Title :
Microsyringe based fabrication of high resolution organic structures for bioengineering applications
Author :
Vozz, G. ; Ahluwalia, A. ; De Rossi, D. ; Giunti, F. ; Mazzoldi, A. ; Sapienza, A.
Author_Institution :
Pisa Univ., Italy
Abstract :
Two techniques for controlled deposition of complex architectures are described here. They employ a highly accurate 3D micropositioning system with pressure controlled or volume controlled syringe to deposit nano-liter sized drops of materials. One of the techniques has been used to realise scaffolds for tissue engineering, and the other for fabrication of polymeric actuators. The system has been characterised in terms of deposition parameters such as applied pressure, line width and height and polymer viscosity, and a fluid dynamic model simulating the deposition process has been developed, allowing an accurate prediction of the topological characteristics of the polymer structures
Keywords :
biocontrol; biomedical materials; drops; microactuators; micropositioning; nanotechnology; organic compounds; bioengineering applications; fluid dynamic model; high resolution organic structures; highly accurate 3D micropositioning system; microsyringe-based fabrication; nanoliter sized material drops; polymer viscosity; polymeric actuators fabrication; pressure-controlled syringe; tissue engineering scaffolds; topological characteristics prediction; volume-controlled syringe; Actuators; Biological materials; Control systems; Fabrication; Polymers; Predictive models; Pressure control; Size control; Tissue engineering; Viscosity;
Conference_Titel :
Microtechnologies in Medicine and Biology, 1st Annual International, Conference On. 2000
Conference_Location :
Lyon
Print_ISBN :
0-7803-6603-4
DOI :
10.1109/MMB.2000.893758
