This work aims to develop, implement and validate a Monte Carlo (MC)-based independent dose calculation (IDC) framework to perform patient-specific quality assurance (QA) for multi-leaf collimator (MLC)-based CyberKnife® (Accuray Inc., Sunnyvale, CA) treatment plans. The IDC framework uses an XML-format treatment plan as exported from the treatment planning system (TPS) and DICOM format patient CT data, an MC beam model using phase spaces, CyberKnife MLC beam modifier transport using the EGS++ class library, a beam sampling and coordinate transformation engine and dose scoring using DOSXYZnrc. The framework is validated against dose profiles and depth dose curves of single beams with varying field sizes in a water tank in units of cGy/Monit...
Radiotherapy is a cancer treatment modality in which a dose of ionising radiation is delivered to a ...
Introduction: Recent advances in the planning and delivery of radiotherapy treatments have resulted ...
International audienceBACKGROUND AND PURPOSE: Image-guided radiotherapy (IGRT) involves frequent in-...
This work aims to develop, implement and validate a Monte Carlo (MC)-based independent dose calculat...
To commission and evaluate the Monte Carlo (MC) dose calculation algorithm for the CyberKnife equipp...
BACKGROUND Vendor-independent Monte Carlo (MC) dose calculation (IDC) for patient-specific qualit...
Introduction: Commercially available treatment planning systems (TPS) may use a number of different ...
The status of radiotherapy as an important treatment modality for cancer is indisputable. In externa...
Commercial treatment planning systems with have different dose calculation algorithms have been deve...
Purpose: A factor that greatly limits the use of Monte Carlo methods for patient specific dose calcu...
International audienceIn a previous work, a PENELOPE Monte Carlo model of a Cyberknife system equipp...
New technologies in cancer radiotherapy need a more accurate computation of the dose delivered in th...
International audiencePurpose: In a previous work, a PENELOPE Monte-Carlo (MC) model of a Cyberknife...
Radiotherapy is a cancer treatment modality in which a dose of ionising radiation is delivered to a ...
Introduction: Recent advances in the planning and delivery of radiotherapy treatments have resulted ...
International audienceBACKGROUND AND PURPOSE: Image-guided radiotherapy (IGRT) involves frequent in-...
This work aims to develop, implement and validate a Monte Carlo (MC)-based independent dose calculat...
To commission and evaluate the Monte Carlo (MC) dose calculation algorithm for the CyberKnife equipp...
BACKGROUND Vendor-independent Monte Carlo (MC) dose calculation (IDC) for patient-specific qualit...
Introduction: Commercially available treatment planning systems (TPS) may use a number of different ...
The status of radiotherapy as an important treatment modality for cancer is indisputable. In externa...
Commercial treatment planning systems with have different dose calculation algorithms have been deve...
Purpose: A factor that greatly limits the use of Monte Carlo methods for patient specific dose calcu...
International audienceIn a previous work, a PENELOPE Monte Carlo model of a Cyberknife system equipp...
New technologies in cancer radiotherapy need a more accurate computation of the dose delivered in th...
International audiencePurpose: In a previous work, a PENELOPE Monte-Carlo (MC) model of a Cyberknife...
Radiotherapy is a cancer treatment modality in which a dose of ionising radiation is delivered to a ...
Introduction: Recent advances in the planning and delivery of radiotherapy treatments have resulted ...
International audienceBACKGROUND AND PURPOSE: Image-guided radiotherapy (IGRT) involves frequent in-...