Treatment of acute intravascular thrombi with diagnostic ultrasound and intravenous microbubbles
Feng Xie, John Lof, Carr Everbach, Anming He, Richard M Bennett, Terry Matsunaga, Jason Johanning, Thomas R Porter, Feng Xie, John Lof, Carr Everbach, Anming He, Richard M Bennett, Terry Matsunaga, Jason Johanning, Thomas R Porter
Abstract
The purpose of this study was to determine whether high mechanical index (MI) impulses from diagnostic ultrasound (DUS) could dissolve intravascular thrombi using intravenous microbubbles. Using a canine model, DUS was applied during a continuous intravenous infusion of microbubbles. Completely thrombosed grafts were assigned to 2 treatment regimens: low-MI (<0.5-MI) ultrasound alone; or intermittent high-MI impulses (1.9-MI) guided by low-MI ultrasound (contrast pulse sequencing). A 20-MHz cavitation detector was placed confocal to the ultrasound transducer to make intravascular cavitation measurements in 1 dog. Intravascular cavitational activity was detected when an MI of >0.5 was applied. In grafts treated with intermittent high-MI ultrasound, angiographic success was 71% at 30 min and 79% at 45 min, compared with 20% and 30% at these times in the low-MI ultrasound alone group (p < 0.05). We conclude that a commercially available DUS transducer can successfully recanalize acute intravascular thrombi during a continuous microbubble infusion.
Source: PubMed