Bioverfahrenstechnik
© TU Berlin/PR/Felix Noak
AMADEUS

Robust adaptive model-based design of experiments for high throughput bioprocess development

Project Summary

Optimal Experimental Design (OED) makes use of predictive models to design experiments which increase the knowledge gain while decreasing the needed resources. These methods accelerate bioprocess development, especially in combination with high throughput screening, and thus greatly benefit screening of the best alternative out of a vast variety of strains and cultivation conditions for production optimization. However, the applicability of these tools is low.

Reasons are (1) the lack of suitable and well fitted models, (2) laborious at-line measurements are often needed to generate sufficient quantity and quality data for modelling, (3) missing integration of the product formation into the model and (4) risk of overrunning of cultivation constraints during automatically planned and executed experiments.

AMADEUS tackles these challenges by:

  • Reduction of at-line measurements: Soft-sensors/observers will be used to estimate/predict at-line data from available on-line data.
  • Implementation of the product formation: (Semi-)automatic product analytics will be developed using the robotic platform in combination with immunoassays and semi-automatic high throughput protein analytics.
  • Integration of the product formation in the mechanistic model to include the influence of the cultivation conditions on product quantity and quality.
  • Robust OED: Unknown strain properties might lead to overruns of cultivation constraints during robot experiments. To increase the robustness of the process the data will be evaluated, and accumulations of substrate and by-product will be predicted or detected. In this way the violations of cultivation borders will be forecasted and lead to the re-design of the experiment.

The improvement and the applicability of model-based tools in research and industry is the outstanding goal of AMADEUS. The effectiveness of the developed methods will be validated in a case study on the production of antibody fragments in Escherichia coli in an industrial application.

Project partner:
Boehringer Ingelheim (Vienna)

Project duration:
10/2019 - current

Project funding:
Contract researche

Responsible person:
Sebastian Hans
Annina Kemmer

    © TU Berlin/PR/Felix Noak

    The Work Group

    This project is part of the High-Throughput Bioprocess Development (HTBD). Read more about our group, our mission and related projects.

    © Dominic Simon

    Opportunity / Thesis

    Are you looking for a challenging thesis? We often have open topics! Send us your interests and strengths together with a short CV via email.

    © TU Berlin/BVT/S.Hans

    The Lab

    Interested in the lab? The HTBD laboratory is a leader in the application of automated and model-based bioprocess control. Take a look at your liquid handling stations, mini bioreactor system and other lab equipment in our virtual tour.

    © Philipp Arnoldt

    Lectures

    The HTBD - Groupe offers various lectures dedicated to the basics of our work. You can find an overview of our current courses here.