Purpose - This work aims to present the design of a new continuous tool-path strategy for open-source low-cost fused deposition modeling (FDM) machines, such as Fab±Home or RepRap; and the development of an innovative integrated tool to design and fabricate customized tracheal stents with any FDM machine and six patient parameters. Both contributions were validated and implemented by obtaining a customized medical-grade silicone tracheal stent. Design/methodology/approach - For the design of the new deposition strategy, a Python programming language was used. The new tool-path strategy was proposed as a continuous path to avoid drops and gaps and to improve the accuracy of the final model. Meanwhile, patient parameters were obtained by medi...
Tracheal stents are a kind of endoprosthesis used to prevent tracheal obstruction due to different i...
Abstract Background There is a potential for direct model manufacturing of abdominal aortic aneurysm...
The application of additive manufacturing technologies for the development of invasive airway device...
Additive Manufacturing (AM) is already becoming part of our life from a technological, economic and ...
The design of customized biomedical devices is certainly relevant nowadays, and to achieve higher im...
Abstract Additive Manufacturing (AM) is already becoming part of our life from a technological, econ...
With advances in additive manufacturing technologies, the creation of medical devices which are tail...
Benign tracheal stenosis is a life-threatening condition that needs a prompt treatment when the trac...
Abstract In this work, we provide specific clinical examples to demonstrate basic practical techniqu...
In this work, we provide specific clinical examples to demonstrate basic practical techniques involv...
The management of complex airway disorders is challenging, as the airway stent placement usually res...
With the development of rapid prototyping in the mid-1980, many applications have benefited from fas...
The management of complex airway disorders is challenging, as the airway stent placement usually res...
IntroductionRecent advances in three-dimensional (3D) printing technology have made it possible to p...
Congenital tracheal stenosis (CTS) is rare lesions frequently associated with pulmonary sling (PS). ...
Tracheal stents are a kind of endoprosthesis used to prevent tracheal obstruction due to different i...
Abstract Background There is a potential for direct model manufacturing of abdominal aortic aneurysm...
The application of additive manufacturing technologies for the development of invasive airway device...
Additive Manufacturing (AM) is already becoming part of our life from a technological, economic and ...
The design of customized biomedical devices is certainly relevant nowadays, and to achieve higher im...
Abstract Additive Manufacturing (AM) is already becoming part of our life from a technological, econ...
With advances in additive manufacturing technologies, the creation of medical devices which are tail...
Benign tracheal stenosis is a life-threatening condition that needs a prompt treatment when the trac...
Abstract In this work, we provide specific clinical examples to demonstrate basic practical techniqu...
In this work, we provide specific clinical examples to demonstrate basic practical techniques involv...
The management of complex airway disorders is challenging, as the airway stent placement usually res...
With the development of rapid prototyping in the mid-1980, many applications have benefited from fas...
The management of complex airway disorders is challenging, as the airway stent placement usually res...
IntroductionRecent advances in three-dimensional (3D) printing technology have made it possible to p...
Congenital tracheal stenosis (CTS) is rare lesions frequently associated with pulmonary sling (PS). ...
Tracheal stents are a kind of endoprosthesis used to prevent tracheal obstruction due to different i...
Abstract Background There is a potential for direct model manufacturing of abdominal aortic aneurysm...
The application of additive manufacturing technologies for the development of invasive airway device...