regenHU developed the most intuitive and advanced software  tools to  allow you to turn your ideas into living constructs. Our suite  lets you  design your 3D models layer-by-layer with BioCAD, or slice STL  files  in BioCAM. Personalized constructs can be generated from any  medical  image (DICOM format) using BioCUT. The three applications are   interconnected, and file exchange is done through standard formats.

The  suite was optimized to explore the full potential of the 3D  Discovery  Evolution bioprinter. Plugins for printing in labware or using   electrohydrodynamic technologies are integrated.


  • Provide tools to exploit the 3D-Discovery to its maximum potential.
  • Transition from the Medical world to the Bioprinting world.
  • Tailor-made for bioprinting through plugins (e.g. for labware printing).
  • Visualization of the planned printing.
  • Easy-to-use
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BioCAD™ is an intuitive, easy to use drawing suite that allows  scientists and biomedical designers to design tissues, patterns, and  scaffolds within minutes. There is no need for pre-existing 3D models or medical images, since BioCAD™ has all the necessary tools that allow  you to design multima- terial models from scratch. The ECM-BioInk™ portfolio contains 5 formulations that differ from each other in the electrical net charge which impacts the matrix stiffness and  consequently cell proliferation capacity.


BioCAM™ is an easy to use 3D model slicer and toolpath generator  dedicated to regenHU’s 3D bio and tissue printers. It enables the  creation of multimaterial tissues based on 3D digital models acquired  from CAD systems, 3D scanners or medical imaging.


BioCUT™ is an easy to use DICOM visualizer and analyzing tool which is  integrated in regenHU’s 3D bio and tissue printing digital workflow. It  is a powerful software tool that allows scientists, biomedical designers  and healthcare providers to create complex tissue structures while  leading the user through the digital workflow: from medical imaging to  multi-tissue modeling and multi-material 3D bioprinting interface.