Add to ORKGThe efficacy of radiotherapy is dependent on its precision and accuracy. Increasingly conformal, modulated radiation fields can be reproducibly delivered to small, complex volumes within the human body. However, treatment is not without uncertainty. This thesis focuses on limitations in radiotherapy accuracy due to uncertainty in delineation of the volume requiring treatment
Introduction: Inter-observer variability (IOV) in target volume and organ-at-risk (OAR) delineation ...
Introduction: Magnetic resonance imaging (MRI) is increasingly used for target volume delineation in...
Brachytherapy involves the treatment of cancer through the implantation of radioactive seeds into th...
Through advances in radiation delivery systems and image guidance, the accuracy and precision of rad...
Modern radiotherapy techniques enable delivery of high doses to the target volume without escalating...
Radiation therapy is afflicted by a multitude of geometric uncertainties, which must be compensated ...
The technologies available to identify anatomical structures (including radiotherapy target and norm...
Methods for ensuring that the intended volume receives the intended absorbed dose in radiotherapy ha...
Radiotherapy is one of the most widely used treatment modalities in modern oncology; it is constantl...
Background Accurate delineation of treatment volumes for radiotherapy is a crucial step in radiation...
This is the final version of the article. It first appeared from the British Institute of Radiology ...
Background and purpose: Volume delineation is a well-recognised potential source of error in radioth...
In the last decade, the majority of radiotherapy treatments are delivered via advanced radiotherapy ...
Background and purpose: Volume delineation is a well-recognised potential source of error in radioth...
The advancement of delivery techniques in external beam radiotherapy and ever-increasing complexity ...
Introduction: Inter-observer variability (IOV) in target volume and organ-at-risk (OAR) delineation ...
Introduction: Magnetic resonance imaging (MRI) is increasingly used for target volume delineation in...
Brachytherapy involves the treatment of cancer through the implantation of radioactive seeds into th...
Through advances in radiation delivery systems and image guidance, the accuracy and precision of rad...
Modern radiotherapy techniques enable delivery of high doses to the target volume without escalating...
Radiation therapy is afflicted by a multitude of geometric uncertainties, which must be compensated ...
The technologies available to identify anatomical structures (including radiotherapy target and norm...
Methods for ensuring that the intended volume receives the intended absorbed dose in radiotherapy ha...
Radiotherapy is one of the most widely used treatment modalities in modern oncology; it is constantl...
Background Accurate delineation of treatment volumes for radiotherapy is a crucial step in radiation...
This is the final version of the article. It first appeared from the British Institute of Radiology ...
Background and purpose: Volume delineation is a well-recognised potential source of error in radioth...
In the last decade, the majority of radiotherapy treatments are delivered via advanced radiotherapy ...
Background and purpose: Volume delineation is a well-recognised potential source of error in radioth...
The advancement of delivery techniques in external beam radiotherapy and ever-increasing complexity ...
Introduction: Inter-observer variability (IOV) in target volume and organ-at-risk (OAR) delineation ...
Introduction: Magnetic resonance imaging (MRI) is increasingly used for target volume delineation in...
Brachytherapy involves the treatment of cancer through the implantation of radioactive seeds into th...