Fabian Stumpf
University of Freiburg
9 Papers
19 Citations
Fabian Stumpf is an academic researcher from University of Freiburg. The author has contributed to research in topics: Gene & Detection limit. The author has an hindex of 6, co-authored 9 publications.
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Papers
Microstructuring of polymer films for sensitive genotyping by real-time PCR on a centrifugal microfluidic platform
Maximilian Focke,Fabian Stumpf,Bernd Faltin,Patrick Reith,Dylan Bamarni,Simon Wadle,Claas Müller,Holger Reinecke,Jacques Schrenzel,Patrice Francois,Daniel Mark,Günter Roth,Roland Zengerle,Felix von Stetten +13 more
TL;DR: A novel process flow enabling prototyping of microfluidic cartridges made out of polymer films is presented, enabling efficient thermocycling during real-time polymerase chain reaction (PCR) and demonstrates new opportunities for both microfluidity developments and well-established laboratory instruments.
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LabDisk with complete reagent prestorage for sample-to-answer nucleic acid based detection of respiratory pathogens verified with influenza A H3N2 virus
Fabian Stumpf,Frank Schwemmer,Tobias Hutzenlaub,D. Baumann,Oliver Strohmeier,G. Dingemanns,G. Simons,C. Sager,L. Plobner,F. von Stetten,Roland Zengerle,Daniel Mark +11 more
TL;DR: This work presents a fully automated sample-to-answer detection of influenza A H3N2 virus in a centrifugal LabDisk with complete prestorage of reagents, where the initial supply of the sample remains the only manual handling step.
Centrifugal microfluidic system for primary amplification and secondary real-time PCR
TL;DR: A self-contained centrifugal microfluidic system comprising pre-stored reagents enables pre-amplification of specific DNA sequences prior to automated aliquoting and real-time PCR in a modified commercial thermocycler.
Single-cell PCR of genomic DNA enabled by automated single-cell printing for cell isolation.
TL;DR: This work employs inkjet-like printing to isolate individual living single human B cells (Raji cell line) and load them directly into standard PCR tubes to allow more sophisticated downstream analysis like sequencing, electrophoresis or multiplexing.
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Chair/bedside diagnosis of oral and respiratory tract infections, and identification of antibiotic resistances for personalised monitoring and treatment
Konstantinos Mitsakakis,Fabian Stumpf,Oliver Strohmeier,V. Klein,Daniel Mark,Felix von Stetten,Johannes R. Peham,Christopher Herz,Pune N Tawakoli,Florian J Wegehaupt,Thomas Attin,Nagihan Bostanci,Kai Bao,Georgios N. Belibasakis,John P. Hays,Gijs Elshout,Robin C. Huisman,Stephanie Klein,Andrew P. Stubbs,Lutz Doms,Andreas Wolf,Viorel Rusu,Sven Goethel,Thomas Binsl,Alex Michie,Jana Jancovicova,Vladimir Kolar,Michal Kostka,Jiri Smutny,Michal Karpisek,Caroline Estephan,Camille Cocaud,Roland Zengerle +32 more
TL;DR: The H2020 project DIAGORAS aims at diagnosing oral and respiratory tract infections using a fully integrated, automated and user-friendly platform for physicians' offices, schools, elderly care units, community settings, etc.