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Hauptverfasser: Ranne, Alex, Maier, Heiko, Zhao, Jinshi, Moey, Songli, Aktas, Ayhan, Chana, Manik, Temelkuran, Burak, Navab, Nassir, Baena, Ferdinando Rodriguez Y
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2504.19326
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author Ranne, Alex
Maier, Heiko
Zhao, Jinshi
Moey, Songli
Aktas, Ayhan
Chana, Manik
Temelkuran, Burak
Navab, Nassir
Baena, Ferdinando Rodriguez Y
author_facet Ranne, Alex
Maier, Heiko
Zhao, Jinshi
Moey, Songli
Aktas, Ayhan
Chana, Manik
Temelkuran, Burak
Navab, Nassir
Baena, Ferdinando Rodriguez Y
contents To navigate medical instruments safely and accurately inside a patient's vascular tree, combining X-ray fluoroscopy with intermittent contrast injections is the gold standard. However, prolonged exposure to ionizing radiation poses health risks, necessitates the use of cumbersome lead vests for the clinicians, and contrast injections can lead to acute kidney injury in patients. Bioelectric Navigation, a non-fluoroscopic tracking modality, aims to provide an alternative. It uses weak electric currents to detect local anatomical features in the vasculature and localize instruments without x-ray imaging. In this work, we advance Bioelectric Navigation on two frontiers. Firstly, we introduce a new class of bespokely designed electrode catheters. They are fabricated using 3D printing, thermal drawing, and laser micro-machining. Specifically, we manufacture a 6 Fr catheter incorporating 16 electrodes, a guidewire channel and an additional sensor compartment. We thoroughly assess the catheter's mechanical and electrical properties. Secondly, we introduce an algorithm to localize the catheter along the centerline of a vascular phantom, for the first time fusing electric detection of vascular geometry with electric distance estimation. We report both tracking accuracy and usability evaluated by an expert endovascular surgeon, demonstrating the strong potential of this technology for integration into the existing clinical workflow.
format Preprint
id arxiv_https___arxiv_org_abs_2504_19326
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Thermally Drawn Bioelectric Catheters: Enabling Proprioceptive Endovascular Navigation
Ranne, Alex
Maier, Heiko
Zhao, Jinshi
Moey, Songli
Aktas, Ayhan
Chana, Manik
Temelkuran, Burak
Navab, Nassir
Baena, Ferdinando Rodriguez Y
Medical Physics
To navigate medical instruments safely and accurately inside a patient's vascular tree, combining X-ray fluoroscopy with intermittent contrast injections is the gold standard. However, prolonged exposure to ionizing radiation poses health risks, necessitates the use of cumbersome lead vests for the clinicians, and contrast injections can lead to acute kidney injury in patients. Bioelectric Navigation, a non-fluoroscopic tracking modality, aims to provide an alternative. It uses weak electric currents to detect local anatomical features in the vasculature and localize instruments without x-ray imaging. In this work, we advance Bioelectric Navigation on two frontiers. Firstly, we introduce a new class of bespokely designed electrode catheters. They are fabricated using 3D printing, thermal drawing, and laser micro-machining. Specifically, we manufacture a 6 Fr catheter incorporating 16 electrodes, a guidewire channel and an additional sensor compartment. We thoroughly assess the catheter's mechanical and electrical properties. Secondly, we introduce an algorithm to localize the catheter along the centerline of a vascular phantom, for the first time fusing electric detection of vascular geometry with electric distance estimation. We report both tracking accuracy and usability evaluated by an expert endovascular surgeon, demonstrating the strong potential of this technology for integration into the existing clinical workflow.
title Thermally Drawn Bioelectric Catheters: Enabling Proprioceptive Endovascular Navigation
topic Medical Physics
url https://arxiv.org/abs/2504.19326