Fiber-Optic Navigation During TIPS Creation: A Prospective Pilot Study

Overview

Transjugular intrahepatic portosystemic shunt (TIPS) creation is an established minimally invasive treatment for complications of portal hypertension such as refractory ascites and variceal bleeding. A technically challenging step of the procedure is the puncture of the portal vein from the hepatic vein, which is usually performed under fluoroscopic guidance and may require multiple puncture attempts. This prospective pilot study evaluates the use of fiber-optic navigation technology during TIPS creation. The system allows real-time three-dimensional visualization of guidewires and catheters and may improve spatial orientation during the procedure. Approximately 30 patients with a clinical indication for TIPS placement will be included. The study will assess procedural parameters such as the number of puncture attempts, fluoroscopy time, radiation exposure, procedure duration, technical success, and complications. The results may help to improve procedural efficiency and radiation safety during TIPS interventions.

Transjugular intrahepatic portosystemic shunt (TIPS) creation is an established minimally invasive treatment for complications of portal hypertension, including refractory ascites and variceal bleeding. The most technically demanding step of the procedure is the puncture of the portal vein from the hepatic vein through the liver parenchyma. This step is traditionally performed under fluoroscopic guidance and may require multiple puncture attempts, potentially leading to prolonged procedure times and increased radiation exposure. Recent technological developments allow real-time three-dimensional visualization of guidewires and catheters using fiber-optic shape sensing technology. This approach may improve spatial orientation during complex endovascular procedures and facilitate more precise navigation within vascular structures. The present prospective single-center pilot study aims to evaluate the feasibility and procedural impact of fiber-optic navigation during TIPS creation in routine clinical practice. Approximately 30 patients with an established clinical indication for TIPS placement will be included. Procedural parameters including number of puncture attempts, fluoroscopy time, radiation exposure (dose area product), total procedure time, technical success, and procedure-related complications will be prospectively recorded. The results of this study are expected to provide initial clinical data on the integration of fiber-optic navigation into TIPS procedures and its potential impact on procedural efficiency and radiation safety.