Your search keyword '"R. Ehret"' showing total 4 results

1. Simultaneous measurement of cellular respiration and acidification with a single CMOS ISFET.

Author

Lehmann M, Baumann W, Brischwein M, Gahle H, Freund I, Ehret R, Drechsler S, Palzer H, Kleintges M, Sieben U, and Wolf B

Subjects

Biosensing Techniques statistics & numerical data, Cell Line, Equipment Design, Humans, Hydrogen-Ion Concentration, In Vitro Techniques, Biosensing Techniques instrumentation, Cell Respiration

Abstract

In vivo, the pH value and oxygen partial pressure are the most important physico-chemical parameters in the microenvironment of human tissues. In vitro, the extracellular acidification rate of cell cultures is an indicator of global cellular metabolism, while the rate of oxygen consumption is a measure of mitochondrial activity. Earlier approaches had the disadvantage that these two values had to be measured with two separate sensors at different loci within the tissue or cell culture. Furthermore, conventional Clark-type oxygen sensors are not very compatible for miniaturisation, making it impossible to measure at small cell volumes or even at the single cell level. We have, therefore, developed an ISFET based sensor structure which is able to measure both pH and oxygen partial pressure. This sensor structure was tested in vitro for simultaneous records of cellular acidification and respiration rates at the same site within the cell culture. This sensor is manufactured by a CMOS-process.

Published

2001

2. Non-invasive measurement of cell membrane associated proton gradients by ion-sensitive field effect transistor arrays for microphysiological and bioelectronical applications.

Author

Lehmann M, Baumann W, Brischwein M, Ehret R, Kraus M, Schwinde A, Bitzenhofer M, Freund I, and Wolf B

Subjects

Biosensing Techniques methods, Humans, Hydrogen-Ion Concentration, Tumor Cells, Cultured, Biosensing Techniques instrumentation, Cell Membrane metabolism

Abstract

The pH in the cellular microenvironment (pH(M)) is an important regulator of cell-to-cell and cell-to-host interactions. Additionally the extracellular acidification rate of a cell culture is an important indicator of global cellular metabolism. In a new approach a biocompatible ion-sensitive field effect transistor (ISFET)-array was developed to measure the pH(M) close to a surface and the global extracellular acidification rate at the same time. This ISFET-array is part of a new multiparametric microsensor chip. The paper highlights some basic applications of this method for in-vitro measurements. Using a fluid perfusion system for cell culture media, it is possible to measure the pH(M) of few (five to ten) adherent tumor cells in a distance of 10-100 nm from the cell plasma membrane. Experiments showed a pH(M)-value of 6.68 +/- 0.06 pH. Further experiments suggest that both the low pH, and the extracellular acidification rate of the examined tumor cell line are mainly built up by glycolysis.

Published

2000

3. Monitoring of cellular signalling and metabolism with modular sensor-technique: the PhysioControl-Microsystem (PCM).

Author

Wolf B, Brischwein M, Baumann W, Ehret R, and Kraus M

Subjects

Electric Impedance, Semiconductors, Biosensing Techniques, Cell Physiological Phenomena, Signal Transduction

Abstract

Microsensors provide instruments particularly suited for the noninvasive analysis of cell and tissue cultures. The outstanding benefit lies in the passive behaviour of continuously working transducers, which in turn allows the dynamic recording of function-specific cellular processes. The microsensor system presented in this paper is a modular arrangement of various planar and non-planar sensor elements surrounding small cell culture chambers. An optic access to the cultures (e.g. for high resolution light microscopy and spectro-photometric techniques) enables a parallel and comparative data acquisition. The system was originally designed for biomedical research in chemotherapy and pharmacology but it proved to be an effective device both for toxicological and environmental research.

Published

1998

4. Monitoring of cellular behaviour by impedance measurements on interdigitated electrode structures.

Author

Ehret R, Baumann W, Brischwein M, Schwinde A, Stegbauer K, and Wolf B

Subjects

Animals, Cell Survival, Chlorocebus aethiops, Electric Impedance, Electrodes, Humans, Male, Octoxynol pharmacology, Sensitivity and Specificity, Biosensing Techniques

Abstract

A new method for on-line and real-time monitoring of concentration, growth and physiological state of cells in culture is described. This biosensor is based on impedance measurements of adherently growing cells on interdigitated electrode structures (IDES). The measurements can be performed for several days as there is no detectable electrical influence on the cells. The versatility of this new sensor is shown with some exemplary experiments. Cell density, growth and long-term behaviour of cells on the electrodes clearly change the impedance of the IDES. Both, the global influence of serum components (deprivation of foetal bovine serum) and the toxic effects of heavy metal ions (cadmium) result in changes of the sensor signal and can be visualized.

Published

1997