BackgroundThe number of patients undergoing proton therapy has increased in recent years. Current treatment planning systems (TPS) calculate dose maps using three-dimensional (3D) maps of relative stopping power (RSP) and mass density. The patient-specific maps of RSP and mass density were obtained by translating the CT number (HU) acquired using single-energy computed tomography (SECT) with appropriate conversions and coefficients. The proton dose calculation uncertainty of this approach is 2.5%-3.5% plus 1 mm margin. SECT is the major clinical modality for proton therapy treatment planning. It would be intriguing to enhance proton dose calculation accuracy using a deep learning (DL) approach centered on SECT.ObjectivesThe purpose of this ...
Cone beam computed tomography (CBCT) is an imaging modality frequently used in radiotherapy for dail...
The prediction of liver D-mean with 3-dimensional radiation treatment planning (3DRTP) is time consu...
Monte Carlo proton dose calculations requires mass densities calculated from the patient CT image. T...
Objective. Kilovoltage computed tomography (kVCT) is the cornerstone of radiotherapy treatment plann...
Pencil beam (PB) dose calculation is fast but inaccurate due to the approximations when dealing with...
Radiotherapy is one of the most common techniques used to treat cancer and is administered to over 6...
PURPOSE: Adaptive proton therapy (APT) of lung cancer patients requires frequent volumetric imaging ...
Objective. Next generation online and real-time adaptive radiotherapy workflows require precise part...
Purpose/ObjectiveIn proton therapy it is common practice to acquire weekly verification CTs to monit...
Background Time-resolved 4D cone beam-computed tomography (4D-CBCT) allows a daily assessment of pat...
Background To combat one of the leading causes of death worldwide, lung cancer treatment techniques ...
Introduction: The recent developments of magnetic resonance (MR) based adaptive strategies for photo...
OBJECTIVE: Dose prediction using deep-learning networks prior to radiotherapy might lead to more eff...
Proton therapy is a fast growing treatment modality for cancer and is in selected cases preferred ov...
In this report, a transformer based deep learning proton dose calculation algorithm called Dose Tran...
Cone beam computed tomography (CBCT) is an imaging modality frequently used in radiotherapy for dail...
The prediction of liver D-mean with 3-dimensional radiation treatment planning (3DRTP) is time consu...
Monte Carlo proton dose calculations requires mass densities calculated from the patient CT image. T...
Objective. Kilovoltage computed tomography (kVCT) is the cornerstone of radiotherapy treatment plann...
Pencil beam (PB) dose calculation is fast but inaccurate due to the approximations when dealing with...
Radiotherapy is one of the most common techniques used to treat cancer and is administered to over 6...
PURPOSE: Adaptive proton therapy (APT) of lung cancer patients requires frequent volumetric imaging ...
Objective. Next generation online and real-time adaptive radiotherapy workflows require precise part...
Purpose/ObjectiveIn proton therapy it is common practice to acquire weekly verification CTs to monit...
Background Time-resolved 4D cone beam-computed tomography (4D-CBCT) allows a daily assessment of pat...
Background To combat one of the leading causes of death worldwide, lung cancer treatment techniques ...
Introduction: The recent developments of magnetic resonance (MR) based adaptive strategies for photo...
OBJECTIVE: Dose prediction using deep-learning networks prior to radiotherapy might lead to more eff...
Proton therapy is a fast growing treatment modality for cancer and is in selected cases preferred ov...
In this report, a transformer based deep learning proton dose calculation algorithm called Dose Tran...
Cone beam computed tomography (CBCT) is an imaging modality frequently used in radiotherapy for dail...
The prediction of liver D-mean with 3-dimensional radiation treatment planning (3DRTP) is time consu...
Monte Carlo proton dose calculations requires mass densities calculated from the patient CT image. T...