Biomedical Engineering Reference
In-Depth Information
. 65.. Lee,. P.. et. al.,. Nanoliter. scale. microbioreactor. array. for. quantitative. cell. biology,.
Biotechnol.
Bioeng.
.94,.5,.2006.
. 66.. Khabiry,. M.. et. al.,. Cell. docking. in. double. grooves. in. a. microluidic. channel,.
Small
. 5,. 1186,.
2009.
. 67.. Kamholz,.A..et.al.,.Quantitative.analysis.of.molecular.interaction.in.a.microluidic.channel:.the.
T-sensor,.
Anal. Chem.
.71,.5340,.1999.
. 68.. Dertinger,. S.. et. al.,. Generation. of. gradients. having. complex. shapes. using. microluidic. net-
works,.
Anal. Chem.
.73,.1240,.2001.
. 69.. Irimia,.D.,.Geba,.D.A.,.and.Toner,.M.,.Universal.microluidic.gradient.generator,.
Anal. Chem.
.78,.
3472,.2006.
. 70.. Du,. Y.. et. al.,. Convection-driven. generation. of. long-range. material. gradients,.
Biomaterials
. 31,.
2686,.2010.
. 71.. Du,.Y..et.al.,.Rapid.generation.of.spatially.and.temporally.controllable.long-range.concentra-
tion.gradients.in.a.microluidic.device,.
Lab Chip
.9,.761,.2009.
. 72.. Kim,.L..et.al.,.Microluidic.arrays.for.logarithmically.perfused.embryonic.stem.cell.culture,.
Lab
Chip
.6,.394,.2006.
. 73.. Liu,.Y..and.Chan-Park,.M.,.A.biomimetic.hydrogel.based.on.methacrylated.dextran-graft-lysine.
and.gelatin.for.3D.smooth.muscle.cell.culture,.
Biomaterials
.31,.1158,.2010.
. 74.. Upadhyaya,. S.. and. Selvaganapathy,. P.,. Microluidic. devices. for. cell. based. high. throughput.
screening,.
Lab Chip
.10,.341,.2010.
. 75.. Wu,.H.,.Huang,.B.,.and.Zare,.R.,.Generation.of.complex,.static.solution.gradients.in.microlu-
idic.channels,.
J. Am. Chem. Soc
.128,.4194,.2006.
. 76.. Hong,.J.W..and.Quake,.S.R.,.Integrated.nanoliter.systems,.
Nat. Biotechnol.
.21,.1179,.2003.
. 77.. Thorsen,.T.,.Maerkl,.S.J.,.and.Quake,.S.R.,.Microluidic.large-scale.integration,.
Science
.298,.580,.
2002.
. 78.. Hung,.P.J..et.al.,.Continuous.perfusion.microluidic.cell.culture.array.for.high-throughput.cell-
based.assays,.
Biotechnol. Bioeng.
.89,.1,.2005.
. 79.. Hung,.P.J..et.al.,.A.novel.high.aspect.ratio.microluidic.design.to.provide.a.stable.and.uniform.
microenvironment.for.cell.growth.in.a.high.throughput.mammalian.cell.culture.array,.
Lab Chip
.
5,.44,.2005.
. 80.. King,.K..et.al.,.A.high-throughput.microluidic.real-time.gene.expression.living.cell.array,.
Lab
Chip
.7,.77,.2007.
. 81.. Fukuda,.J..et.al.,.Micromolding.of.photocrosslinkable.chitosan.hydrogel.for.spheroid.microar-
ray.and.co-cultures,.
Biomaterials
.2006.
. 82.. Tien,.J..and.Chen,.C.S.,.Patterning.the.cellular.microenvironment,.
IEEE Eng. Med. Biol. Mag.
.21,.
95,.2002.
. 83.. Tien,.J.,.Nelson,.C.M..and.Chen,.C.S.,.Fabrication.of.aligned.microstructures.with.a.single.elas-
tomeric.stamp,.
Proc. Natl. Acad. Sci. USA
.99,.1758,.2002.
. 84.. Nelson,.C.M..and.Chen,.C.S.,.VE-cadherin.simultaneously.stimulates.and.inhibits.cell.prolif-
eration.by.altering.cytoskeletal.structure.and.tension,.
J. Cell Sci.
.116,.3571,.2003.
. 85.. Khademhosseini,. A.. et. al.,. Molded. polyethylene. glycol. microstructures. for. capturing. cells.
within.microluidic.channels,.
Lab Chip
.4,.425,.2004.
. 86.. Khademhosseini,.A..et.al.,.Micromolding.of.photocrosslinkable.hyaluronic.acid.for.cell.encap-
sulation.and.entrapment,.
J. Biomed. Mater. Res. A
.79,.522,.2006.
. 87.. Napolitano,.A.P..et.al.,.Dynamics.of.the.self-assembly.of.complex.cellular.aggregates.on.micro-
molded.nonadhesive.hydrogels,.
Tissue Eng. Part A
.13,.2087,.2007.
. 88.. Nichol,.J.W..and.Khademhosseini,.A.,.Modular.tissue.engineering:.engineering.biological.tis-
sues.from.the.bottom.up,.
Soft Matter.
.5,.1312,.2009.
. 89.. Peppas,.N.A..et.al.,.Hydrogels.in.biology.and.medicine:.from.molecular.principles.to.bionano-
technology,.
Adv. Mater.
.18,.1345,.2006.
. 90.. Burdick,. J.A.. and. Vunjak-Novakovic,. G.,. Engineered. microenvironments. for. controlled. stem.
cell.differentiation,.
Tissue Eng. Part A
.15,.205,.2009.
