Dynamic Rigidity Control for Supportive Sheaths in Endovascular Procedures Article Swipe

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Michael Qiu , Vinay Chandrasekaran , Chase M. Hartquist , Halle Lowe , Charles Suskin , Spencer Lee , Juan J Becerra-Garcia , Jin Vivian Lee , DeVaughn Rucker , Michelle R. Connor , Sophia R. Pyeatte , Mohamed Zaghloul , Santiago Elizondo Benedetto , Eric C. Leuthardt , Mohamed A. Zayed , J Osbun , Guy M. Genin ·

YOU? · · 2025 · Open Access · · DOI: https://doi.org/10.1115/1.4068225

Endovascular procedures require sheaths with contradictory mechanical properties: flexibility for navigation through tortuous vessels, yet rigidity for device delivery. Current approaches rely on multiple device exchanges, increasing procedural time, and complication risks. Here we present a novel endovascular sheath design scheme with dynamically controllable flexural rigidity along its entire length. The device incorporates axially aligned metal string arrays between inner and outer lumens, enabling transition between flexible and rigid states through suction actuation. Three-point bend testing demonstrated that actuation increases flexural rigidity from the range associated with diagnostic catheters to that associated with support sheaths. In simulated contralateral access procedures, the device reduced access time to 1/3 of the time required when using conventional approaches. in vivo porcine studies validated the sheath's ability to navigate tortuous anatomy in its flexible state and successfully support advancement of increasingly rigid therapeutic devices when actuated. Technology enables single-sheath delivery of treatment, potentially reducing procedural complexity, decreasing complication rates, and improving patient outcomes across various endovascular interventions. This design represents a promising approach to combining catheter and sheath design that benefits both peripheral and neurovascular procedures.

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Catheter

Materials Science

Biomedical Engineering

Concepts

Flexural rigidity Neurovascular bundle Rigidity (electromagnetism) Catheter Materials science Flexibility (engineering) Biomedical engineering Computer science Surgery Composite material Engineering Medicine Mathematics Statistics

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Type: article
Language: en
Landing Page: https://doi.org/10.1115/1.4068225
PDF: https://asmedigitalcollection.asme.org/biomechanical/article-pdf/doi/10.1115/1.4068225/7447099/bio-24-1345.pdf
OA Status: bronze
Cited By: 2
References: 29
Related Works: 10
OpenAlex ID: https://openalex.org/W4408505634

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OpenAlex ID: https://openalex.org/W4408505634

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DOI: https://doi.org/10.1115/1.4068225

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Title: Dynamic Rigidity Control for Supportive Sheaths in Endovascular Procedures

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Type: article

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Language: en

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Publication year: 2025

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Publication date: 2025-03-17

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Authors: Michael Qiu, Vinay Chandrasekaran, Chase M. Hartquist, Halle Lowe, Charles Suskin, Spencer Lee, Juan J Becerra-Garcia, Jin Vivian Lee, DeVaughn Rucker, Michelle R. Connor, Sophia R. Pyeatte, Mohamed Zaghloul, Santiago Elizondo Benedetto, Eric C. Leuthardt, Mohamed A. Zayed, J Osbun, Guy M. Genin

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Landing page: https://doi.org/10.1115/1.4068225

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PDF URL: https://asmedigitalcollection.asme.org/biomechanical/article-pdf/doi/10.1115/1.4068225/7447099/bio-24-1345.pdf

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Concepts: Flexural rigidity, Neurovascular bundle, Rigidity (electromagnetism), Catheter, Materials science, Flexibility (engineering), Biomedical engineering, Computer science, Surgery, Composite material, Engineering, Medicine, Mathematics, Statistics

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Cited by: 2

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References (count): 29

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primary_location.raw_source_name	Journal of Biomechanical Engineering
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publication_date	2025-03-17
publication_year	2025
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