While hemodialysis is a unique therapy for treating chronic kidney failure, the application of extracorporeal blood processing presents the opportunity for treating a wider range of bloodborne diseases. The objective of the i-Blood research team is to develop a blood processing device that utilizes microscale-based technology as a platform for...
Presented here is an investigation and comparison of two entrapment methods of algae. Conventional calcium alginate bead entrapment is compared to a recently described modified bead entrapment method, utilizing poly(ethylene glycol) and calcium alginate, which results in void or capillary formation within the beads. It is shown that algal growth...
The Jovanovic lab at Oregon State University (OSU) is developing iCore, a versatile blood processing platform which leverages microfluidic process intensification via increased mass transfer efficiency and decreased device footprint with the goal of creating a portable, wearable device. One application of iCore is for the treatment of hyperferremia resulting...
Microscale-based technology has potential applications in the medical field. The development of a new microscale medical device requires experimentation and testing. This can be done by creating a breadboard device that can perform the functionalities the final device should be able to do. This breadboard device can also be used...