Biomedical Engineering Reference
In-Depth Information
extracellular microenvironments
for morphogenesis in tissue
engineering .
Nat. Biotechnol.
,
23
(
1
),
47 - 55 .
26
Kraehenbuehl , T.P. , Zammaretti , P. , Van
der Vlies , A.J. , Schoenmakers , R.G. ,
Lutolf , M.P. , Jaconi , M.E. , and Hubbell ,
J.A. ( 2008 ) Three - dimensional
extracellular matrix - directed
cardioprogenitor differentiation:
systematic modulation of a synthetic
cell - responsive PEG - hydrogel .
Biomaterials
,
29
(
18
), 2757 - 2766 .
27
Redhead , H.M. , Davis , S.S. , and Illum , L.
( 2001 ) Drug delivery in poly(lactide -
co
-
glycolide) nanoparticles surface modifi ed
with poloxamer 407 and poloxamine 908:
in vitro
characterisation and
in vivo
evaluation.
J. Control. Release
,
70
(
3
),
353 - 363 .
28
Stolnik , S. , Heald , C.R. , Neal , J. , Garnett ,
M.C. , Davis , S.S. , Illum , L. , Purkis , S.C. ,
Barlow , R.J. , and Gellert , P.R. ( 2001 )
Polylactide - poly(ethylene glycol)
micellar-like particles as potential drug
carriers: production, colloidal properties
and biological performance.
J. Drug
Target.
,
9
(
5
), 361 - 378 .
29
Riley , T. , Stolnik , S. , Heald , C.R. , Xiong ,
C.D. , Garnett , M.C. , Illum , L. , Davis ,
S.S. , Purkiss , S.C. , Barlow , R.J. , and
Gellert , P.R. ( 2001 ) Physicochemical
evaluation of nanoparticles assembled
from poly(lactic acid) - poly(ethylene glycol)
(PLA-PEG) block copolymers as drug
delivery vehicles.
Langmuir
,
17
(
11
),
3168 - 3174 .
30
Dunn , S.E. , Brindley , A. , Davis , S.S. ,
Davies , M.C. , and Illum , L. ( 1994 )
Polystyrene - poly(ethylene glycol)
(ps-peg2000) particles as model systems
for site - specifi c drug-delivery. 2. The
effect of PEG surface-density on the
in - vitro
cell - interaction and
in - vivo
biodistribution .
Pharm. Res.
,
11
(
7
),
1016 - 1022 .
31
Gref , R. , Minamitake , Y. , Peracchia , M.T. ,
Trubetskoy , V. , Torchilin , V. , and Langer ,
R. ( 1994 ) Biodegradable long - circulating
polymeric nanospheres.
Science
,
263
,
1600 - 1603 .
32
Rothenfl uh , D.A. , Bermudez , H. , O'Neil ,
C.P. , and Hubbell , J.A. ( 2008 )
Biofunctional polymer nanoparticles for
intra-articular targeting and retention in
cartilage .
Nat. Mater.
,
7
(
3
), 248 - 254 .
33
Grayson , A.C.R. , Choi , I.S. , Tyler , B.M. ,
Wang , P.P. , Brem , H. , Cima , M.J. , and
Langer , R. ( 2003 ) Multi - pulse drug
delivery from a resorbable polymeric
microchip device.
Nat. Mater.
,
2
(
11
),
767 - 772 .
34
Park , J. - H. , Allen , M.G. , and Prausnitz ,
M.R. ( 2006 ) Polymer microneedles for
controlled-release drug delivery.
Pharm.
Res.
,
23
, 1008 - 1019 .
35
Ringsdorf , H. ( 1975 ) Structure and
properties of pharmacologically active
polymers .
J. Polym. Sci. Symp.
,
51
,
135 - 153 .
36
Gros , L. , Ringsdorf , H. , and Schupp , H.
(1981) Polymer antitumour agents on a
molecular and on a cellular level?
Angew.
Chem. Int. Ed. Engl.
,
20
, 305 - 325 .
37
Jain , A. and Duncan , S.K. ( 2008 ) Jain,
PEGylation: an approach for drug
delivery. A review.
Crit. Rev. Ther. Drug
Carrier Syst.
,
25
(
5
), 403 - 447 .
38
Duncan , R. ( 2007 ) Designing polymer
conjugates as lysosomotropic
nanomedicines .
Biochem. Soc. Trans.
,
35
,
56 - 60 .
39
Zentner , G.M. , Rathi R. , Shih C. , McRea
J.C. , Seo M - H. , Oh , H. , Rhee B.G. ,
Mestecky J. , Moldoveanu Z. , Morgan M. ,
and Weitman , S. ( 2001 ) Biodegradable
block copolymers for delivery of proteins
and water - insoluble drugs .
J. Control.
Release
,
72
, 203 - 215 .
40
Elstad , N.L. and Fowers , K.D. ( 2009 )
OncoGel (ReGel/paclitaxel) - Clinical
applications for a novel paclitaxel delivery
system .
Adv. Drug Deliv. Rev.
,
61
(
10
),
785 - 794 .
41
Langer , R. and Tirrell , D.A. ( 2004 )
Designing materials for biology and
medicine .
Nature
,
428
(
6982
), 487 - 492 .
42
Shen , W. , Zhang , K.C. , Kornfi eld , J.A. ,
and Tirrell , D.A. ( 2006 ) Tuning the
erosion rate of artifi cial protein hydrogels
through control of network topology.
Nat.
Mater.
,
5
(
2
), 153 - 158 .