Novel Phase Shift Microbubbles, MVT-101, Enhance Sonothrombolysis in a Porcine Model of Deep Vein Thrombosis

Joel Lusk; Jinwook Kim; Mark Urtz; Gregory Woodhead; Emmanuelle J Meuillet; Evan C Unger

doi:10.7150/ntno.120358

Novel Phase Shift Microbubbles, MVT-101, Enhance Sonothrombolysis in a Porcine Model of Deep Vein Thrombosis

Nanotheranostics. 2025 Oct 24;9(3):289-298. doi: 10.7150/ntno.120358. eCollection 2025.

Authors

Joel Lusk¹, Jinwook Kim², Mark Urtz³, Gregory Woodhead⁴, Emmanuelle J Meuillet¹, Evan C Unger¹

Affiliations

¹ Microvascular Therapeutics Inc, 1635 E. 18 th Street, Tucson AZ 85719, USA.
² University of North Carolina, 109 Mason Farm Road, Chapel Hill, NC 27599, USA.
³ Synchrony Labs, 3908 Patriot Drive, Suite 170, Durham, NC 27703, USA.
⁴ University of Arizona Cancer Center, 1515 N. Campbell Ave, Tucson AZ 85724, USA.

Abstract

Background: Estimates suggest that 60,000-100,000 Americans die of Deep Vein Thrombosis / Pulmonary Embolism (DVT/PE) each year. Between 10 to 30% of people with PE will die within one month of diagnosis. Sudden death is the first symptom in about 25% of people who have PE. Among people who have had DVT, one third to one half will have long-term complications (post-thrombotic syndrome) such as swelling, pain, discoloration, and scaling in the affected limb. Microbubble (MB) enhanced sonothrombolysis (SL) has shown promise in treating vascular thrombosis, but MBs are micrometer-sized structures and do not easily permeate clots. We hypothesized that sub-micron structures, e.g., phase shift microbubbles (PSMB or nanodroplets, herein referred as MVT-101) would better permeate clots for more effective SL. We have already shown that MVT-101 (~250 nm in diameter size), easily penetrate the thrombus and demonstrate increased SL efficiency in the rat hindlimb model of microvascular obstruction (MVO). Methods: Bi-lateral occlusive model of DVT was created in the pigs. Endovascular ultrasound was delivered using the EKOS™ Endovascular System and transcutaneous ultrasound (TCUS) was delivered using a diagnostic transducer (GE Vivid E9). Results: We now report that in combination with the EKOS™ Endovascular System, MVT-101 made with perfluoropropane, dissolved occlusive DVT clots in a bi-lateral occlusive porcine model of DVT in combination with (Mean clot resolution = 45.12 ± 46.79 %) or without tissue Plasminogen Activator (tPA) (Mean clot resolution = 36.00 ± 52.27 %) within 60 min of treatment time. We also show that TCUS further SL was observed in the presence of MVT-101 and tPA (Mean clot resolution 76.21 ± 11.86 % with 1000-2000 mg tPA) as compared to tPA alone (Mean clot resolution 16.75 ± 17.00 % with 1000 mg tPA). Conclusion: Both procedures proved to be safe and did not produce PE. In conclusion, MVT-101 holds great potential as therapeutic agent for treating DVT either with TCUS or endovascular ultrasound (EVUS).

Keywords: deep vein thrombosis; phase shift microbubbles; porcine model; sonothrombolysis.

MeSH terms

Animals
Disease Models, Animal
Mechanical Thrombolysis* / methods
Microbubbles* / therapeutic use
Rats
Swine
Thrombolytic Therapy* / methods
Ultrasonic Therapy* / methods
Venous Thrombosis* / pathology
Venous Thrombosis* / therapy