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.Junta de Andalucía P0-TIC-538
This paper proposes a new method for bio-impedance measurement useful to 2D processing of cell cult...
High-throughput data analysis challenges in laboratory automation and lab-on-a-chip devices' applica...
High-throughput data analysis challenges in laboratory automation and lab-on-a-chip devices' applica...
This paper proposes a cell-microelectrode model for cell biometry applications, based on the area ov...
Abstract: This paper proposes the application of a cell-microelectrode model in cell biometry experi...
This paper presents the fitting process followed to adjust the parameters of the electrical model as...
AbstractIt is proposed a microscopy for cell culture applications based on impedance sensors. The im...
It is proposed a microscopy for cell culture applications based on impedance sensors. The imagined s...
An alternative approach for cell-culture end-point protocols is proposed herein. This new technique ...
This paper proposes a new yet efficient method allowing a significant improvement in the on-line analy...
A system for cell-culture real-time monitoring using an oscillation-based approach is proposed. The ...
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...
High-throughput data analysis challenges in laboratory automation and lab-on-a-chip devices’ applica...
Monitoring the properties of biological samples (BS) is expensive in terms of time consumption and c...
This paper proposes a new method for bio-impedance measurement useful to 2D processing of cell cult...
High-throughput data analysis challenges in laboratory automation and lab-on-a-chip devices' applica...
High-throughput data analysis challenges in laboratory automation and lab-on-a-chip devices' applica...
This paper proposes a cell-microelectrode model for cell biometry applications, based on the area ov...
Abstract: This paper proposes the application of a cell-microelectrode model in cell biometry experi...
This paper presents the fitting process followed to adjust the parameters of the electrical model as...
AbstractIt is proposed a microscopy for cell culture applications based on impedance sensors. The im...
It is proposed a microscopy for cell culture applications based on impedance sensors. The imagined s...
An alternative approach for cell-culture end-point protocols is proposed herein. This new technique ...
This paper proposes a new yet efficient method allowing a significant improvement in the on-line analy...
A system for cell-culture real-time monitoring using an oscillation-based approach is proposed. The ...
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...
High-throughput data analysis challenges in laboratory automation and lab-on-a-chip devices’ applica...
Monitoring the properties of biological samples (BS) is expensive in terms of time consumption and c...
This paper proposes a new method for bio-impedance measurement useful to 2D processing of cell cult...
High-throughput data analysis challenges in laboratory automation and lab-on-a-chip devices' applica...
High-throughput data analysis challenges in laboratory automation and lab-on-a-chip devices' applica...
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