UNIVERSITY OF ALASKA FAIRBANKS Patent applications |
Patent application number | Title | Published |
20150238513 | METHODS AND COMPOSITIONS FOR THE TREATMENT OF ISCHEMIC INJURY TO TISSUE USING THERAPEUTIC HYPOTHERMIA - Disclosed are compositions and methods for inducing therapeutic hypothermia in a subject. | 08-27-2015 |
20140260646 | Noise Reduction In Infrasound Detection - Provided are methods, circuits and apparatuses for detecting pressure variations. The circuit can comprise at least two pressure sensors electrically coupled in parallel. At least one pressure sensor can have a differential input and a differential output. The circuit can also comprise a first switching mechanism electrically coupled to the differential input of the at least one pressure sensor. The first switching mechanism can be configured to electrically couple a first current source to the at least one pressure sensor according to a first reference signal. The circuit can also comprise a second switching mechanism electrically coupled to the differential output of the at least one pressure sensor. The second switching mechanism can be configured to electrically couple a second current source to the at least one pressure sensor according to a second reference signal. | 09-18-2014 |
20110084014 | DROPLET-BASED DIGITAL MICRODIALYSIS - The invention relates to a droplet-based digital microdialysis method that utilizes discrete perfusate droplets marched through a microchannel in an intermittent manner. The droplets sequentially reside on a microdialysis membrane that is in contact with the test fluid, e.g., fluid in an extracellular space. The droplets remain stationary at the membrane site for a period of time for rapid equilibration with the test fluid, and is then marched to an outlet port for processing. The invention further relates to microdialysis probes and methods based on the droplet-based digital microdialysis. | 04-14-2011 |
20090107907 | DROPLET-BASED DIGITAL MICRODIALYSIS - The invention relates to a droplet-based digital microdialysis method that utilizes discrete perfusate droplets marched through a microchannel in an intermittent manner. The droplets sequentially reside on a microdialysis membrane that is in contact with the test fluid, e.g., fluid in an extracellular space. The droplets remain stationary at the membrane site for a period of time for rapid equilibration with the test fluid, and is then marched to an outlet port for processing. The invention further relates to microdialysis probes and methods based on the droplet-based digital microdialysis. | 04-30-2009 |