Biomedical Engineering Reference
In-Depth Information
Dalby,.M..J.,.N..Gadegaard,.M..O..Riehle,.C..D..W..Wilkinson,.and.A..S..G..Curtis..2004a..Investigating.
ilopodia. sensing. using. arrays. of. deined. nano-pits. down. to. 35.nm. diameter. in. size..
The
International Journal of Biochemistry and Cell Biology
.36(10):.2005-2015.
Dalby,. M.. J.,. N.. Gadegaard,. and. C.. D.. W.. Wilkinson.. 2008.. The. response. of. ibroblasts. to. hexago-
nal. nanotopography. fabricated. by. electron. beam. lithography..
Journal of Biomedical Materials
Research Part A
.84A(4):.973-979.
Dalby,.M..J.,.G..E..Marshall,.H..J..H..Johnstone,.S..Affrossman,.and.M..O..Riehle..2002a..Interactions.
of.human.blood.and.tissue.cell.types.with.95-nm-high.nanotopography..
IEEE Transactions on
NanoBioscience
.1(1):.18-23.
Dalby,.M..J.,.M..O..Riehle,.H..Johnstone,.S..Affrossman,.and.A..S..G..Curtis..2002b..In.vitro.reaction.of.
endothelial.cells.to.polymer.demixed.nanotopography..
Biomaterials
.23(14):.2945-2954.
Dalby,.M..J.,.M..O..Riehle,.H..J..Johnstone,.S..Affrossman,.and.A..S..Curtis..2002c..Polymer-demixed.
nanotopography:. Control. of. ibroblast. spreading. and. proliferation..
Tissue Engineering
. 8(6):.
1099-1108.
Dalby,.M..J.,.M..O..Riehle,.H..J..H..Johnstone,.S..Affrossman,.and.A..S..G..Curtis..2003..Nonadhesive.
nanotopography:. Fibroblast. response. to. poly(n-butyl. methacrylate)-poly(styrene). demixed.
surface.features..
Journal of Biomedical Materials Research Part A
.67A(3):.1025-1032.
Dalby,.M..J.,.M..O..Riehle,.D..S..Sutherland,.H..Agheli,.and.A..S..G..Curtis..2004b..Changes.in.ibro-
blast.morphology.in.response.to.nano-columns.produced.by.colloidal.lithography..
Biomaterials
.
25(23):.5415-5422.
Dalby,.M..J.,.M..O..Riehle,.D..S..Sutherland,.H..Agheli,.and.A..S..G..Curtis..2004c..Fibroblast.response.
to. a. controlled. nanoenvironment. produced. by. colloidal. lithography..
Journal of Biomedical
Materials Research Part A
.69A(2):.314-322.
Das,. K.,. S.. Bose,. and. A.. Bandyopadhyay.. 2009.. TiO
2
. nanotubes. on. Ti:. Inluence. of. nanoscale.
morphology.on.bone.cell-materials.interaction..
Journal of Biomedical Materials Research Part A
.
90A(1):.225-237.
Davis,.K..A.,.K..A..Burke,.P..T..Mather.et.al..2011..Dynamic.cell.behavior.on.shape.memory.polymer.
substrates..
Biomaterials
.32(9):.2285-2293.
van.Delft,.F..C..M..J..M.,.F..C..van.den.Heuvel,.W..A..Loesberg.et.al..2008..Manufacturing.substrate.
nano-grooves. for. studying. cell. alignment. and. adhesion..
Microelectronic Engineering
. 85(5-6):.
1362-1366.
Denis,. F.. A.,. P.. Hanarp,. D.. S.. Sutherland,. and. Y.. F.. DufrĂȘne.. 2004.. Nanoscale. chemical. patterns.
fabricated. by. using. colloidal. lithography. and. self-assembled. monolayers..
Langmuir
. 20(21):.
9335-9339.
Doshi,. J.. and. D.. H.. Reneker.. 1995.. Electrospinning. process. and. applications. of. electrospun. ibers..
Journal of Electrostatics
.35(2-3):.151-160.
Dvir,.T.,.B..P..Timko,.D..S..Kohane,.and.R..Langer..2011..Nanotechnological.strategies.for.engineering.
complex.tissues..
Nature Nanotechnology
.6(1):.13-22.
Frenot,. A.. and. I.. S.. Chronakis.. 2003.. Polymer. nanoibers. assembled. by. electrospinning..
Current
Opinion in Colloid and Interface Science
.8(1):.64-75.
Fromstein,.J..D.,.P..W..Zandstra,.C..Alperin.et.al..2008..Seeding.bioreactor-produced.embryonic.stem.
cell-derived. cardiomyocytes. on. different. porous,. degradable,. polyurethane. scaffolds. reveals.
the.effect.of.scaffold.architecture.on.cell.morphology..
Tissue Engineering Part A
.14(3):.369-378.
Galler,.K..M.,.A..Cavender,.V..Yuwono.et.al..2008..Self-assembling.peptide.amphiphile.nanoibers.as.
a.scaffold.for.dental.stem.cells..
Tissue Engineering Part A
.14(12):.2051-2058.
Ginger,.D..S.,.H..Zhang.and.C..A..Mirkin..2004..The.evolution.of.dip-pen.nanolithography..
Angewandte
Chemie International Edition
.43(1):.30-45.
Guler,. M.. O.,. L.. Hsu,. S.. Soukasene. et. al.. 2006.. Presentation. of. RGDS. epitopes. on. self-assembled.
nanoibers.of.branched.peptide.amphiphiles..
Biomacromolecules
.7(6):.1855-1863.
Han,.J.,.P..Lazarovici,.C..Pomerantz.et.al..2010..Co-electrospun.blends.of.PLGA,.gelatin,.and.elas-
tin.as.potential.nonthrombogenic.scaffolds.for.vascular.tissue.engineering..
Biomacromolecules
.
12(2):.399-408.
