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 | Bioprinted in vitro Models in Drug Developments - Perspective from Pharmaceutical Industry
Annie Moisan, Roche Pharmaceuticals
Three-dimensional models of drug target tissues that recapitulate human responses are needed for drug screening. Here we introduce a renal proximal tubule model enabled by microfluidics and bioprinting that allows for drug disposition and safety studies.
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 | Bioprinting in Regenerative Medicine and Beyond
Gabor Forgacs, University of Missouri-Columbia; Scientific Founder, Organovo; CSO, Modern Meadow
This talk presents an overview of extrusion-based bioprinting, with applications in regenerative medicine, pharmacology and in the fabrication of commodity animal products without harming animals.
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 | Bioprinting: from Regenerative Medicine to the Organ-on-a-Chip
Brian Derby, University of Manchester
The talk will present an overview of bioprinting technologies comparing feature resolution with production throughput. The different requirements for applications in regenerative medicine/tissue engineering, medical devices (implantable or external) and organ on a chip platforms will be reviewed.
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 | Core/Shell Bioprinting of Complex Tissue Equivalents
Michael Gelinsky, Technische Universität Dresden
By means of 3D plotting (extrusion of pasty materials) scaffolds and cell-loaded constructs can be fabricated easily out of a variety of different biomaterials. We have developed a technology for manufacturing of scaffolds, built up of core/shell and hollow strands, consisting of stiff materials in the shell and soft biopolymer hydrogels in the core part. Based on this technology we have started to develop implants and tissue engineered constructs for several types of tissues.
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 | Enhancing Alginate Based Hydrogels for Tissue Scaffolds and Tumor Models by 3D Printing
Aldo Boccaccini, University of Erlangen-Nuremberg
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 | Modelling the Wound Healing Micro-Environment with Dynamically Adhesive Biomaterials
John Connelly, Queen Mary University of London
We have developed dynamically adhesive micro-patterned substrates using thiol-alkyne based functionalization of polymer brushes. This novel experimental system can be used to study various aspects of cell migration and gain new mechanistic insights into wound repair.
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