|
Descripción
|
|
|---|---|
| Rapid prototyping, based on the combination of computer-aided designs and additive manufacturing processes for solid freeform fabrication, allows for the fast development of functional parts for proof of concept validations and has very importan! applications in the biomedical field.Among the most precise and industrially relevan! additive manufacturing processes, it is necessary to cite laser stereolithography. However, the resins typically usad in these stereolithographic systems are inadequate for interacting with living ce ls, tissues and organs, which limits their impact in emerging fields, such as üssue engineering and biofabrication. In this study, we evaluate different surface biofunctionalization processes, including the use of physical vapour depostion and the employment of human mesenchymal stem cell derivad conditionad media, as coatings for improving the biological responsa of rapid prototypas for in vitre trials. A biomedical microsystem with different cell culture chambers, as multi-organ on chip, is presentad to illustrate the approach. Results show the benefits of surface biofunctionalization upon additively manufacturad davices. | |
|
Internacional
|
Si |
|
Nombre congreso
|
Materials Science and Engineering Congress MSE 2016 |
|
Tipo de participación
|
960 |
|
Lugar del congreso
|
Darmstadt |
|
Revisores
|
Si |
|
ISBN o ISSN
|
0000-0000 |
|
DOI
|
|
|
Fecha inicio congreso
|
26/09/2016 |
|
Fecha fin congreso
|
29/09/2016 |
|
Desde la página
|
1 |
|
Hasta la página
|
8 |
|
Título de las actas
|
Materials Science and Engineering Congress MSE 2016 |