Add to ORKGEmerging evidence suggests cardiac substructures are highly radiosensitive during radiation therapy for cancer treatment. However, variability in substructure position after tumor localization has not been well characterized. This study quantifies inter-fraction displacement and planning organ at risk volumes (PRVs) of substructures by leveraging the excellent soft tissue contrast of magnetic resonance imaging (MRI). Eighteen retrospectively evaluated patients underwent radiotherapy for intrathoracic tumors with a 0.35 T MRI-guided linear accelerator. Imaging was acquired at a 17–25 s breath-hold (resolution 1.5 × 1.5 × 3 mm3). Three to four daily MRIs per patient (n = 71) were rigidly registered to the planning MRI-simulation based on tumo...
Background and purpose: Quantifying radiation dose to cardiac substructures is important for researc...
BACKGROUND AND PURPOSE: The heart is a complex anatomical organ and contouring the cardiac substruct...
To investigate the heart position variability in deep-inspiration breath-hold (DIBH) radiation thera...
Purpose/Objective(s): Growing evidence suggests that radiation therapy (RT) doses to the heart and c...
Purpose/Objective(s): Mounting evidence suggests that cardiac substructures are highly radiosensitiv...
Purpose: While radiation dose to cardiac substructures has been linked to increased cardiac toxiciti...
PURPOSE: Radiation dose to the heart and cardiac substructures has been linked to cardiotoxicities. ...
PURPOSE: Whole-heart dose metrics are not as strongly linked to late cardiac morbidities as radiatio...
Purpose: Radiation dose to cardiac substructures is related to radiationinduced heart disease. Howev...
Background and purpose We developed an automatic method to segment cardiac substructures given a ra...
Introduction. Mean heart dose (MHD) is the most widely used dosimetric parameter for cardiac sparin...
BACKGROUND AND PURPOSE: Inadvertent heart and coronary arteries (CA) irradiation may increase the...
Radiotherapy is a safe and effective treatment for many patients with cancer. However, incidental ra...
Background and Purpose: The heart is a complex anatomical organ and contouring the cardiac substruct...
Purpose: Emerging evidence suggests that the heart is more radio-sensitive than previously assumed; ...
Background and purpose: Quantifying radiation dose to cardiac substructures is important for researc...
BACKGROUND AND PURPOSE: The heart is a complex anatomical organ and contouring the cardiac substruct...
To investigate the heart position variability in deep-inspiration breath-hold (DIBH) radiation thera...
Purpose/Objective(s): Growing evidence suggests that radiation therapy (RT) doses to the heart and c...
Purpose/Objective(s): Mounting evidence suggests that cardiac substructures are highly radiosensitiv...
Purpose: While radiation dose to cardiac substructures has been linked to increased cardiac toxiciti...
PURPOSE: Radiation dose to the heart and cardiac substructures has been linked to cardiotoxicities. ...
PURPOSE: Whole-heart dose metrics are not as strongly linked to late cardiac morbidities as radiatio...
Purpose: Radiation dose to cardiac substructures is related to radiationinduced heart disease. Howev...
Background and purpose We developed an automatic method to segment cardiac substructures given a ra...
Introduction. Mean heart dose (MHD) is the most widely used dosimetric parameter for cardiac sparin...
BACKGROUND AND PURPOSE: Inadvertent heart and coronary arteries (CA) irradiation may increase the...
Radiotherapy is a safe and effective treatment for many patients with cancer. However, incidental ra...
Background and Purpose: The heart is a complex anatomical organ and contouring the cardiac substruct...
Purpose: Emerging evidence suggests that the heart is more radio-sensitive than previously assumed; ...
Background and purpose: Quantifying radiation dose to cardiac substructures is important for researc...
BACKGROUND AND PURPOSE: The heart is a complex anatomical organ and contouring the cardiac substruct...
To investigate the heart position variability in deep-inspiration breath-hold (DIBH) radiation thera...