COVID-19 spurs wave of innovative diagnostics

    11.07.2020 00:04
    Recent News article in Nature Biotechnology highlights two different research activities of Dr. Can Dincer.

    A News article "COVID-19 spurs wave of innovative diagnostics" published recently in Nature Biotechnology highlights two of the current research activities/ideas, including multiplexed CRISPR-Biosensor and wearable paper-based breath sensors, of Dr. Can Dincer from FIT and IMTEK – Laboratory for Sensors (Prof. Gerald Urban) for fighting the Corona pandemic. Dincer says “Glad to be mentioned as a junior researcher along with great scientists from all over the word, and also University of Freiburg as the only institution from Germany!”.

    CRISPR‐powered electrochemical microfluidic multiplexed biosensor (CRISPR-Biosensor X) allows nucleic‐acid‐amplification‐free detection of different RNAs simultaneously. Upon recognition of its target, the activated enzyme (Cas13a) cleaves reporter RNAs in its surroundings, resulting in a decrease of the measured electrochemical signals. The CRISPR‐Biosensor X offers a low‐cost, easily scalable, specific, and target amplification‐free (i.e., rapid and easy‐to‐use) tool for multiplexed on‐site nucleic acid diagnostics.

    The electrochemical paper-based breath sensor is the first attempt toward continuous monitoring of breath biochemistry using a low-cost and disposable wearable sensor, which can be attached onto any type of face masks. It offers a great potential for accessible wearable testing of the infectious diseases like COVID-19, integrating sampling, collection and analysis of the sample into a single device. 

    The article can be accessed under: Cormac Sheridan “COVID-19 spurs wave of innovative diagnostics”, Nature Biotechnology, 2020, 38, 769-772.


    Dr. Can Dincer

    Laboratory for Sensors
    Department of Microsystems Engineering – IMTEK &

    Freiburg Center for Interactive Materials and Bioinspired Technologies – FIT
    phone: +49 761 203 95129

    email: dincer@imtek.de

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