. Radiotherapy is a double-edged sword as this technique inevitably irradiates healthy t...
The RADPOS system is a new in vivo dosimetry tool that combines a MOSFET dosimeter with an electroma...
Purpose: To evaluate a novel 4D dosimetry system (RADPOS) in conjunction with a deformable lung phan...
Purpose: To evaluate the geometric and dosimetric accuracies of the CyberKnife Synchrony respiratory...
Purpose: To present the latest data on the newly‐developed RADPOS 4D in vivo dosimetry system includ...
The benefits of using Synchrony (TM) Respiratory Tracking System (RTS) in conjunction with the Cyber...
Purpose: The RADPOS in vivo dosimetry system combines an electromagnetic positioning sensor with MOS...
The Accuray CyberKnife (R) system provides radiotherapy for the treatment of moving lung tumors, tha...
PURPOSE:Several studies have demonstrated potential improvements in treatment time through the use o...
Purpose: To describe results from an ongoing clinical trial that aims to evaluate the potential of t...
PURPOSE: To evaluate a novel 4D Monte Carlo simulation tool by comparing calculations to physical me...
The Accuray CyberKnife® system provides radiotherapy for the treatment of moving lung tumors, thanks...
Abstract: Recent developments in radiotherapy have focused on the management of patient motion durin...
Purpose: To quantify the clinical accuracy of the respiratory motion tracking system of the CyberKni...
© 2019 Institute of Physics and Engineering in Medicine. In this study we develop and characterise a...
Introduction. Radiotherapy is a double-edged sword as this technique inevitably irradiates healthy t...
The RADPOS system is a new in vivo dosimetry tool that combines a MOSFET dosimeter with an electroma...