Add to ORKGThe first normally-closed Parylene valve operating on electrothermal principles for rapid and wireless drug delivery was designed, fabricated, modeled, and tested. This valve is a key component of an implantable microbolus infusion pump (MIP) for neuroimaging in freely-moving untethered animals. This low-power, lightweight MEMS valve enables an MIP suitable for studying functional brain activation in genetically engineered mice by replacing a large conventional solenoid valve used previously in larger animals
Abstract—We present the first electrochemical actuator with Parylene bellows for large-deflection op...
Implantable devices offer an alternative to systemic delivery of drugs for the treatment of neurolog...
The challenge of treating neurological disorders has motivated the development of implantable device...
Abstract—The first microelectromechanical-system normally closed electrothermal valve constructed us...
Mechanical and thermal modelling of the first normally-closed Parylene valve operating on electrothe...
UnrestrictedAn implantable miniature infusion pump (MIP) that can be activated remotely has been des...
In the past decade, the applications of Parylene in microelectromechanical systems (MEMS) devices ha...
UnrestrictedTo date, many drug delivery devices have been proposed, however, so far, none of them ca...
Microelectrode arrays now allow the simultaneous electrical recording and stimulation of large numbe...
In order to track a specific neuron and keep good sampling neural signals during chronic implantatio...
This paper presents the design, fabrication, and functional testing of a fully implantable, flexible...
We design, fabricate, and characterize nickel-based multielectrode microprobes integrated with flexi...
2014-05-21The manner in which a drug is delivered to the body plays a major role in its efficacy. Th...
This paper presents the world’s first in-channel parylene dual-valved microfluidic system for unpowe...
2018-05-09Implantable medical devices make possible the treatment of chronic conditions by providing...
Abstract—We present the first electrochemical actuator with Parylene bellows for large-deflection op...
Implantable devices offer an alternative to systemic delivery of drugs for the treatment of neurolog...
The challenge of treating neurological disorders has motivated the development of implantable device...
Abstract—The first microelectromechanical-system normally closed electrothermal valve constructed us...
Mechanical and thermal modelling of the first normally-closed Parylene valve operating on electrothe...
UnrestrictedAn implantable miniature infusion pump (MIP) that can be activated remotely has been des...
In the past decade, the applications of Parylene in microelectromechanical systems (MEMS) devices ha...
UnrestrictedTo date, many drug delivery devices have been proposed, however, so far, none of them ca...
Microelectrode arrays now allow the simultaneous electrical recording and stimulation of large numbe...
In order to track a specific neuron and keep good sampling neural signals during chronic implantatio...
This paper presents the design, fabrication, and functional testing of a fully implantable, flexible...
We design, fabricate, and characterize nickel-based multielectrode microprobes integrated with flexi...
2014-05-21The manner in which a drug is delivered to the body plays a major role in its efficacy. Th...
This paper presents the world’s first in-channel parylene dual-valved microfluidic system for unpowe...
2018-05-09Implantable medical devices make possible the treatment of chronic conditions by providing...
Abstract—We present the first electrochemical actuator with Parylene bellows for large-deflection op...
Implantable devices offer an alternative to systemic delivery of drugs for the treatment of neurolog...
The challenge of treating neurological disorders has motivated the development of implantable device...