Add to ORKGAbstract: This paper proposes the application of a cell-microelectrode model in cell biometry experiments, using the cell-electrode area overlap as its main parameter. The model can be applied to cell size identification and cell count, and further extended to study cell growth and dosimetry protocols. Experiments have been conducted in AA8 cell line, obtaining promising results. Copyright © 2012 IFSA
BACKGROUND: Acquisition of electrical impedance spectroscopy (EIS) measurements enables one to obtai...
BACKGROUND: Acquisition of electrical impedance spectroscopy (EIS) measurements enables one to obtai...
International audienceThis report highlights the potential of measurement, monitoring, modeling and ...
This paper proposes the application of a cell-microelectrode model in cell biometry experiments, usi...
This paper proposes a cell-microelectrode model for cell biometry applications, based on the area ov...
In this work, a way to cell-culture real-time monitoring system by means of the Oscillation-Based T...
The objective of this research is to develop fundamental understanding of cell-substrate (CS) and ce...
The objective of this research is to develop fundamental understanding of cell-substrate (CS) and ce...
Background and objectives: The biomedical engineering must frequently develop sensor designs by incl...
An alternative approach for cell-culture end-point protocols is proposed herein. This new technique ...
This chapter describes a full system developed to perform the remote sensing of cell-culture experim...
An alternative approach for cell-culture end-point protocols is proposed herein. This new technique ...
Culturing cells in vitro is one of the core techniques used in a wide range of biomedical engineerin...
This report highlights the potential of measurement, monitoring, modeling and control (M(3) C) metho...
This report highlights the potential of measurement, monitoring, modeling and control (M(3) C) metho...
BACKGROUND: Acquisition of electrical impedance spectroscopy (EIS) measurements enables one to obtai...
BACKGROUND: Acquisition of electrical impedance spectroscopy (EIS) measurements enables one to obtai...
International audienceThis report highlights the potential of measurement, monitoring, modeling and ...
This paper proposes the application of a cell-microelectrode model in cell biometry experiments, usi...
This paper proposes a cell-microelectrode model for cell biometry applications, based on the area ov...
In this work, a way to cell-culture real-time monitoring system by means of the Oscillation-Based T...
The objective of this research is to develop fundamental understanding of cell-substrate (CS) and ce...
The objective of this research is to develop fundamental understanding of cell-substrate (CS) and ce...
Background and objectives: The biomedical engineering must frequently develop sensor designs by incl...
An alternative approach for cell-culture end-point protocols is proposed herein. This new technique ...
This chapter describes a full system developed to perform the remote sensing of cell-culture experim...
An alternative approach for cell-culture end-point protocols is proposed herein. This new technique ...
Culturing cells in vitro is one of the core techniques used in a wide range of biomedical engineerin...
This report highlights the potential of measurement, monitoring, modeling and control (M(3) C) metho...
This report highlights the potential of measurement, monitoring, modeling and control (M(3) C) metho...
BACKGROUND: Acquisition of electrical impedance spectroscopy (EIS) measurements enables one to obtai...
BACKGROUND: Acquisition of electrical impedance spectroscopy (EIS) measurements enables one to obtai...
International audienceThis report highlights the potential of measurement, monitoring, modeling and ...