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Main Authors: Nagargoje, Mahesh S., Fregona, Virginia, Luraghi, Giulia, Migliavacca, Francesco, Pero, Guglielmo, Matas, Jose Felix Rodriguez
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.03632
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author Nagargoje, Mahesh S.
Fregona, Virginia
Luraghi, Giulia
Migliavacca, Francesco
Pero, Guglielmo
Matas, Jose Felix Rodriguez
author_facet Nagargoje, Mahesh S.
Fregona, Virginia
Luraghi, Giulia
Migliavacca, Francesco
Pero, Guglielmo
Matas, Jose Felix Rodriguez
contents Multiple clinical trials have demonstrated the superiority of mechanical thrombectomy (MT) in treating acute ischemic stroke (AIS). Stent retriever (SR) and aspiration techniques are the standard methods for removing occluded emboli, with evolving technologies improving MT efficiency. However, procedural success remains uncertain. Frictional forces, specifically clot-vessel, clot-SR, and SR-vessel interactions, play a critical role in MT outcomes. This review examines frictional forces during MT and their impact on success, analyzing publications from 2015 to 2025. We focus on studies that calculated friction or retrieval forces using in vitro models. We have also included current trends, limitations, and future perspectives on studying and understanding frictional forces and their implementation into in silico models. Findings indicate that fibrin-rich clots are more difficult to retrieve than red blood cell (RBC)-rich clots due to their higher friction coefficient, three to four times greater, an observation supported by multiple studies. SR-vessel and SR-clot friction also influence MT effectiveness. SR-vessel interaction plays a crucial role in acutely curved vessels, as SR compression reduces its efficiency. In SR-clot interaction, RBC-rich clot fragmentation is linked to relative interaction forces. In summary, obtaining in vivo frictional values remains challenging, and inconsistencies persist in past in vitro studies. Further, a deeper understanding of frictional forces is essential for optimizing MT, improving current SRs, and developing next-generation thrombectomy technologies.
format Preprint
id arxiv_https___arxiv_org_abs_2505_03632
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The role of friction forces in arterial mechanical thrombectomy: a review
Nagargoje, Mahesh S.
Fregona, Virginia
Luraghi, Giulia
Migliavacca, Francesco
Pero, Guglielmo
Matas, Jose Felix Rodriguez
Medical Physics
Multiple clinical trials have demonstrated the superiority of mechanical thrombectomy (MT) in treating acute ischemic stroke (AIS). Stent retriever (SR) and aspiration techniques are the standard methods for removing occluded emboli, with evolving technologies improving MT efficiency. However, procedural success remains uncertain. Frictional forces, specifically clot-vessel, clot-SR, and SR-vessel interactions, play a critical role in MT outcomes. This review examines frictional forces during MT and their impact on success, analyzing publications from 2015 to 2025. We focus on studies that calculated friction or retrieval forces using in vitro models. We have also included current trends, limitations, and future perspectives on studying and understanding frictional forces and their implementation into in silico models. Findings indicate that fibrin-rich clots are more difficult to retrieve than red blood cell (RBC)-rich clots due to their higher friction coefficient, three to four times greater, an observation supported by multiple studies. SR-vessel and SR-clot friction also influence MT effectiveness. SR-vessel interaction plays a crucial role in acutely curved vessels, as SR compression reduces its efficiency. In SR-clot interaction, RBC-rich clot fragmentation is linked to relative interaction forces. In summary, obtaining in vivo frictional values remains challenging, and inconsistencies persist in past in vitro studies. Further, a deeper understanding of frictional forces is essential for optimizing MT, improving current SRs, and developing next-generation thrombectomy technologies.
title The role of friction forces in arterial mechanical thrombectomy: a review
topic Medical Physics
url https://arxiv.org/abs/2505.03632