000129603 001__ 129603
000129603 005__ 20180317092903.0
000129603 037__ $$aCONF
000129603 245__ $$aMicrofluidics-generated immobilized biomolecule gradients on hydrogels
000129603 269__ $$a2008
000129603 260__ $$bThe Chemical and Biological Microsystems Society$$c2008
000129603 336__ $$aConference Papers
000129603 520__ $$aExtra-cellular matrix (ECM) tethered morphogen gradients play an important role in tissue development and regeneration. There is currently only a limited set of model systems which can mimic these gradients in an artificial ECM-like environment. We have developed such a system that is able to stably immobilize a microfluidics-generated protein gradient on a poly(ethylene) glycol (PEG) hydrogel. After patterning, the hydrogel can be released from the chip and be directly used for cell culture.
000129603 6531_ $$aGradient
000129603 6531_ $$aHydrogel
000129603 6531_ $$aPoly(ethylene) Glycol
000129603 6531_ $$aCell Assay
000129603 700__ $$0244261$$aKobel, Stefan$$g177867
000129603 700__ $$0244265$$aCosson, Steffen$$g152270
000129603 700__ $$0244264$$aLutolf, Matthias$$g106911
000129603 7112_ $$aMicroTAS: The Twelfth International Conference on Miniaturized Systems for Chemistry and Life Sciences$$cSan Diego, CA, USA$$dOctober 12 -16, 2008 
000129603 720_1 $$aLocascio, Laurie E.$$eed.
000129603 720_1 $$aGaitan, Michael$$eed.
000129603 720_1 $$aPaegel, Brian M.$$eed.
000129603 720_1 $$aRoss, David J.$$eed.
000129603 720_1 $$aVreeland, Wyatt N.$$eed.
000129603 773__ $$j2$$q1549-1552$$tProceedings of MicroTAS 2008
000129603 8564_ $$uhttp://www.microtas2008.org/$$zURL
000129603 8564_ $$s655827$$uhttps://infoscience.epfl.ch/record/129603/files/520_0368.pdf$$zn/a
000129603 909CO $$ooai:infoscience.tind.io:129603$$pSV$$pconf
000129603 909C0 $$0252143$$pUPLUT$$xU11736
000129603 937__ $$aUPLUT-CONF-2008-003
000129603 973__ $$aEPFL$$rREVIEWED$$sPUBLISHED
000129603 980__ $$aCONF