In this study we develop and characterise a six degree-of-freedom (6 DoF) robotic motion system for quality assurance of real-time image-guided radiotherapy techniques. The system consists of a commercially available robotic arm, an acrylic phantom with embedded Calypso markers, a custom base plate to mount the robot to the treatment couch, and control software implementing the appropriate sequence of transformations to reproduce measured tumour motion traces. The robotic motion system was evaluated in terms of the set-up and motion trace repeatability, static localization accuracy and dynamic localization accuracy. Four prostate, two liver and three lung motion traces, representing a range of tumor motion trajectories recorded in real pati...
Inter-fraction and intra-fraction motion management methods are increasingly applied clinically and ...
Fluoroscopy-guided percutaneous biopsy interventions are mostly performed with traditional free-hand...
Purpose: To report on the development and the initial experience with a new 3D ultrasound robotic sy...
© 2019 Institute of Physics and Engineering in Medicine. In this study we develop and characterise a...
Tumors in the chest and the abdomen move during respiration. The ability of conventional radiation t...
A commercially available motion phantom (QUASAR, Modus Medical) was modified for programmable motion...
Purpose: Image guided radiotherapy (IGRT) using cone beam computed tomography (CBCT) images greatly ...
PurposeRobotic stabilization of a therapeutic radiation beam with respect to a dynamically moving tu...
Abstract: Recent developments in radiotherapy have focused on the management of patient motion durin...
International audiencePURPOSE: We report what is to our knowledge the initial experience with a new ...
Introduction Intrafractional motion can cause substantial uncertainty in precision radiotherapy. Tr...
Anatomical motion during external beam radiotherapy can reduce the accuracy of radiation delivery an...
Head and neck cancer is often treated with radiation therapy. During this treatment, patient movemen...
A simple and independent system to detect and measure the position of a number of points in space w...
Item does not contain fulltextOBJECTIVES: To evaluate the accuracy and speed of a novel robotic tech...
Inter-fraction and intra-fraction motion management methods are increasingly applied clinically and ...
Fluoroscopy-guided percutaneous biopsy interventions are mostly performed with traditional free-hand...
Purpose: To report on the development and the initial experience with a new 3D ultrasound robotic sy...
© 2019 Institute of Physics and Engineering in Medicine. In this study we develop and characterise a...
Tumors in the chest and the abdomen move during respiration. The ability of conventional radiation t...
A commercially available motion phantom (QUASAR, Modus Medical) was modified for programmable motion...
Purpose: Image guided radiotherapy (IGRT) using cone beam computed tomography (CBCT) images greatly ...
PurposeRobotic stabilization of a therapeutic radiation beam with respect to a dynamically moving tu...
Abstract: Recent developments in radiotherapy have focused on the management of patient motion durin...
International audiencePURPOSE: We report what is to our knowledge the initial experience with a new ...
Introduction Intrafractional motion can cause substantial uncertainty in precision radiotherapy. Tr...
Anatomical motion during external beam radiotherapy can reduce the accuracy of radiation delivery an...
Head and neck cancer is often treated with radiation therapy. During this treatment, patient movemen...
A simple and independent system to detect and measure the position of a number of points in space w...
Item does not contain fulltextOBJECTIVES: To evaluate the accuracy and speed of a novel robotic tech...
Inter-fraction and intra-fraction motion management methods are increasingly applied clinically and ...
Fluoroscopy-guided percutaneous biopsy interventions are mostly performed with traditional free-hand...
Purpose: To report on the development and the initial experience with a new 3D ultrasound robotic sy...