Add to ORKGA three-dimensional microfluidic device has been successfully fabricated and the flow streams characterized for eventual use in studying communication in an in vitro network of nerve cells. The microfluidic system is composed of two layers of channels: a lower layer for the delivery of pharmacological solutions and an upper layer of channels used to direct the flow of the pharmacological solution streams and perfuse the cells with media and nutrients. Flow profiles have been characterized with computational fluid dynamics simulations, confocal fluorescence microscopy, and carbon-fiber amperometry, which have been used to map changes in flow profiles at different bulk flow rates. Ultimately, the microfluidic system and incorporated cell netw...
In the past decades, the scientific community is committed to understanding the mechanism of informa...
For better translation from basic science to everyday clinical practice, biomedical research must at...
Several methods for extending the functionality of a commercially available microfluidic system have...
We present a 3-D microfluidic device designed for localized drug delivery to cellular networks. The ...
Microfluidics technology has the potential to allow precise control of the temporal and spatial aspe...
The study of individual cells and cellular networks can greatly benefit from the capabilities of mic...
In this contribution we present the development of three microfabricated devices for the study of ne...
Spatially and temporally resolved delivery of soluble factors is a key feature for pharmacological a...
The overall goal of this research was to develop an efficient microfluidic system to study signal tr...
A microfluidic chip featuring laminar flow-based parallel gradient-generating networks was designeda...
An Active Microscaffold System with Fluid Delivery and Stimulation/Recording Functionalities for Cul...
This thesis work investigates the application of microfluidics to perform electrophysiological studi...
This application provides devices for modeling ischemic stroke conditions. The devices can be used t...
In the past decades, the scientific community is committed to understanding the mechanism of informa...
For better translation from basic science to everyday clinical practice, biomedical research must at...
Several methods for extending the functionality of a commercially available microfluidic system have...
We present a 3-D microfluidic device designed for localized drug delivery to cellular networks. The ...
Microfluidics technology has the potential to allow precise control of the temporal and spatial aspe...
The study of individual cells and cellular networks can greatly benefit from the capabilities of mic...
In this contribution we present the development of three microfabricated devices for the study of ne...
Spatially and temporally resolved delivery of soluble factors is a key feature for pharmacological a...
The overall goal of this research was to develop an efficient microfluidic system to study signal tr...
A microfluidic chip featuring laminar flow-based parallel gradient-generating networks was designeda...
An Active Microscaffold System with Fluid Delivery and Stimulation/Recording Functionalities for Cul...
This thesis work investigates the application of microfluidics to perform electrophysiological studi...
This application provides devices for modeling ischemic stroke conditions. The devices can be used t...
In the past decades, the scientific community is committed to understanding the mechanism of informa...
For better translation from basic science to everyday clinical practice, biomedical research must at...
Several methods for extending the functionality of a commercially available microfluidic system have...