Publications by authors named "Takuto Kameda"
Article Synopsis
- - A vascular intervention simulation model was developed using a 3D-printed transparent flexible resin, which was then compared to porcine arteries in terms of mechanical properties like elastic modulus and friction.
- - The study found that the resin was significantly stiffer than porcine arteries, and as the resin cured longer, its transparency and adhesive strength decreased, while porcine arteries maintained lower adhesive strength overall.
- - Coating the resin with silicone made its surface friction comparable to that of porcine arteries, indicating that this resin could be effectively used for realistic vascular models in simulations.
The development of three-dimensional printers has facilitated the creation of patient-specific hollow vessel models. Preoperative simulations using these types of models have improved our ability to select appropriate devices and embolic materials before performing complex endovascular procedures. This report describes 2 cases of high-flow renal arteriovenous fistulas (r-AVFs) that were successfully treated via short-segment embolization using the preloading coil-in-plug (p-CIP) technique.
View Article and Find Full Text PDF