Biomedical Engineering Reference
In-Depth Information
the infarcted myocardium.
Circulation
,
116
( 11 ), I38 - 45 .
261
Guzman , R. , Uchida , N. , Bliss , T.M. ,
He , D.P. , Christopherson , K.K. ,
Stellwagen , D. , Capela , A. , Greve , J. ,
Malenka , R.C. , Moseley , M.E. , Palmer ,
T.D. and Steinberg , G.K. ( 2007 )
Long - term monitoring of transplanted
human neural stem cells in
developmental and pathological contexts
with MRI.
Proceedings of the National
Academy of Sciences of the United States of
America
,
104
( 24 ), 10211 - 16 .
262
Hoehn , M. , Kustermann , E. , Blunk , J. ,
Wiedermann , D. , Trapp , T. , Wecker , S. ,
Focking , M. , Arnold , H. , Hescheler , J. ,
Fleischmann , B.K. , Schwindt , W. and
Buhrle , C. ( 2002 ) Monitoring of
implanted stem cell migration in vivo: a
highly resolved in vivo magnetic
resonance imaging investigation of
experimental stroke in rat.
Proceedings of
the National Academy of Sciences of the
United States of America
,
99
( 25 ),
16267 - 72 .
263
Berry , C.C. , Wells , S. , Charles , S. and
Curtis , A.S.G. ( 2003 ) Dextran and
albumin derivatised iron oxide
nanoparticles: infl uence on fi broblasts in
vitro .
Biomaterials
,
24
( 25 ), 4551 - 7 .
264
Sun , R. , Dittrich , J. , Le - Huu , M. ,
Mueller , M.M. , Bedke , J. , Kartenbeck , J. ,
Lehmann , W.D. , Krueger , R. , Bock , M. ,
Huss , R. , Seliger , C. , Grone , H.J. ,
Misselwitz , B. , Semmler , W. and
Kiessling , F. ( 2005 ) Physical and
biological characterization of
superparamagnetic iron oxide- and
ultrasmall superparamagnetic iron
oxide - labeled cells - a comparison .
Investigative Radiology
,
40
( 8 ), 504 - 13 .
265
Pawelczyk , E. , Arbab , A.S. , Chaudhry ,
A. , Balakumaran , A. , Robey , P.G. and
Frank , J.A. ( 2008 ) In vitro model of
bromodeoxyuridine or iron oxide
nanoparticle uptake by activated
macrophages from labeled stem cells:
implications for cellular therapy.
Stem
Cells
,
26
( 5 ), 1366 - 75 .
266
Baumjohann , D. , Hess , A. , Budinsky , L. ,
Brune , K. , Schuler , G. and Lutz , M.B.
(2006) In vivo magnetic resonance
imaging of dendritic cell migration into
the draining lymph nodes of mice.
European Journal of Immunology
,
36
( 9 ),
2544 - 55 .
267
Ahrens , E.T. , Feili - Hariri , M. , Xu , H. ,
Genove , G. and Morel , P.A. ( 2003 )
Receptor - mediated endocytosis of
iron-oxide particles provides effi cient
labeling of dendritic cells for in vivo MR
imaging .
Magnetic Resonance in Medicine
,
49
( 6 ), 1006 - 13 .
268
Perea , H. , Aigner , J. , Heverhagen , J.T. ,
Hopfner , U. and Wintermantel , E.
(2007) Vascular tissue engineering with
magnetic nanoparticles: seeing deeper.
Journal of Tissue Engineering and
Regenerative
,
1
( 4 ), 318 - 21 .
269
Bulte , J.W.M. , Zhang , S.C. ,
van Gelderen , P. , Herynek , V. , Jordan ,
E.K. , Duncan , I.D. and Frank , J.A. ( 1999 )
Neurotransplantation of magnetically
labeled oligodendrocyte progenitors:
magnetic resonance tracking of cell
migration and myelination.
Proceedings
of the National Academy of Sciences of the
United States of America
,
96
( 26 ),
15256 - 61 .
270
Koch , A.M. , Reynolds , F. , Kircher , M.F. ,
Merkle , H.P. , Weissleder , R. and
Josephson , L. ( 2003 ) Uptake and
metabolism of a dual fl uorochrome
tat-nanoparticle in HeLa cells.
Bioconjugate Chemistry
,
14
( 6 ), 1115 - 21 .
271
Zhao , M. , Kircher , M.F. , Josephson , L.
and Weissleder , R. ( 2002 ) Differential
conjugation of tat peptide to
superparamagnetic nanoparticles and its
effect on cellular uptake.
Bioconjugate
Chemistry
,
13
( 4 ), 840 - 4 .
272
Josephson , L. , Tung , C.H. , Moore , A.
and Weissleder , R. ( 1999 ) High -
effi ciency intracellular magnetic labeling
with novel superparamagnetic-tat
peptide conjugates.
Bioconjugate
Chemistry
,
10
( 2 ), 186 - 91 .
273
Hilger , I. , Trost , R. , Reichenbach , J.R. ,
Linss , W. , Lisy , M.R. , Berndt , A. and
Kaiser , W.A. ( 2007 ) MR imaging of
Her-2/neu protein using magnetic
nanoparticles .
Nanotechnology
,
18
( 13 ),
article 135103.
274
Zhang , Y. , Kohler , N. and Zhang , M.Q.
( 2002 ) Surface modifi cation of
superparamagnetic magnetite