Bio-Spun™ Scaffold for Use in Microphysiological Systems (MPS)
Bio-Spun™ Key Features
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High Porosity: The scaffold structure has a staggered porosity, mimicking the natural extracellular matrix (ECM) for optimal cell growth and differentiation.
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Customizable: The scaffold can be customized (i.e. thickness, porosity, polymer blends, and drug eluting), allowing researchers to tailor its properties to specific tissue types and experimental requirements.
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Biocompatible Materials: Bio-Spun™ is an animal-free, synthetic scaffold, ensuring compatibility with a wide range of cell types and culture conditions.
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Mechanical Integrity: Bio-Spun™ provides a reproducible, durable robust support for cells and tissues during culture and experimentation.
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Material Differentiation: Biodegradable or nondegradable scaffolds are available, allowing for either a temporary or permanent platform for cell integration and tissue formation.
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Broad Applications: The scaffold can be used in Organ-on-Chip, Microfluidics, and other MPS applications.
Publications
Technical Applications
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Regenerative Medicine: Explore the potential of Bio-Spun™ scaffolds in regenerative medicine applications, including tissue engineering and wound healing.
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Drug Screening and Discovery: Utilize Bio-Spun™ scaffolds to study cell behavior and drug responses in a controlled microenvironment, accelerating drug discovery processes.
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Disease Modeling: Bio-Spun™ scaffolds can be used to develop 3D tissue models that are more human relevant in order to characterize disease progression and potential targets for treatment.