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Courses/Engineering/Chemical Engineering

Multiplexed and Multimodal Analysis of Single Cells

In Nano- and Picoliter Volumes for High-Precision Single-Cell Insights.

Created byAIChE
BeginnerUpdated Feb 17, 2025
Multiplexed and Multimodal Analysis of Single Cells

What You'll Learn

check_circleExplain the use of microfluidic technology in cell analysis.
check_circleDescribe droplet microfluidics and its role in high-throughput screening.
check_circleAnalyze the advantages of valve-based microfluidic systems for single-cell analysis.
check_circleDiscuss methods for analyzing secreted proteins using microfluidic platforms.

About This Course

Microfluidic technology is nowadays an important tool for cell analysis. One of the huge potential lays in the possibility to create small liquid environments of defined and reproducible volumes so that analyses can be performed with unprecedented high sensitivity and reproducibility. We use two microfluidic methods to encapsulate cells, (i) droplet microfluidics and (ii) valve-based systems. In this presentation, the latest developments of these strategies will be presented.

  • Droplet microfluidics is a particularly powerful method for high throughput screening. Monodisperse aqueous droplets of pico- or nanoliter volume immersed in a hydrophobic fluid are formed in a microfluidic device at kHz frequencies. In the field of single-cell analysis, droplet microfluidics is nowadays a well-approved method and alternative to cytometry. The tiny volumes of the droplets are particularly beneficial, when secreted compounds are analyzed. Most assays in nL droplets, however, are based on fluorescence spectroscopy, which limits the choice of assays and multiplexing capability. In this presentation, our advanced platform will be introduced that enables analysis of proteins secreted by few cells by the two complimentary analytical methods, time-lapse fluorescence spectroscopy and matrix-assisted laser desorption/ionization (MALDI)-MS.
  • In our alternative “valve-based” method, cells are captured and encapsulated by donut-shaped valves. Here, we achieve size- or marker-selective capture of individual cells and quantitative analysis of secreted factors by means of immunoassays performed on barcoded beads at extremely low limit of detection as required for single-cell analysis. Examples include the analysis of tumor cells and circulating tumor cells, isolated on-chip from full blood sample.

Your Instructors

AIChE
AIChE

The Global Home of Chemical Engineers

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At every stage of your career, AIChE Academy is the definitive resource engineers use to sharpen their professional skills. We offer up-to-date courses and webinars in chemical engineering, process and hydrogen safety, bioengineering, sustainability, professional development, and many more.

Petra  Dittrich
Petra Dittrich

Associate Professor for Bioanalytics at ETH Zürich, Switzerland

Petra Dittrich is Associate Professor for Bioanalytics at the Department of Biosystems Science and Engineering at ETH Zürich, Switzerland, since 2014. Her research in the field of lab-on-chip-technologies focuses on the miniaturization of high-sensitivity devices for chemical and biological analyses, and microfluidic-aided organization of materials. She studied chemistry at Bielefeld University (Germany) and Universidad de Salamanca (Spain) from 1993 to 1999. She earned her PhD degree at the Max Planck-Institute for Biophysical Chemistry (MPI Göttingen, Germany) in 2003. After another year as postdoctoral fellow at the MPI Göttingen, she had a postdoctoral appointment at the Institute for Analytical Sciences (ISAS Dortmund, Germany) (2004-2008). From 2008-2014, she was Assistant Professor at the Organic Chemistry Laboratories of the Department of Chemistry and Applied Biosciences (ETH Zurich). For research stays, she visited the Cornell University (Ithaca, USA, in 2002) and the University of Tokyo (Japan, in 2005). Petra Dittrich received the Starting Grant from the European Research Commission (ERC) in 2008, and the ERC Consolidator Grant in 2016. She was awarded the Analytica Forschungspreis of the German Society of Biochemistry and Molecular Biology (GBM), donated by Roche Diagnostics GmbH in 2010 and the Heinrich Emmanuel Merck award, donated by Merck KGaA, in 2015.

Credit Information

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