AUTHOR=Samaddar Abhirup , Forrest M. Laird , Yang Xinmai 

TITLE=Pulsed focused ultrasound ablation assisted by a surface modified catheter for thrombolysis: a feasibility study

JOURNAL=Frontiers in Acoustics

VOLUME=2

YEAR=2024

URL=https://www.frontiersin.org/journals/acoustics/articles/10.3389/facou.2024.1456606

DOI=10.3389/facou.2024.1456606

ISSN=2813-8082

ABSTRACT=<p>Interventional procedures for the recanalization of blood vessels to treat deep vein thrombosis carry a high risk of vessel wall injuries or hemorrhaging. Focused ultrasound (FUS) has been used to non-invasively break down blood clots that occlude the vessels in both <italic>in vitro</italic> and <italic>in vivo</italic> studies. Previous studies have either used thrombolytic drugs or ultrasound contrast agents (e.g., microbubbles) in combination with FUS. Several studies have applied very high peak-negative-pressures (PNP) during FUS treatment to achieve successful thrombolysis without the use of contrast agents. In the current study, we demonstrated that cavitation activity could be significantly enhanced by placing a nitinol wire, whose surface was roughed by laser etching, in the focal region of a FUS field. We demonstrated <italic>in vitro</italic> in a mock thrombosis that the thrombolysis efficacy of a 500 kHz FUS transducer was significantly enhanced using a surface-etched nitinol wire as compared to an unetched nitinol wire, whereas FUS-alone at the same pressure level did not result in any thrombolysis. These results suggest that a surface modified nitinol catheter exposed to FUS can result in intense cavitation activities leading to enhanced thrombolysis without the use of additional pharmacological or contrast agents.</p>