During the procedure of radiotherapy for superficial tumors, the key to treatment is to ensure that the skin surface receives an adequate radiation dose. However, due to the presence of the built-up effect of high-energy rays, equivalent tissue compensators (boluses) with appropriate thickness should be placed on the skin surface to increase the target radiation dose. Traditional boluses do not usually fit the skin perfectly. Wet gauze is variable in thickness day to day which results in air gaps between the skin and the bolus. These unwanted but avoidable air gaps lead to a decrease of the radiation dose in the target area and can have a poor effect on the outcome. Three-dimensional (3D) printing, a new rising technology named “additive ma...
[Background] he skin-sparing effect of megavoltage-photon beams in radiotherapy (RT) reduces the tar...
This work is aimed at studying the use of 3D printing technology for the manufacture of personalized...
Background Boluses are routinely used in radiotherapy to modify surface doses. Nevertheless, consid...
OBJECTIVE: Boluses are used in high-energy radiotherapy in order to overcome the skin sparing effect...
Background and purpose: In radiotherapy (RT) bolus material is used to increase skin dose and elimin...
Boluses are used in high-energy radiotherapy in order to overcome the skin sparing effect. In practi...
In radiation therapy (RT) for skin cancer, tissue-equivalent substances called boluses are widely us...
Bolus is commonly used in radiation therapy to improve radiation dose distribution to the target vol...
Background and purpose: Creating an individualized tissue equivalent material build-up (i.e. bolus) ...
<div><p>A three-dimensional (3D)-printed customized bolus (3D bolus) can be used for radiotherapy ap...
A three-dimensional (3D)-printed customized bolus (3D bolus) can be used for radiotherapy applicatio...
Abstract Background Computed tomography (CT) data used for patient radiotherapy planning can nowaday...
The aim of this study was to assess the feasibility and advantages of a patient-specific breast bolu...
Due to its vast number of occurrences, cancer has caused an economic impact on the public and supple...
The aim of this study was to assess the feasibility and advantages of a patient-specific breast bolu...
[Background] he skin-sparing effect of megavoltage-photon beams in radiotherapy (RT) reduces the tar...
This work is aimed at studying the use of 3D printing technology for the manufacture of personalized...
Background Boluses are routinely used in radiotherapy to modify surface doses. Nevertheless, consid...
OBJECTIVE: Boluses are used in high-energy radiotherapy in order to overcome the skin sparing effect...
Background and purpose: In radiotherapy (RT) bolus material is used to increase skin dose and elimin...
Boluses are used in high-energy radiotherapy in order to overcome the skin sparing effect. In practi...
In radiation therapy (RT) for skin cancer, tissue-equivalent substances called boluses are widely us...
Bolus is commonly used in radiation therapy to improve radiation dose distribution to the target vol...
Background and purpose: Creating an individualized tissue equivalent material build-up (i.e. bolus) ...
<div><p>A three-dimensional (3D)-printed customized bolus (3D bolus) can be used for radiotherapy ap...
A three-dimensional (3D)-printed customized bolus (3D bolus) can be used for radiotherapy applicatio...
Abstract Background Computed tomography (CT) data used for patient radiotherapy planning can nowaday...
The aim of this study was to assess the feasibility and advantages of a patient-specific breast bolu...
Due to its vast number of occurrences, cancer has caused an economic impact on the public and supple...
The aim of this study was to assess the feasibility and advantages of a patient-specific breast bolu...
[Background] he skin-sparing effect of megavoltage-photon beams in radiotherapy (RT) reduces the tar...
This work is aimed at studying the use of 3D printing technology for the manufacture of personalized...
Background Boluses are routinely used in radiotherapy to modify surface doses. Nevertheless, consid...