Dr.-Ing. Thomas Wucherpfennig

Boehringer Ingelheim Pharma GmbH & Co. KG
Bioprocess Development Biologicals

Binger Strasse 173

55216 Ingelheim am Rhein

Phone +49 7351 54-144806

Mail Dr. Thomas Wucherpfennig


Thomas pursued the study of Biotechnology at the Technical University of Braunschweig, Germany, and Chemical Engineering at the University of Waterloo, Canada. He earned his PhD in Bioprocess Engineering from the Technical University of Braunschweig. Prior to joining Boehringer Ingelheim as a postdoctoral fellow in 2014, Thomas acquired valuable experience in the industrial biotech sector at Roche and Clariant. Since 2015, he has held various roles in cell culture process development at Boehringer Ingelheim and currently serves as a Senior Principal Scientist, spearheading late-stage process development. In addition, Thomas is a lecturer at FH Oberösterreich in Wels and TUHH – Hamburg University of Technology, His research focus is on bioprocess scale-up, bioreactor characterization, Process Analytical Technology (PAT), and cell culture process modeling.

Research Interests

  • Scale-up of bioprocesses
  • Bioreactor characterization
  • Computational Fluid Dynamics (CFD)
  • Process Analytical Technology (PAT)
  • Cell culture process modelling

Publications

[185013]
Title: Viability characterization of Taxus chinensis plant cell suspension cultures by rapid colorimetric- and image analysis-based techniques.
Written by: Wucherpfennig T., Schulz A., Pimentel A., Corkidi G., Sieblitz D., Pump M., Gorr G., Schütte K., Wittmann C., Krull R.
in: <em>Bioproc. Biosyst. Eng.</em>. (2014).
Volume: <strong>37</strong>. Number:
on pages: 1799–1808
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DOI: 10.1007/s00449-014-1153-1
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Abstract: For the commercially established process of paclitaxel production with Taxus chinensis plant cell culture, the size of plant cell aggregates and phenotypic changes in coloration during cultivation have long been acknowledged as intangible parameters. So far, the variability of aggregates and coloration of cells are challenging parameters for any viability assay. The aim of this study was to investigate simple and non-toxic methods for viability determination of Taxus cultures in order to provide a practicable, rapid, robust and reproducible way to sample large amounts of material. A further goal was to examine whether Taxus aggregate cell coloration is related to general cell viability and might be exploited by microscopy and image analysis to gain easy access to general cell viability. The Alamar Blue assay was found to be exceptionally eligible for viability estimation. Moreover, aggregate coloration, as a morphologic attribute, was quantified by image analysis and found to be a good and traceable indicator of T. chinensis viability.