Biomedical Engineering Reference
In-Depth Information
76. Pohl HA, Kaler K, Pollock K (1981) The continuous positive and negative dielectrophoresis
of microorganisms. J Biol Phys 9:67-86
77. Kim T, Kang J, Lee J, Yoon J (2011) Influence of attached bacteria and biofilm on double-
layer capacitance during biofilm monitoring by electrochemical impedance spectroscopy.
Water Res 45:4615-4622
78. Davey CL, Markx GH, Kell DB (1993) On the dielectric method of monitoring cellular
viability. Pure Appl Chem 65:1921-1926
79. Gastrock G, Lemke K, Metze J (2001) Sampling and monitoring in bioprocessing using
microtechniques. Rev Mol Biotechnol 82:123-135
80. Krommenhoek EE, Gardeniers JGE, Bomer JG, Van den Berg A, Li X, Ottens M, van der
Wielen LAM, van Dedem GWK, Van Leeuwen M, van Gulik WM, Heijnen JJ (2006)
Monitoring of yeast cell concentration using a micromachined impedance sensor. Sensor
Actuat B-Chem 115:384-389
81. Ciureanu M, Levadoux W, Goldstein S (1997) Electrical impedance studies on a culture of a
newly discovered strain of streptomyces. Enzyme Microb Technol 21:441-449
82. Asami K, Yonezawa T (1996) Dielectric behavior of wild-type yeast and vacuole-deficient
mutant over a frequency range of 10 kHz to 10 GHz. Biophys J 71:2192-2200
83. Ducommun P, Ruffieux P, Furter M, Marison I, von Stockar U (2000) A new method for on-
line measurement of the volumetric oxygen uptake rate in membrane aerated animal cell
cultures. J Biotechnol 78:139-147
84. Ansorge S, Lanthier S, Transfiguracion J, Henry O, Kamen A (2011) Monitoring lentiviral
vector
production
kinetics
using
online
permittivity
measurements.
Biochem
Eng
J
54:16-25
85. Maskow T, Kiesel B, Schubert T, Yong Z, Harms H, Yao J (2010) Calorimetric real time
monitoring of lambda prophage induction. J Virol Methods 168:126-132
86. Markx
GH,
Davey
CL
(1999)
The
dielectric
properties
of
biological
cells
at
radiofrequencies: applications in biotechnology. Enzyme Microb Technol 25:161-171
87. Asami K (2002) Characterization of biological cells by dielectric spectroscopy. J Non-Cryst
Solids 305:268-277
88. Carvell J, Poppleton J, Dowd J (2006) Measurements and control of viable cell density in
cGMP manufacturing processes. Bioprocess J 5:58-63
89. Kiviharju K, Salonen K, Moilanen U, Eerikäinen T (2008) Biomass measurement online:
the performance of in situ measurements and software sensors. Ind Microbiol Biotechnol
35:657-665
90. Krairak S, Yamamura K, Nakajima M, Shimizu H, Shioya S (1999) On-line monitoring of
fungal cell concentration by dielectric spectroscopy. J Biotechnol 69:115-123
91. Roche Diagnostics GmbH (2009) The xCELLigence system—new horizons in cellular
92. Asami K, Gheorghiu E, Yonezawa T (1999) Real-time monitoring of yeast cell division by
dielectric spectroscopy. Biophys J 76:3345-3348
93. Hofmann MC, Ellersiek D, Kensy F, Büchs J, Mokwa W, Schnakenberg U (2005) Galvanic
decoupled sensor for monitoring biomass concentration during fermentation processes.
Sensors Actuators B Chem 111-112:370-375
94. Hofmann MC, Kensy F, Buechs J, Mokwa W, Schnakenberg U (2005) Transponder-based
sensor for monitoring electrical properties of biological cell solutions. J Biosci Bioeng
100:172-177
95. Kim Y, Park J, Jung H (2009) An impedimetric biosensor for real-time monitoring of
bacterial growth in a microbial fermentor. Sensors Actuators B Chem 138:270-277
96. Hofmann MC, Funke M, Buechs J, Mokwa W, Schnakenberg U (2010) Development of a
four electrode sensor array for impedance spectroscopy in high content screenings of
fermentation processes. Sensors Actuators B Chem 147:93-99
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