3D printing structures in vivo

Summary
Funding & Commercial Opportunities
Organisation Details

The technology being developed potentially enables users to print structures directly in living tissue (i.e. subcutaneously) via non/minimally invasive procedure dependent on the l

About

Print structures directly in tissue Print structures subcutaneously Conductive/electroactive structures Non/minimally invasive procedures Feature sizes from nanoscale to centimetre scale

Key Benefits

Application with bioelectronic devices currently on the market (cardiac pacemakers, electrodes for the central nervous system (e.g. deep brain stimulation, bionic ears [cochlear implants], bionic eyes) and peripheral nervous system (e.g. sacral nerve stimulation for bladder control). Application in a variety of conditions.

Applications

- Tissue scaffolds/supports - Bioelectronics; Actuators, Displays, Electrodes, Sensors, Tissue scaffolds

enables users to print structures directly in living tissue (i.e. subcutaneously

The technology being developed potentially enables users to print structures directly in living tissue (i.e. subcutaneously) via non/minimally invasive procedure dependent on the l

About

Key Benefits

Applications

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