Biomedical Engineering Reference
In-Depth Information
77. D.L. Simpson and R.K. Kobos, Potentiometric microbiological assay of gentamicin, streptomycin, and
neomycin with a carbon dioxide gas-sensing electrode.
Anal. Chem.
55
, 1974-1977 (1983).
78. J. Janata, Immunoelectrode.
J. Am. Chem. Soc.
97
, 2914-2916 (1975).
79. M.Y. Keating and G.A. Rechnitz, Potentiometric enzyme immunoassay for digoxin using polystyrene
beads.
Anal. Lett.
18
, 1-10 (1985).
80. T. Fonong and G.A. Rechnitz, Homogeneous potentiometric enzyme immunoassay for human immu-
noglobulin G.
Anal. Chem.
56
, 2586-2590 (1984).
81. P. D'Orazlo and G.A. Rechnitz, Ion electrode measurements of complement and antibody levels using
marker-loaded sheep red blood cell ghosts.
Anal. Chem.
49
, 2083-2086 (1977).
82. T. Kitade, K. Kitamura, T. Konishi, S. Takegami, T. Okuno, M. Ishikawa, M. Wakabayashi,
K. Nishikawa, and Y. Muramatsu, Potentiometric immunosensor using artifi cial antibody based on
molecularly imprinted polymers.
Anal. Chem.
76
, 6802-6807 (2004).
83. S. Koch, P. Woias, L.K. Meixner, S. Drost, and H. Wolf, Protein detection with a novel ISFET-based
zeta potential analyzer.
Biosens. Bioelectron.
14
, 413-421 (1999).
84. Y.Q. Miao, J.G. Guan, and J.R. Chen, Ion sensitive fi eld effect transducer-based biosensors.
Biotech.
Adv.
21
, 527-534 (2003).
85. A.P. Soldatkin, V. Volotovsky, A.V. Elskaya, N. Jaffrezic-Renault, and C. Martelet, Improvement of ure-
ase based biosensor characteristics using additional layers of charged polymers.
Anal. Chim. Acta
403
,
25-29 (2000).
86. Z.E. Selvanayagam, P. Neuzil, P. Gopalakrishnakone, U. Sridhar, M. Singh, and L.C. Ho, An ISFET-
based immunosensor for the detection of
-bungarotoxin.
Biosens. Bioelectron.
17
, 821-826 (2002).
87. Y.V. Plekhanova, A.N. Reshetilov, E.V. Yazynina, A.V. Zherdev, and B.B. Dzantiev, A new assay format
for electrochemical immunosensors: polyelectrolyte-based separation on membrane carriers combined
with detection of peroxidase activity by pH-sensitive fi eld-effect transistor.
Biosens. Bioelectron.
19
,
109-114 (2003).
88. M. Zayats, O.A. Raitman, V.I. Chegel, A.B. Kharitonov, and I. Willner, Probing antigen-antibody bind-
ing processes by impedance measurements on ion-sensitive fi eld-effect transistor devices and comple-
mentary surface plasmon resonance analyses: development of cholera toxin sensors.
Anal. Chem.
74
,
4763-4773 (2002).
89. K. Yagiuda, A. Hemmi, S. Ito, Y. Asano, Y. Fushinuki, C. Chen, and I. Karube, Development of a con-
ductivity-based immunosensor for sensitive detection of methamphetamine (stimulant drug) in human
urine.
Biosens. Bioelectron.
11
, 703-707 (1996).
90. M. Dijksma, B. Kamp, J.C. Hoogvliet, and W.P. van Bennekom, Development of an electrochemical
immunosensor for direct detection of interferon-
β
γ
at the attomolar level.
Anal. Chem.
73
, 901-907
(2001).
91. S.Q. Hu, Z.X. Cao, G.L. Shen, and R.Q. Yu, Capacitive immunosensor for transferrin based on an
o-aminobenzenthiol oligomer layer.
Anal. Chim. Acta
458
, 297-304 (2002).
92. D. Jiang, J. Tang, B. Liu, P. Yang, and J. Kong, Ultrathin alumina sol-gel-derived fi lms: allowing direct
detection of the liver fi brosis markers by capacitance measurement.
Anal. Chem.
75
, 4578-4584 (2003).
93. C. Fernandez-Sanchez, C.J. McNeil, K. Rawso, and O. Nilsson, Disposable noncompetitive immuno-
sensor for free and total prostate-specifi c antigen based on capacitance measurement.
Anal. Chem.
76
,
5649-5656 (2004).
94. P. Bataillard, F. Gardies, N.J. Renault, C. Martelet, B. Colin, and B. Mandrand, Direct detection of
immunospecies by capacitance measurements.
Anal. Chem.
60
, 2374-2379 (1988).
95. M. Vladimir, M. Mirsky, O. Riepl, and O. Wolfbeis, Capacitive monitoring of protein immobiliza-
tion and antigen-antibody reactions on monomolecular alkylthiol fi lms on gold electrodes.
Biosens.
Bioelectron.
12
, 977-989 (1997).
96. C.J. Mcneil, D. Athey, M. Ball, W.O. Ho, S. Krause, R.D. Armstrong, J.D. Wright, and K. Rawson,
Electrochemical sensors based on impedance measurement of enzyme-catalyzed polymer dissolution:
theory and applications.
Anal. Chem.
67
, 3928-3935 (1995).
97. A. Gebbert, M. Alvarez-lcaza, W. Stocklein, and R.D. Schmid, Real-time monitoring of immunochemi-
cal interactions with a tantalum capacitance fl ow-through cell.
Anal. Chem.
64
, 997-1003 (1992).
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