Dual microfluidic perifusion networks for concurrent islet perifusion and optical imaging.
This study explores a new class of duplex microfluidic device which utilizes a dual perifusion network to simultaneously perform live-cell optical imaging of physiological activities and study insulin release kinetics on two islet populations. This device also incorporates on-chip staggered herringbone mixers (SHMs) to increase mixing efficiency and facilitate the generation of user-defined chemical gradients. Mouse islets are used to simultaneously measure dynamic insulin release, changes in mitochondrial potentials, and calcium influx in response to insulin secretagogues (glucose and tolbutamide), and show a high signal-to-noise ratio and spatiotemporal resolution of all measured parameters for both perifusion chambers. This system has many potential applications for studying β-cell phy...div id=medwormpbiMedWorm Message:/i/b Please support the a href=http://www.doctorsinchains.org/ target=_blankDoctors In Chains/a campaign for the a href=http://www.doctorsinchains.org/medics/a tortured and sentenced for up to 15 years in a href=http://www.doctorsinchains.org/Bahrain/a. a href=https://twitter.com/#!/search/%23FreeDoctors#FreeDoctors/a/p/div
FDA Panel Votes Against Expanding Use of Amgen Drug Xgeva
A federal advisory panel rejected a proposal by Amgen to expand the use of its bone drug Xgeva in men with prostate cancer that has not spread to the bones. (Source: WSJ.com: Health)
