Background and purpose: Radiotherapy is one of the most effective cancer treatment techniques, however, delivering the optimal radiation dosage is challenging due to movements of the patient during treatment. Immobilisation devices are typically used to minimise motion. This paper reviews published research investigating the use of 3D printing (additive manufacturing) to produce patient-specific immobilisation devices, and compares these to traditional devices. Materials and methods: A systematic review was conducted across thirty-eight databases, with results limited to those published between January 2000 and January 2019. A total of eighteen papers suitably detailed the use of 3D printing to manufacture and test immobilisers, and were in...
Background Three-dimensional printing (3DP) enables the production of highly customised, cost-effici...
3D printing is investigated for application in patient immobilization during proton therapy (PT). It...
OBJECTIVE: Boluses are used in high-energy radiotherapy in order to overcome the skin sparing effect...
Background and purpose: Radiotherapy is one of the most effective cancer treatment techniques, howev...
Breast cancer is considered as one of the main causes of cancer death in women. Early diagnosis and ...
Introduction: Additive manufacturing or 3-dimensional printing has become a widespread technology wi...
Purpose/objectivesThree-dimensional (3D) printing is recognized as an effective clinical and educati...
This study investigates the use of 3D printing for patients that require localised radiotherapy trea...
Due to the increasing number of eye, brain and central nerve system tumor patients, radio oncology h...
Background and purpose: In radiotherapy (RT) bolus material is used to increase skin dose and elimin...
Until recently, three-dimensional (3D) printing/additive manufacturing has not been used extensively...
Objective To evaluate the clinical efficacy and effectiveness of using 3D printing to develop medica...
Background: The precision of a patient's set-up for the accurate delivery of radiotherapy is paramou...
PURPOSE: 3D printing technology is investigated for the purpose of patient immobilization during pro...
Background and purpose: Creating an individualized tissue equivalent material build-up (i.e. bolus) ...
Background Three-dimensional printing (3DP) enables the production of highly customised, cost-effici...
3D printing is investigated for application in patient immobilization during proton therapy (PT). It...
OBJECTIVE: Boluses are used in high-energy radiotherapy in order to overcome the skin sparing effect...
Background and purpose: Radiotherapy is one of the most effective cancer treatment techniques, howev...
Breast cancer is considered as one of the main causes of cancer death in women. Early diagnosis and ...
Introduction: Additive manufacturing or 3-dimensional printing has become a widespread technology wi...
Purpose/objectivesThree-dimensional (3D) printing is recognized as an effective clinical and educati...
This study investigates the use of 3D printing for patients that require localised radiotherapy trea...
Due to the increasing number of eye, brain and central nerve system tumor patients, radio oncology h...
Background and purpose: In radiotherapy (RT) bolus material is used to increase skin dose and elimin...
Until recently, three-dimensional (3D) printing/additive manufacturing has not been used extensively...
Objective To evaluate the clinical efficacy and effectiveness of using 3D printing to develop medica...
Background: The precision of a patient's set-up for the accurate delivery of radiotherapy is paramou...
PURPOSE: 3D printing technology is investigated for the purpose of patient immobilization during pro...
Background and purpose: Creating an individualized tissue equivalent material build-up (i.e. bolus) ...
Background Three-dimensional printing (3DP) enables the production of highly customised, cost-effici...
3D printing is investigated for application in patient immobilization during proton therapy (PT). It...
OBJECTIVE: Boluses are used in high-energy radiotherapy in order to overcome the skin sparing effect...