3-D Constructs--Molded vs. Printed - NIST
Transcript of 3-D Constructs--Molded vs. Printed - NIST
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3-D Constructs--Molded vs. Printed: The differences from a cell based perspective
Kuan Che Fang, Miriam Rafailovich, Marcia SimonStony Brook University, Stony Brook, NY
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Chung-Chue (Simon) Chang
AneriKinariwalla
Garcia Research Scholar Program: Students from HS->Graduate work together with teachers and faculty in joint interdisciplinary research projects.
SnehaSubra-
manian
Daniel Ou-Yang Steven Wei
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Jaw Case Study – 3D Titanium Implant (replacement)
• In 2012 an 83 year old woman with osteomyelitism –requiring jaw removal
• Patient had MRI so implant would be an anatomical match
• Jaw printed from titanium powder in a 2 day print
• Patient was eating, drinking, and speaking within 4 hours of surgery
• No FDA roleLiz Nickels, World's first patient-specific jaw implant, Metal Powder Report, Volume 67, Issue 2, March–April 2012, Pages 12-14,
This presentation does not pertain to FDA regulatory policy on Additive Manufacturing, and should not be construed as such.Courtesy of K. Vorvolakis, FDA
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Digital Additive Manufacturing –Individualizing bone augmentation
Control shape Control resorption
Alter materials and topography to control - Bone formation and turnover- AngiogenesisPotential for cell seedingProtein coating (matrix/cytokine)
Images: Courtesy of M Abboud
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3D Printing with PLA
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Solve Navier• -Stokes equation with Advective component.Output temperature depends on flow •rate. Printer runs very close to Tm or Tg.•
Tg~160
Tm~180
Temperature at nozzle
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E Miller, JP Rothstein, Rheol Acta (2004) 44: 160–173
Well known stick/slip instability in flow of polymer filaments as they extrude through narrow nozzles.
• Caused by surface interactions between entangled polymers and the nozzle wall.
• Modulated by adjusting the extrusion rate and the nozzle temperature.
Potential differences between 3D printed and molded surfacesSurface roughness: Sharkskin effect in polymer fibers
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Differential Scanning Calorimetry
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Crystalinity: Kinetics of spherulite formation
• Provides strength• Defects /faults crack propagation• Uneven cooling warps• Increased surface roughness
• Function of cooling rate• Nucleation sites• Time scale similar to thermal
dissipation of printer
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In-Situ SAXS WAXS• Map crystallinity• Map temperature• Measure crystallization dynamics as a function of temperature
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Topics that need further discussion• Dynamics of crystallization under conditions
far from equilibrium• Effect of surface mechanics and roughness on
protein adsorbtion, cell attachment, proliferation, and differentiation.
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Goal: Regenerate teeth
To develop a biocompatible method for autologous dentin regeneration which combines printed scaffolds with stem cell differentiation.
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Cells and their niche
Cell Substrates• Mechanics• Topography• Chemistry
Soluble and cellular mediators• Cytokines and growth factors• Cell associated ligands and receptors• Tissue fluid (media)
Scadden 2006, Nature 441:1075-79
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CELL SYSTEM: DENTAL PULP DERIVED CELLS
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Cell Source: Dental Pulp Stem Cells(DPSCs)
Dental Pulp differentiate OsteoblastsStem Cells Odontoblasts
AdipocytesNeuronal CellsMuscle CellsCartilage (chondrocytes)
DPSCs were chosen for the study because of- Their easy accessibility - high efficiency of extraction procedure- faster multiplication rate - their ability to self-renew in vivo
For this study, DPSCs were isolated under IRB approval # 20076778.
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Induction: Dexamethasone(Dex /DXM)
• DPSC can be chemically induced with high doses of dexamethasone (glucocorticoid steroid) to differentiate into osteoblasts (in vitro) [1]
• Steroids (unnatural) have adverse side effects i.e. weakened immune system and hyperglycemia [2]
[1] “Dexamethasone stimulates differentiation of odontoblasts like cells in human pulp cultures”, Alliot-Licht et al., Cell Tissue Res (2005) 321. [2] “ Differential Effect of Glucocorticoids on Calcium Absorption and Bone Mass”, Gennari C. et al., Rheumatology 32.2(1993):11-14, Oxford Jornals.
Special challenge in the tooth : • Confined space in the
canal• Difficult to localize soluble
factors• High degree of order• Cells must sense very
small changes in substrate
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• Biocompatible • Similar to Polyisoprene • Used to obdurate root
canal (same as tires). • Re-engineer for pulp
regeneration rather than obduration.
Polymeric substrate:
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Abstract: The differential adhesion hypothesis (DAH), advanced in the 1960s, proposed that the liquid-like tissue-spreading and cell segregation phenomena of development arise from tissue surface tensions that in turn arise from differences in intercellular adhesiveness. ……without exception, a cell aggregate of lower surface tension tends to envelop one of higher surface tension to which it adheres
Nobel Lecture, December 9, 1991: “SOFT MATTER”A related (although more complex) system of this type is a red blood cell. For many years it had been known that, when observed under phase contrast, these cells flicker. - …. The essential property of insoluble bilayers is that they optimise their area at fixed surfactant number. Thus, the energy is stationary with respect to area: the surface tension vanishes.
“ Malcolm was My Biologist” Lecture at NYU Poly --2006
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Embryonic Stem Cells Sense Mechanics of their Environment:• Labeled outside shell and core cells of embryo• Dissociated cells and allowed them to re-assemble• Cells self assembled correctly into core-shell• Shell cells had lower surface tension or number of cadherins
Davis, Phillips, and Steinberg
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Elastomer: Why are they special?
d
S=• kT (d/R2) -> Loss due to confinement or cross linking.
Confinement and surface •interactions determine visco-elastic properties.
• Radius of Gyration:
Kurt Binder website • We can control chemistry and mechanics separately.
Rg
P.G. DeGennes Scaling concepts in polymer physics, Ithaca, N.Y, Cornell University Press (réimpr. 1985),
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free
“stragulated”
bound
air surface
Substrate
Two Fluid Model: D=Do Nc/Ne in a X-linked matrix. N ½ surface contacts~ Nc for surfacePredictions: (1) D~N 3/2 (2) N ½ ~Nc for Mw~4M (3) Surface effect propagated by entanglements in range; Ne<N<4x10 4Predicts Scaling for Modulus: Resistance to Deformation and Viscous Flow
D~kT/ηEinstein relation
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Influence of Radius of Gyration: Rg~sqrt (Mw)Gaussian Chains form N• 1/2 contact with surfaceIf attached then they act as cross• -linkers,
D=Do (Nc/Ne)Ne=• sqrt (N) for Mw~10 6 for PS ONLY when Ne=• Nc surface effect is removed.
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23
Two PhaseLock-in AMP
FunctionGenerator
PC
32
2/1
=
RLDh
h: Tip indentationE: Modulus of materialν: Poisson ratioR: Tip radiusL: Cantilever length
•At T=Tm sample melts and becomes soft.
•Tip contact area increases.
•Indentation increases (h).
• ∆x increases sharply• Friction increases
• Measure Tm
Flateral
Displacement
hIndentation
Lnormal =25nN
∆x~h
E1
43D
2υ−= ,∆x~
Atomic Force Microscope
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0 10 20 30 40 50 60 70 80 900
2
4
6
8
10
12PB films
Res
pons
e A
mpl
itude
(mV
)
Driving Amplitude (mV)
200A 500A 1500A 2000A 3000A
Y. Ji, B. Li, S.Ge, J.C. Sokolov, M. Rafailovich, Langmuir 2005, 22, 1321-1328
G : shear modulus
∆X: lateral deflection
Hysitron
SMFM
• Modulus decreases with increasing film thickness.
• Allows for variation of one order of magnitude.
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Is the modulus effect a function of Rg?
• Modulus decreases exponentially with increasing film thickness.
• Same functional form for all Mw-> Scales with Rg.
• Confinement effect: Surface interaction influence on modulus for ~20 Rg’s
• Molecular weight: Another variable to increase flexibility of design.
Molecular Weight Effect on Modulus:
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Polymer Film Processing
PB or PI
Si
• Wafers were cut into 1cm2
squares • HF etched Si wafers • PB spun cast from toluene • Thickness of 200 to 3000 A were
measured by ellipsometry• annealed in Ultra High Vaccuum
(UHV) for 24 hours which prevents dewetting, removes toxic solvent, sterilizes substrates.
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Topography Lateral Modulation260A
840A
840A
Do cells sense matrix modulus? Ingber, D.E., The Architecture of Life. Scientific American Jan 1998; 278:48-57Donald Ingber : Cells redistribute stress to maintaintensile integrity. • No tensile stress across cells surface. • No contrast with substrate
Bio-Tensegrity
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2000A
Dying Cells• Effects are observed after 40min in ambient T=23C• Concentric rings are becoming disordered as cell loses its adhesion to the surface. •Modulus decreases (cells get softer). • Contrast with Pb/Si substrate increases.
0 10 20 30 40 50 60 70 80 90
0
20
40
60
80
100
120
1
2
3
45
67
8 9
1011
12 13
14 15 16 17
18
1920 21 22 23
24 2526
A
B
CD
EF
GH
I
J K
L MN
OP Q R
ST U
V W X Y Z
ab
c
de
fg
hi
jk
lm
no p
qr s t
u v wx y
z
Res
pons
e A
mpl
itude
(m
V)
Driving Amplitude (mV)
dead cells
healthy c
t= 40 min
t= 1 hr
t= 3 hrs
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Thin PB Thick PB TCP0
10
20
30
40
50
60
70
80
90
100
Dou
blin
g tim
e (h
r)
0 1 2 3 4 5 6 7 80
10000
20000
30000
40000
50000
60000
70000
80000
Cel
l num
ber
Time (day)
Thin PB Thick PB TCP
• Cells like PB. Proliferation without additional protein i.e. Fn) coating.
• Doubling time is the same on thin PB as TCP.
• Cells adhere: Actin is well extended on TCP and thin PB
• PB similar to membrane?
DPSC on PB: Influence on Proliferation
25µm
25µm
25µm
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Dental pulp cells respond to surface mechanics:Cell modulus follows surface modulus
Moduli decrease with film thickness Cell and surface moduli show the same functional form
Cells respond to differentially small changes in surface modulus
Evaluations using polybutadiene (PB) surfaces: PB (250K) spun cast out of toluene onto HF treated silicon
Film ModulusCe
ll M
odul
us
0 500 1000 1500 2000 2500 30000
2
4
6
8
10
3000
TCP
Mod
ulus
(M
Pa)
Thickness of PB films (A)
PB films DPSCs on PB films TCP DPSCs on TCP
Film Thickness(Å)
Mod
ulus
(MPa
)
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Polymer Film Processing
PB or PI
Si
• Wafers were cut into 1cm2
squares • HF etched Si wafers • PB spun cast from toluene • Thickness of 200 to 3000 A were
measured by ellipsometry• annealed in Ultra High Vaccuum
(UHV) for 24 hours which prevents dewetting, removes toxic solvent, sterilizes substrates.
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SEM–EDAX of DPSCs on PB films after 21 day incubation
Non-Induced
Induced
200A 2000A
Calcium phosphate
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Grazing Incidence X-ray Diffraction (GIXD) of DPSCs on PB films after 21 day incubation
GIXD confirms SEM results; •Diffraction peak positions correspond to crystalline HA• No crystalline deposits are formed on films 150nm or thicker.
1.6 1.8 2.0 2.2 2.4
Inte
nsity
(a.
u.)
q (A-1)
Hydroxyapatite 200A 500A 1500A 2000A 3000A
(+)
1.6 1.8 2.0 2.2 2.4
In
tens
ity (a.
u.)
q (A-1)
(-)
HA control sample
150nm
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SEM of DPSCs on PB films after 21 days of incubation
Non-Induced
Induced
200A 500A 1500A 2000A 3000A
Above a film thickness of 150nm (G <2.5 MPa), no biomineralized deposits are observed.
Here
Is
The Boundary
8.25MPa 1.36MPa
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Do cells sense Rg?
150 nm thick film: 1 2 3
Cells moduli scale linearly with •film moduli; not thickness.Cells sense film mechanics, •not substrate.Confirm Rg scaling of •modulus
200nm
150nm
20nm
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Mineralization Markers involved in DPSCs differentiation
Osteocalcin• (OCN) – marker for bone formation, produced solely by matureosteoblasts [1]
Bone• Sialoprotein (BSP) – specific maker for bone formation, is expressed in verylower amounts ( ̴ 1%) in dentin and large amounts ( ̴ 8-12%) in bone [5]
Dentinsialophosphoprotein• (DSPP) – marker for odonotoblast differentiation [2,3]and important for dentinogenesis and ECM mineralization [4].
Alkaline• Phosphatase (ALP) – enzyme involved in tissue mineralization, isessential for deposition of minerals in bone and teeth
1. Rickard DJ, Sullivan TA, Shenker BJ, Leboy PS, Kazhdan I. Induction of rapid osteoblast differentiation in rat bone marrow stromal cell cultures by dexamethasone and BMP-2. Dev Biol 1994;161:218 –28.
2 Butler WT. Dentin specific proteins. Methods Enzymol 1987;145:290 –303.3 Butler WT, Brunn JC, Qin C, McKee MD. Extracellular matrix proteins and the dynamics of dentin formation. Connect Tissue
Res 2002;43:301–7. 4 Yamada Y, Fujimoto A, Ito A, Yoshimi R, Ueda M. Cluster analysis and gene expression profiles: a cDNA microarray system-
based comparison between human dental pulp stem cells (hDPSCs) and human mesenchymal stem cells (hMSCs) for tissue engineering cell therapy. Biomaterials 2006;27:3766–81.
5 Fujisawa R, Butler WT, Brunn JC, Zhou HY, Kuboki Y (1993).Differences in composition of cell-attachment sialoproteins between dentin and bone. J Dent Res 72:1222-1226.
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Dental pulp cells respond to surface mechanics:Mechanics controls osteocalcin expression (differentiation marker)
-Dex -Dex +Dex +Dex200Å 2000Å 200Å 2000Å
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RT-PCR: Surface induced gene expression DPSCs
Thin PB(-) Thick PB(-) Thin PB(+) Thick PB(+)0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
atto
mol
e/ 2
0 ng
RNA
day7 day14 day21 day28
Thin PB(-) Thick PB(-) Thin PB(+) Thick PB(+)0.000
0.001
0.002
0.003
0.004
0.005
0.006
at
tom
ole/
20
ng R
NA
day7 day14 day21 day28
ALP is elevated on all, except thick (• -) PB.
Dex induces • osteogenesis; OCN high .
Thin (• -) PB induces odontogenesis(OCN decreases while DSPP increases @ 28 d)
Thick (• -) PB: No induction w/o dex.
Alkaline phosphatase ALP
Osteocalcin OCN
Dentin sialophosphoprotein DSPP
Thin PB(-) Thick PB(-) Thin PB (+) Thick PB(+)0
2
4
6
8
10
12
atto
mole
/ 20
ng R
NA
day1 day7 day14 day21
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WHAT IS THE IMPACT OF MECHANICAL HETEROGENEITY?
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cm Length Scale Differences in Mechanics Soluble factors limit response to substrate mechanics
Thick PB
012345
tn(-)
tk(-)
cont
act-
tn(-)
cont
act-
tk(-)
non-
cont
act-
tn(-)
non-
cont
act-
tk(-)Re
lativ
e M
odul
us (a
.u.)
No mineralization on thin PB (-Dex)in co-culture with cells on thick PB
Cell moduli are responsive to substrate moduli , BUT
NO MINERALIZATION MINERALIZATION
NO MINERALIZATION
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μm Length Scale differences in mechanics(Identical chemically and topographically)
Topography Lateral Force
50µm
Polymer film
Thin (hard) Thick (soft)
Pattern was produced by microlithographyPB was spun cast over the surface
PB Thickness (Å)
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For μm length scales:Cell moduli follow surface moduli but mineralization does not
Soluble factors limit response to substrate mechanics
-Dex
00.5
11.5
22.5
33.5
44.5
5
3-2 um 5-5 um 5-10 um
Rel
ativ
e M
odul
us (a
.u.)
3-2 μm 5-5 μm 5-10 μm
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nm Length Scale: cells feel multiple stimuliPatterned area
Non-patterned area
Thick PB
Nanopatterns were produced by imprinting from a phase separated polymer blend mask (PS/PMMA)
Sputter
Si wafer Si wafer Si wafer
Si waferSi waferPB Spin cast
PB
700C
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25/75 50/50 thick PB
-Dex
+Dex0
0.5
1
1.5
2
2.5
3
3.5
4
4.5
5
25/75 pattern 50/50 pattern 25/75 non-pattern
50/50 non-pattern
Rel
ativ
e M
odul
us (a
.u.)
non-induced
induced
Cell moduli on patterns are high(d7)
Mineralization on patterned surfacedoes not require dexamethasone (d28)
nm Length Scale HeterogeneitySoluble factors do not limit cell responses to surface moduli
Patterns Thick PB
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Length Scale: Regulation of Cell Function
When cells feel only one stimulus (cm to μm) -- soluble factors predominate Disconnect between modulus and mineralization
When cells feel multiple stimuli (nm ) -- direct cell:substrate interactions can override soluble factor effects Increase in cell modulus and increase in mineralization
Focal Adhesions • Signals from surface control cell mechanics and phenotype• FA are as large as 1-5 μm with submicron to micron spacing
Choi et al, Trends Cell Bio 2010, 20(12)705
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SEM of molded and 3D printed PLA(Makerbot ReplicatorTM 2X, PLA filament)
Molded
3D Printed
1 um 10 um 100 um
2 um 20 um 100 um
Heterogeneity at multiple length scales
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DPSC – plated on non-sterilized PLA(24 hours post-plating)
3D Printed Molded
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Adhesion and ProliferationTopography Vs Ethylene oxide sterilization
3D Molded Tissue Culture Plastic
Day 1
Day 13
Ethylene oxide: representative pictures (n=3)
Day 28/3D
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Fluorescent Microscopy
Day 1
Day 3
Day 5
Day 11
3D Mold
3D Mold
3D Mold
3D Mold
250μm 250μm
250μm 250μm
250μm 250μm
250μm 250μm
Plating density 9000/cm2
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Cells and mineral deposits (28 d)
Molded 3D Printed
- Dexamethasone
+ Dexamethasone
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Calcium phosphate: SEM/EDX
Molded3D Printed (High resolution)
(- Dexamethasone)
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PLA: Standard resolution -DEXMicrons thick biomineralized •layer.Nanoscale roughness induces •cell differentiation.Flat and rough surface •together—Boiomineraliztion overides micro-roughness in co-culture
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Differentiation (RNA markers)
qRT-PCR
-Cells grown for 28 days (-dexamethasone) -mRNA isolated-cDNA prepared -qPCR carried out with primers against alkaline phosphatase and osteocalcin
18S RNA was used to normalize RNA levelsData shown is relative to β-glycerol phosphate negative control (TCP)
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RT-PCR
The surface induced odontogenic differentiation in theAbsence of another cytokines.
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Conclusion
Cells respond to nanoscale surface structure. AM surfaces have roughness on multiple scales
due multiple factors
To move AM forward we must have a better understanding of the underlying science.
In-Situ Characterization of the polymer being printed makes this possible.
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THANK YOU
This work was supported in part by NSF-Inspire award #1344267and NYSTEM award #CO28096
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Tissue culture plastic
Day 1 post plating: Ethanol Vs Ethylene oxide
Ethylene oxide moldedEthanol molded
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Day 1 post platingReduced cell plating efficiency on 3D printed surface
Ethylene oxide 3D Ethylene oxide molded
Tissue culture plastic2/18/2015 experiment
?
Is there residual ethylene oxideOr
Is topography impacting cell plating
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13 Days post platingCells on 3D printed surface proliferate
Ethylene oxide 3D Ethylene oxide molded
Tissue culture plastic
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Cell morphology
3D printed (HR) Molded
Ethanol
Ethyleneoxide
DAY 7 POST-PLATING
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Focal Adhesions: ROCK inhibition decreases cell moduli and mineralization
Inhibition of ROCK reduces cell moduli
0
2
4
6
8
10
12
Rela
tive
Mod
ulus
(a.u
)
day4
day7
-Dex,Thin
-DexThick
+DexThin
+DexThick
-Y2732 +Y2732
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Is surface-induced phenotype reversible?(Growth on PB without dexamethasone)
PB - 200Å
PB - 2000Å
Calcium phosphate deposited
Calcium phosphate Calcium carbonate
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Additive Manufacturing of Bone Grafts
Repair of ameloblastoma Repair of traumatic injury
Images: Courtesy of M Abboud
Required to stabilize implants
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TO QUESTIONS FACING MEDICINE TODAY:TO WHAT EXTENT ARE 3-D PRINTED DEVICES EQUIVALENT TO TRADITIONAL MOLDED OR CAST ONES?
Will cells respond similarly to printed and molded forms?
The Wake Forest Institute for Regenerative Medicine prints ear, nose and bone scaffolds that can be coated with cells to grow body parts. (Laurie Rubin)
Fabrication of PGA/PLA ScaffoldWith the Shape of Human Nosehttp://dx.doi.org/10.5772/55540
Cartilage replacement with porosity for cell penetration
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For μm length scales:Cell moduli follow surface moduli but mineralization does not
Soluble factors limit response to substrate mechanics
-Dex
00.5
11.5
22.5
33.5
44.5
5
3-2 um 5-5 um 5-10 um
Rel
ativ
e M
odul
us (a
.u.)
+Dex
00.5
11.5
22.5
33.5
44.5
5
3-2 um 5-5 um 5-10 um
Rel
ativ
e M
odul
us (a
.u.)
3-2 μm 5-5 μm 5-10 μm
3-2 μm 5-5 μm 5-10 μm