Electronically integrated microcatheters based on self-assembling polymer films.
Boris RivkinChristian BeckerBalram SinghAzaam AzizFarzin AkbarAleksandr EgunovDmitriy D KarnaushenkoRonald NaumannRudolf SchäferMariana Medina-SánchezDaniil KarnaushenkoOliver G SchmidtPublished in: Science advances (2021)
Existing electronically integrated catheters rely on the manual assembly of separate components to integrate sensing and actuation capabilities. This strongly impedes their miniaturization and further integration. Here, we report an electronically integrated self-assembled microcatheter. Electronic components for sensing and actuation are embedded into the catheter wall through the self-assembly of photolithographically processed polymer thin films. With a diameter of only about 0.1 mm, the catheter integrates actuated digits for manipulation and a magnetic sensor for navigation and is capable of targeted delivery of liquids. Fundamental functionalities are demonstrated and evaluated with artificial model environments and ex vivo tissue. Using the integrated magnetic sensor, we develop a strategy for the magnetic tracking of medical tools that facilitates basic navigation with a high resolution below 0.1 mm. These highly flexible and microsized integrated catheters might expand the boundary of minimally invasive surgery and lead to new biomedical applications.