- Jordan, Caroline D;
- Thorne, Bradford RH;
- Wadhwa, Arjun;
- Losey, Aaron D;
- Ozhinsky, Eugene;
- Kondapavulur, Sravani;
- Fratello, Vincent;
- Moore, Teri;
- Stillson, Carol;
- Yee, Colin;
- Watkins, Ronald D;
- Scott, Greig C;
- Martin, Alastair J;
- Zhang, Xiaoliang;
- Wilson, Mark W;
- Hetts, Steven W
Interventional magnetic resonance imaging (MRI) could allow for diagnosis and immediate treatment of ischemic stroke; however, such endovascular catheter-based procedures under MRI guidance are inherently difficult. One major challenge is tracking the tip of the catheter, as standard fabrication methods for building inductively coupled coil markers are rigid and bulky. Here, we report a new approach that uses aerosol jet deposition to three-dimensional (3-D) print an inductively coupled RF coil marker on a polymer catheter. Our approach enables lightweight conforming markers on polymer catheters and these low-profile markers allow the catheter to be more safely navigated in small caliber vessels. Prototype markers with an inductor with the geometry of a double helix are incorporated on catheters for in vitro studies, and we show that these markers exhibit good signal amplification. We report temperature measurements and, finally, demonstrate feasibility in a preliminary in vivo experiment. We provide material properties and electromagnetic simulation performance analysis. This paper presents fully aerosol jet-deposited and functional wireless resonant markers on polymer catheters for use in 3T clinical scanners.