top of page
Bio-Spun™ Scaffold for Use in Microphysiological Systems (MPS)
zK6giRoN.jpeg

Bio-Spun™ Key Features

  • High Porosity:
    Engineered with a staggered, highly porous structure that closely mimics the natural extracellular matrix (ECM), promoting optimal cell attachment, growth, and differentiation.

  • Customizable Design:
    Fully customizable in thickness, porosity, polymer blends, and drug-eluting capabilities — enabling researchers to tailor scaffold properties to meet specific tissue types and experimental requirements.

  • Biocompatible, Animal-Free Materials:
    Manufactured from synthetic, animal-free materials to ensure broad compatibility with a wide range of cell types and culture conditions.

  • Mechanical Integrity:
    Delivers reproducible, durable, and robust structural support for cells and tissues throughout culture and experimentation.

  • Material Flexibility:
    Available in both biodegradable and non-degradable formats, offering options for either temporary or permanent platforms for cell integration and tissue formation.

  • Versatile Applications:
    Ideal for use in Organ-on-Chip systems, Microfluidics, and other Microphysiological Systems (MPS) applications.

O53AvavN.jpeg
24-05-13__Biosurfaces-Membran_DSC4933_frontalansicht.jpg
Technical Applications
  • Regenerative Medicine:
    Leverage the potential of Bio-Spun™ scaffolds for regenerative medicine, including applications in tissue engineering, wound healing, and long-term cell integration.

  • Drug Screening & Discovery:
    Utilize Bio-Spun™ scaffolds to study cell behavior and drug responses within a controlled, biomimetic microenvironment — helping accelerate drug discovery and development.

  • Disease Modeling:
    Develop more human-relevant, three-dimensional tissue models using Bio-Spun™ scaffolds to better characterize disease progression and identify potential therapeutic targets.

Current Collaborators
Nimeton-esitys-1 (1).png
bottom of page