Biomedical Engineering Reference
In-Depth Information
Biological immunoassay utilizing
magnetic marker and high Tc
superconducting quantum interference
device magnetometer.
Japanese Journal of
Applied Physics
,
42
, L1436 - 8 .
13
Graham , D.L. , Ferreira , H.A. and
Freitas , P.P. ( 2004 ) Magnetoresistive -
based biosensors and biochips.
Trends in
Biotechnology
,
22
, 455 - 62 .
14
Mulvaney , S.P. , Cole , C.L. , Kniller , M.D. ,
Malito , M. , Tamanaha , C.R. , Rife , J.C. ,
Stanton , M.W. and Whitman , L.J. ( 2007 )
Rapid, femtomolar bioassays in complex
matrices combining microfl uidics and
magnetoelectronics .
Biosensors and
Bioelectronics
,
23
, 191 - 200 .
15
Rife , J.C. , Miller , M.M. , Sheehan , P.E. ,
Tamanaha , C.R. , Tondra , M. and
Whitman , L.J. ( 2003 ) Design and
performance of GMR sensors for the
detection of magnetic microbeads in
biosensors .
Sensors and Actuators. A,
Physical
,
107
, 209 - 18 .
16
Hayes , M.A. , Polson , N.A. , Phayre , A.N.
and Garcia , A.A. ( 2001 ) Flow - based
microimmunoassay .
Analytical
Chemistry
,
73
, 5896 - 902 .
17
Choi , J. - W. , Oh , K.W. , Thomas , J.H. ,
Heineman , W.R. , Halsall , H.B. , Nevin ,
J.H. , Helmicki , A.J. , Henderson , H.T.
and Ahn , C.H. ( 2002 ) An integrated
microfl uidic biochemical detection
system for protein analysis with
magnetic bead - based sampling
capabilities .
Lab on a Chip
,
2
, 27 - 30 .
18
Nam , J. - M. , Thaxton , C.S. and Mirkin ,
C.A. ( 2003 ) Nanoparticle - based bio - bar
codes for the ultrasensitive detection of
proteins .
Science
,
301
, 1884 - 6 .
19
Kim , K.S. and Park , J. - K. ( 2005 )
Magnetic force - based multiplexed
immunoassay using superparamagnetic
nanoparticles in microfl uidic channel.
Lab on a Chip
,
5
, 657 - 64 .
20
Hahn , Y.K. , Jin , Z. , Kang , J.H. , Oh , E. ,
Han , M.K. , Kim , H.S. , Jang , J.T. , Lee ,
J.H. , Cheon , J. , Kim , S.H. , Park , H.S.
and Park , J.K. ( 2007 ) Magnetophoretic
immunoassay of allergen-specifi c IgE in
an enhanced magnetic fi eld gradient.
Analytical Chemistry
,
79
, 2214 - 20 .
21
Dunlop , E.H. , Feiler , W.A. and Mattione ,
M.J. ( 1984 ) Magnetic separation in
biotechnology .
Biotechnology Advances
,
2
,
63 - 74 .
22
Kang , J.H. and Park , J. - K. ( 2005 )
Technical paper on microfl uidic
devices - cell separation
technology,
Asia Pacifi c Biotech News
,
9
,
1135 - 46 .
23
Furdui , V.I. and Harrison , D.J. ( 2004 )
Immunomagnetic T cell capture from
blood for PCR analysis using
microfl uidic systems.
Lab on a Chip
,
4
,
614 - 18 .
24
McCloskey , K.E. , Chalmers , J.J. and
Zborowski , M. ( 2003 ) Magnetic cell
separation: characterization of
magnetophoretic mobility.
Analytical
Chemistry
,
75
, 6868 - 74 .
25
Lermo , A. , Campoy , S. , Barb é , J. ,
Hern á ndez , S. , Alegret , S. and Pividori ,
M.I. ( 2007 ) In situ DNA amplifi cation
with magnetic primers for the
electrochemical detection of food
pathogens.
Biosensors and Bioelectronics
,
22
, 2010 - 17 .
26
Pamme , N. and Wilhelm , C. ( 2006 )
Continuous sorting of magnetic cells via
on - chip free - fl ow magnetophoresis.
Lab
on a Chip
,
6
, 974 - 80 .
27
Tsai , H. , Lin , Y. , Chang , H.W. and Fuh ,
C.B. ( 2008 ) Integrating the QCM
detection with magnetic separation for
on - line analysis .
Biosensors and
Bioelectronics
,
24
, 485 - 8 .
28
Š afaˇ í k , I. and Š afaˇ í kov á , M. ( 1999 ) Use
of magnetic techniques for the isolation
of cells.
Journal of Chromatography B
,
722
, 33 - 53 .
29
Š afaˇ í k , I. and Š afaˇ í kov á , M. ( 2002 )
Magnetic nanoparticles and biosciences.
Monatshefte f ü r Chemie
,
133
, 737 - 59 .
30
Reddy , S. , Moore , L.R. , Sun , L. ,
Zborowski , M.J. and Chalmers , J.J.
(1996) Determination of the magnetic
susceptibility of labeled particles by
video imaging.
Chemical Engineering
Science
,
51
, 947 - 56 .
31
Delatour , C. , Schmitz , G. , Maxwell , E.
and Kelland , D. ( 1983 ) Designing
HGMS matrix arrays for selective
fi ltration.
IEEE Transactions on
Magnetics
,
Mag
- 19 , 2127 - 9 .
32
Han , K. - H. and Frazier , A.B. ( 2004 )
Continuous magnetophoretic separation