Barbara Enderle scite author profile

In this paper, we present a novel concept for optical beam-guidance to significantly enhance the sensitivity of colorimetric assays by extending the optical path length through the detection cell which linearly impacts the resulting attenuation of a probe beam according to the law of Beer-Lambert. In our setup, the incident probe beam is deflected by 90( composite function) into the chip plane at monolithically integrated V-grooves to pass a flat detection cell at its full width (i.e., with a path length of 10 mm) instead of its usually much smaller height. Afterwards, the attenuated beam is redirected by another V-groove towards an external detector. The general beam-guidance concept is demonstrated by a glucose assay on human whole blood on a centrifugal microfluidic "lab-on-a-disk" platform made of COC. We achieve an excellent linearity with a correlation coefficient (R (2)) of 0.997 paired with a lower limit of detection (200 microM) and a good reproducibility with a coefficient of variation (CV) of 4.0% over nearly three orders of magnitude. With an accelerated sedimentation of cellular constituents by centrifugal forces, the sample of whole blood can be analyzed in a fully integrated fashion within 210 s. This time-to-result can even be improved by the numerical extrapolation of the saturation value. Additionally, the direct assay on whole blood also shows a negligible correlation with the hematocrit of the blood sample.

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Sensor Access to the Cellular Microenvironment Using the Sensing Cell Culture Flask

Kieninger

Tamari

Enderle

et al. 2018

Biosensors

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The Sensing Cell Culture Flask (SCCF) is a cell culture monitoring system accessing the cellular microenvironment in 2D cell culture using electrochemical microsensors. The system is based on microfabricated sensor chips embedded in standard cell culture flasks. Ideally, the sensor chips could be equipped with any electrochemical sensor. Its transparency allows optical inspection of the cells during measurement. The surface of the sensor chip is in-plane with the flask surface allowing undisturbed cell growth on the sensor chip. A custom developed rack system allows easy usage of multiple flasks in parallel within an incubator. The presented data demonstrates the application of the SCCF with brain tumor (T98G) and breast cancer (T-47D) cells. Amperometric oxygen sensors were used to monitor cellular respiration with different incubation conditions. Cellular acidification was accessed with potentiometric pH sensors using electrodeposited iridium oxide films. The system itself provides the foundation for electrochemical monitoring systems in 3D cell culture.

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A novel, multiparametric, flexible microsensor for metabolic monitoring in vivo

Weltin

Enderle

Kieninger

et al. 2013

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We present a new, multiparametric microsensor for metabolic monitoring in vivo. In contrast to silicon or ceramic based systems, the flexible, implantable, polymer sensor strip is manufactured in a cost-effective hybrid of thin-film and laminate technology in a wafer-level process. Flexibility allows easy handling and placement in soft tissue. It comprises electrochemical, amperometric micro-(bio)sensors for the energy metabolism parameters lactate and oxygen, the neurotransmitter glutamate as well as an integrated reference electrode. This allows dynamic, highly sensitive, localized, longterm online measurement of multiple metabolic parameters with a single device. The reliable analytical performance of the sensors has been proven. The sensor can be inserted directly into the tissue in clinical applications.

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Multiparametric, Flexible Microsensor Platform for Metabolic Monitoring <inline-formula> <tex-math notation="TeX">\(In~Vivo\) </tex-math></inline-formula>

et al. 2014

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Barbara Enderle

Polymer-based, flexible glutamate and lactate microsensors for in vivo applications

Sensitivity enhancement for colorimetric glucose assays on whole blood by on-chip beam-guidance

Sensor Access to the Cellular Microenvironment Using the Sensing Cell Culture Flask

A novel, multiparametric, flexible microsensor for metabolic monitoring in vivo

Multiparametric, Flexible Microsensor Platform for Metabolic Monitoring <inline-formula> <tex-math notation="TeX">\(In~Vivo\) </tex-math></inline-formula>

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