Title :
A Parylene MEMS Electrothermal Valve
Author :
Li, Po-Ying ; Givrad, Tina K. ; Holschneider, Daniel P. ; Maarek, Jean-Michel I. ; Meng, Ellis
Author_Institution :
Dept. of Electr. Eng., Univ. of Southern California, Los Angeles, CA, USA
Abstract :
The first microelectromechanical-system normally closed electrothermal valve constructed using Parylene C is described, which enables both low power (in milliwatts) and rapid operation (in milliseconds). This low-power valve is well suited for applications in wirelessly controlled implantable drug-delivery systems. The simple design was analyzed using both theory and modeling and then characterized in benchtop experiments. Operation in air (constant current) and water (current ramping) was demonstrated. Valve-opening powers of 22 mW in air and 33 mW in water were obtained. Following integration of the valve with catheters, our valve was applied in a wirelessly operated microbolus infusion pump, and the in vivo functionality for the appropriateness of use of this pump for future brain mapping applications in small animals was demonstrated.
Keywords :
brain; catheters; drug delivery systems; micromechanical devices; pumps; valves; Parylene C; brain mapping applications; catheters; in vivo functionality; low-power valve; parylene MEMS electrothermal valve; power 22 mW; power 33 mW; wirelessly controlled implantable drug-delivery systems; wirelessly operated microbolus infusion pump; Drug delivery; Parylene C; electrothermal valve; wireless operation;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2009.2031689
