Biomedical Engineering Reference
In-Depth Information
and Tillement , O. ( 2007 ) Hybrid
gadolinium oxide nanoparticles:
multimodal contrast agents for in vivo
imaging .
Journal of the American
Chemical Society
,
129
( 16 ), 5076 - 84 .
31
McDonald , M.A. and Watkin , K.L. ( 2006 )
Investigations into the physicochemical
properties of dextran small particulate
gadolinium oxide nanoparticles.
Academic Radiology
,
13
( 4 ), 421 - 7 .
32
Gould , P. ( 2006 ) Nanomagnetism shows
in vivo potential.
Nano Today
,
1
( 4 ),
34 - 9 .
33
Maenosono , S. , Suzuki , T. and Saita , S.
( 2008 ) Superparamagnetic FePt
nanoparticles as excellent MRI contrast
agents .
Journal of Magnetism and
Magnetic Materials
,
320
( 9 ), L79 - 83 .
34
Miguel , O.B. , Gossuin , Y. , Morales ,
M.P. , Gillis , P. , Muller , R.N. and
Veintemillas - Verdaguer , S. ( 2007 )
Comparative analysis of the H-1 NMR
relaxation enhancement produced by
iron oxide and core-shell iron-iron oxide
nanoparticles .
Magnetic Resonance
Imaging
,
25
( 10 ), 1437 - 41 .
35
Bomati - Miguel , O. , Morales , M.P. ,
Tartaj , P. , Ruiz - Cabello , J. , Bonville , P. ,
Santos , M. , Zhao , X.Q. and Veintemillas -
Verdaguer , S. ( 2005 ) Fe - based
nanoparticulate metallic alloys as
contrast agents for magnetic resonance
imaging .
Biomaterials
,
26
( 28 ), 5695 - 703 .
36
Cho , S.J. , Jarrett , B.R. , Louie , A.Y. and
Kauzlarich , S.M. ( 2006 ) Gold - coated iron
nanoparticles: a novel magnetic
resonance agent for T - 1 and T - 2
weighted imaging.
Nanotechnology
,
17
( 3 ), 640 - 4 .
37
Su , C.H. , Sheu , H.S. , Lin , C.Y. , Huang ,
C.C. , Lo , Y.W. , Pu , Y.C. , Weng , J.C. ,
Shieh , D.B. , Chen , J.H. and Yeh , C.S.
( 2007 ) Nanoshell magnetic resonance
imaging contrast agents.
Journal of the
American Chemical Society
,
129
( 7 ),
2139 - 46 .
38
Bottrill , M. , Nicholas , L.K. and Long ,
N.J. ( 2006 ) Lanthanides in magnetic
resonance imaging.
Chemical Society
Reviews
,
35
( 6 ), 557 - 71 .
39
Sharma , P. , Brown , S.C. , Walter , G. ,
Santra , S. , Scott , E. , Ichikawa , H. ,
Fukumori , Y. and Moudgil , B.M. ( 2007 )
Gd nanoparticulates: from magnetic
resonance imaging to neutron capture
therapy .
Advanced Powder Technology
,
18
( 6 ), 663 - 98 .
40
Voisin , P. , Ribot , E.J. , Miraux , S. ,
Bouzier - Sore , A.K. , Lahitte , J.F. ,
Bouchaud , V. , Mornet , S. , Thiaudiere ,
E. , Franconi , J.M. , Raison , L. , Labrugere ,
C. and Delville , M.H. ( 2007 ) Use of
lanthanide - grafted inorganic
nanoparticles as effective contrast agents
for cellular uptake imaging.
Bioconjugate
Chemistry
,
18
( 4 ), 1053 - 63 .
41
Allen , M.J. and Meade , T.J. ( 2003 )
Synthesis and visualization of a
membrane-permeable MRI contrast
agent .
Journal of Biological Inorganic
Chemistry
,
8
( 7 ), 746 - 50 .
42
Allen , M.J. , MacRenaris , K.W. ,
Venkatasubramanian , P.N. and Meade ,
T.J. ( 2004 ) Cellular delivery of MRI
contrast agents.
Chemistry and Biology
,
11
( 3 ), 301 - 7 .
43
Corbin , I.R. , Li , H. , Chen , J. , Lund - Katz ,
S. , Zhou , R. , Glickson , J.D. and Zheng ,
G. ( 2006 ) Low - density lipoprotein
nanoparticles as magnetic resonance
imaging contrast agents.
Neoplasia
,
8
( 6 ),
488 - 98 .
44
Crich , S.G. , Lanzardo , S. , Alberti , D. ,
Belfi ore , S. , Ciampa , A. , Giovenzanaz ,
G.B. , Lovazzano , C. , Pagliarin , R. and
Aime , S. ( 2007 ) Magnetic resonance
imaging detection of tumor cells by
targeting low- density lipoprotein
receptors with Gd - loaded low - density
lipoprotein particles.
Neoplasia
,
9
( 12 ),
1046 - 56 .
45
Frias , J.C. , Ma , Y.Q. , Williams , K.J. ,
Fayad , Z.A. and Fisher , E.A. ( 2006 )
Properties of a versatile nanoparticle
platform contrast agent to image and
characterize atherosclerotic plaques by
magnetic resonance imaging.
Nano
Letters
,
6
( 10 ), 2220 - 4 .
46
Becker , M.L. , Bailey , L.O. and Wooley ,
K.L. ( 2004 ) Peptide - derivatized shell -
cross - linked nanoparticles. 2.
Biocompatibility evaluation.
Bioconjugate
Chemistry
,
15
( 4 ), 710 - 17 .
47
Turner , J.L. , Pan , D.P.J. , Plummer , R. ,
Chen , Z.Y. , Whittaker , A.K. and Wooley ,
K.L. ( 2005 ) Synthesis of gadolinium -
