Matthias Meier

Principal Investigator Helmholtz Pioneer Campus

+49 89 3187 49564 E-MailGebäude/Raum: 36.30

Research Area

Matthias Meier is a German biophysicist who received his PhD from the University of Basel in Switzerland in 2006. In 2008 he was awarded with the Feodor-Lynen postdoctoral fellowship from the Alexander von Humboldt Foundation and worked 4 years with Steven Quake at Stanford University. With help of an Emmy-Noether-Fellowship from the German Research Foundation he returned to Europe and established an independent research group at the Microsystem Engineering department of the University of Freiburg. In 2017 Dr. Meier received the ERC Consolidator grant for performing research in medical engineering field of Organ-on-Chips. In 2018 Matthias Meier joined the Helmholtz Pioneer Campus.

Stem cell-derived vessels-on-chip for cardiovascular disease modeling

Maren Marder, Caroline Remmert,[...], Matthias Meier

Cell Reports | 2024

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Professional Background

Since 2022

Full Professorship at the Institut of Biochemistry of the University of Leipzig

Since 2018

Principal Investigator at Helmholtz Pioneer Campus, Helmholtz Zentrum München

2012 - 2018

Independent Research Group Leader (DFG Emmy-Noether Fellow) at IMTEK, University of Freiburg, Germany

2009 - 2011

Postdoc at Stanford University, Laboratory of Professor Stephen Quake, USA

2008 - 2009

Postdoc at University of Chicago, Laboratory of Professor Rustem Ismagilov, USA

Publications

2024 Wissenschaftlicher Artikel in STAR Protocols

Remmert, C. ; Otgonbayar, M. ; Perschel, J.A. ; Marder, M. ; Meier, M.

Protocol to generate a microfluidic vessels-on-chip platform using human pluripotent stem cell-derived endothelial cells.

2024 Wissenschaftlicher Artikel in Cell Reports

Marder, M. ; Remmert, C. ; Perschel, J.A. ; Otgonbayar, M. ; von Toerne, C. ; Hauck, S.M. ; Bushe, J. ; Feuchtinger, A. ; Sheikh, B. ; Moussus, M. ; Meier, M.

Stem cell-derived vessels-on-chip for cardiovascular disease modeling.

2024 Wissenschaftlicher Artikel in Biosensors and Bioelectronics

Schmidt, S. ; Li, W. ; Schubert, M. ; Binnewerg, B. ; Prönnecke, C. ; Zitzmann, F.D. ; Bulst, M. ; Wegner, S. ; Meier, M. ; Guan, K. ; Jahnke, H.G.

Novel high-dense microelectrode array based multimodal bioelectronic monitoring system for cardiac arrhythmia re-entry analysis.

2024 Wissenschaftlicher Artikel in Biosensors and Bioelectronics

Zitzmann, F.D. ; Schmidt, S. ; Frank, R. ; Weigel, W. ; Meier, M. ; Jahnke, H.G.

Prof. Dr. Matthias Meier

Research Area

Selected Paper

Professional Background

Full Professorship at the Institut of Biochemistry of the University of Leipzig

Principal Investigator at Helmholtz Pioneer Campus, Helmholtz Zentrum München

Independent Research Group Leader (DFG Emmy-Noether Fellow) at IMTEK, University of Freiburg, Germany

Postdoc at Stanford University, Laboratory of Professor Stephen Quake, USA

Postdoc at University of Chicago, Laboratory of Professor Rustem Ismagilov, USA

Publications

Protocol to generate a microfluidic vessels-on-chip platform using human pluripotent stem cell-derived endothelial cells.

Stem cell-derived vessels-on-chip for cardiovascular disease modeling.

Novel high-dense microelectrode array based multimodal bioelectronic monitoring system for cardiac arrhythmia re-entry analysis.

Microcavity well-plate for automated parallel bioelectronic analysis of 3D cell cultures.

A photoreceptor-based hydrogel with red light-responsive reversible sol-gel transition as transient cellular matrix.

Single-cell characterization of neovascularization using hiPSC-derived endothelial cells in a 3D microenvironment.

Spatial transcriptomics using multiplexed deterministic barcoding in tissue.

Label-free imaging of 3D pluripotent stem cell differentiation dynamics on chip.

Capturing shape information with multi-scale topological loss terms for 3D reconstruction.

Adipose microtissue-on-chip: A 3D cell culture platform for differentiation, stimulation, and proteomic analysis of human adipocytes.

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