Biomedical Engineering Reference
In-Depth Information
Fluence
:.laser.lux.integrated.over.time..Deined.as.the.amount.of.energy.that.intersects.a.
unit.area.over.the.time.of.the.laser.pulse
LAT
:.laser.ablation.transfer
LIFT
:.laser-induced.forward.transfer
MAPLE
:.matrix-assisted.pulsed-laser.evaporation
MAPLE DW
:.matrix-assisted.pulsed-laser.evaporation.direct-write
Matrix
:.comprised.of.the.material.of.interest,.which.is.desired.to.be.deposited,.and.a.bulk.
material. that. suspends. the. material. of. interest,. provides. hydration. and. cushion.
for.cells,.and.has.appropriate.absorptive.properties.so.as.to.interact.with.the.laser.
Photo- and thermolysis
:. a. chemical. compound. is. broken. down. by. photons. or. thermal.
energy,.respectively
PLD
:.pulsed-laser.deposition
Print ribbon
:. or. simply. ribbon. taken. preferentially. over. “target.”. The. transfer. material.
is.deposited.in.a.ilm.on.the.laser.transparent.print.ribbon,.which.supports.said.
material.until.transfer
Receiving substrate
:.the.surface.on.which.the.target.will.be.deposited
Target
:.material.with.which.the.laser.interacts.(typically.the.focus.of.the.laser).and.con-
verts.optical.to.thermal.to.mechanical.energy.for.transfer
Transfer material
:.—the.material.of.interest.to.be.transferred:.cells,.proteins,.DNA,.metals,.
or.otherwise,.which.need.to.be.patterned.on.the.receiving.substrate..May.or.may.
not.be.the.target.of.the.laser
References
Apitz,.I..and.Vogel,.A.,.2005..Material.ejection.in.nanosecond.Er:.YAG.laser.ablation.of.water,.liver,.
and.skin..
Applied Physics A
,.81(2),.329-338.
Barron,. J.A.,. Krizman,. D.B.,. and. Ringeisen,. B.R.,. 2005a.. Laser. printing. of. single. cells:. Statistical.
analysis,.cell.viability,.and.stress..
Annals of Biomedical Engineering
,.33(2),.121-130.
Barron,.J.A.,.Young,.H.D..et.al.,.2005b..Printing.of.protein.microarrays.via.a.capillary-free.luid.jetting.
mechanism..
Proteomics
,.5(16),.4138-4144.
Barron,. V.. et. al.,. 2003.. Bioreactors. for. cardiovascular. cell. and. tissue. growth:. A. review..
Annals of
Biomedical Engineering
,.31(9),.1017-1030.
Black,.A.F..et.al.,.1998..In.vitro.reconstruction.of.a.human.capillary-like.network.in.a.tissue-engineered.
skin.equivalent..
The FASEB Journal: Oficial Publication of the Federation of American Societies for
Experimental Biology
,.12(13),.1331-1340.
Blau,.H.M..and.Bani,.A.,.2001..The.well-tempered.vessel..
Nature Medicine
,.7(5),.532-533.
Bohandy,.J.,.Kim,.B.,.and.Adrian,.F.,.1986..Metal.deposition.from.a.supported.metal.ilm.using.an.
excimer.laser..
Journal of Applied Physics
,.60,.1538.
Borges,. J.. et. al.,. 2003.. Engineered. adipose. tissue. supplied. by. functional. microvessels..
Tissue
Engineering
,.9(6),.1263-1270.
Brown,. M.S.,. Kattamis,. N.T.,. and. Arnold,. C.B.,. 2011.. Time-resolved. dynamics. of. laser-induced.
micro-jets.from.thin.liquid.ilms..
Microluidics and Nanoluidics
,.11(2),.199-207.
Cassell,. O.,. 2002.. Vascularisation. of. tissue-engineered. grafts:. The. regulation. of. angiogenesis. in.
reconstructive.surgery.and.in.disease.states..
British Journal of Plastic Surgery
,.55(8),.603-610.
Catros,.S..et.al.,.2011..Layer-by-layer.tissue.microfabrication.supports.cell.proliferation.in.vitro.and.
in.vivo..
Tissue Engineering. Part C: Methods
,.18(1),.62-70.
Chen,.G.,.Ushida,.T.,.and.Tateishi,.T.,.2001..Development.of.biodegradable.porous.scaffolds.for.tissue.
engineering..
Materials Science
,.17(1),.63-69.
