2009
DOI: 10.1109/jmems.2009.2031689
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A Parylene MEMS Electrothermal Valve

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-… Show more

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Cited by 25 publications
(13 citation statements)
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“…An electrothermal principle was selected to open the normally-closed valve placed inline with the drug reservoir. A short current pulse applied to the metallic resistor element induced Joule heating which rapidly melted the polymer membrane and opened the flow path (7.5 mA over 66 msec for flap design [24]; typically >15 mA with current ramping over 150 sec for serpentine design [23]). Drug housed within the inline pressurized reservoir escaped through the opened catheter and into the systemic circulation.…”
Section: Laboratory Animal Research Application With Electronicallmentioning
confidence: 99%
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“…An electrothermal principle was selected to open the normally-closed valve placed inline with the drug reservoir. A short current pulse applied to the metallic resistor element induced Joule heating which rapidly melted the polymer membrane and opened the flow path (7.5 mA over 66 msec for flap design [24]; typically >15 mA with current ramping over 150 sec for serpentine design [23]). Drug housed within the inline pressurized reservoir escaped through the opened catheter and into the systemic circulation.…”
Section: Laboratory Animal Research Application With Electronicallmentioning
confidence: 99%
“…The pressure-responsive one-way valve opened only under dosing conditions (elevated reservoir pressure) and prevented back flow of fluids into the device [94-96, 100, 101]. Low power operation allows wireless activation of drug delivery (shown in vitro) [23]. Drug delivery and refill were first demonstrated in enucleated porcine eyes prior to acute drug pumping performed in rabbits [94, 95].…”
Section: Electrolysis-based Drug Delivery Micropumpsmentioning
confidence: 99%
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“…Temporary valves formed from polymer membranes with metallic resistor structures were robust enough to securely contain reservoir contents. A short current pulse applied to the metallic resistor was used to thermally degrade the polymer membrane and allow release of reservoir contents [27,28]. …”
Section: Reservoir-based Drug-delivery Devicesmentioning
confidence: 99%