Electrospinning
Regenerative scaffolds aim to mimic the physical, chemical, mechanical, and biological cues observed in a normal tissue environment. This technology can be tailored to partially, or fully, absorb during the healing process.
Regenerative scaffolds aim to mimic the physical, chemical, mechanical, and biological cues observed in a normal tissue environment. This technology can be tailored to partially, or fully, absorb during the healing process.
Our processing capabilities allow for modification of the scaffold morphology to mimic the natural tissue structure. Chemical modifications can add active chemical moieties, and conversion techniques are customizable to support next generation scaffolding products.
Fiber size can be highly controlled to produced uniform populations of fibers on the micron and submicron size-scales.
Highly anisotropic fiber scaffolds can be produced to generate a range of properties and topographies where alignment is critical.
Additional materials can be loaded into our fibrous scaffolding to provide enhanced functionality.
Fibrous coatings can be added to a range of substrates to provide enhanced surface area to volume ratio.
With the ability to mimic topography, mechanics, and native tissue properties, our materials can be used to augment and replace damaged tissues.
Develop your absorbable implant with Poly-Med’s portfolio of advanced bioresorbable polymers to design a synthetic or partially synthetic electrospun construct to mimic natural tissue structure. Leverage Poly-Med’s vertical integration using our manufacturing services to increase your device’s speed to market and de-risk your supply chain for commercial product supply.
Looking for more information regarding our team’s electrospinning processing capabilities? View this short article detailing items to consider for designing an electrospun medical device.
Looking for a trustworthy & competent partner to co-create and manufacture your next-generation absorbable implant? Contact our team to speak to an expert.