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(Stroke. 2004;35:2407.)
© 2004 American Heart Association, Inc.

Original Contributions

Intracranial Clot Lysis With Intravenous Microbubbles and Transcranial Ultrasound in Swine

William C. Culp, MD; Thomas R. Porter, MD; John Lowery, DVM; Feng Xie, MD; Paula K. Roberson, PhD Louis Marky, PhD

From the Departments of Radiology (W.C.C.), Laboratory Animal Medicine (J.L.), and Biostatistics (P.K.R.), University of Arkansas for Medical Sciences, Little Rock, Ark; and the Departments of Cardiology (T.R.P., F.X.) and Pharmacology (L.M.), University of Nebraska Medical Center, Omaha, Neb.

Correspondence to Dr William C. Culp, University of Arkansas for Medical Sciences, Department of Radiology, 4301 W Markham St, Slot 556, Little Rock, AR 72205-7199. E-mail culpwilliamc{at}uams.edu

Background and Purpose— Destruction of microbubbles by transcutaneous low-frequency ultrasound (LFUS) has been used to lyse adjacent clot and recanalize acutely thrombosed vessels. LFUS with intraarterial microbubbles has been shown to lyse cerebral clot rapidly in pigs without thrombolytic drugs. We hypothesized that intravenous platelet-targeted microbubbles with LFUS may be a rapid noninvasive technique to recanalize thrombosed intracerebral vessels.

Methods— After angiography, 0.5 cc of autogenous thrombus was injected into 1 ascending pharyngeal artery of a pig, occluding it and the rete mirabile. These vessels connect the carotid to the internal carotid and are the main cerebral blood supply. Saline control or intravenous decafluorobutane-sonicated dextrose albumin microbubbles tagged with a subtherapeutic quantity of glycoprotein 2b/3a receptor inhibitor eptifibatide (75 U/kg plus 12 cc of microbubbles administered over 21 minutes), or eptifibatide control, was given with transcutaneous temporal LFUS (1 MHz at 2.0 W/cm²) for 24 minutes. Angiography followed with scoring of declotting and flow. The same protocol was repeated on the contralateral side with the other test fluid so each animal received a saline control and either tagged microbubble or eptifibatide alone.

Results— Fifteen pigs completed the protocol with a mean clot age of 4.6 hours. Using tagged microbubbles, 6 of 8 achieved success compared with 0 of 7 receiving eptifibatide alone (P=0.007) and 1 of 15 receiving saline alone (P=0.02).

Conclusions— Intravenous platelet-targeted microbubbles combined with transcranial LFUS can rapidly open acute intracranial thrombotic occlusions. Further development for ischemic stroke therapy is justified.

Key Words: stroke • thrombolysis • ultrasonics

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