Scientific Reports (Feb 2021)

Accelerated sonothrombolysis with Definity in a xenographic porcine cerebral thromboembolism model

  • Robert T. Kleven,
  • Kunal B. Karani,
  • Nicole Hilvert,
  • Samantha M. Ford,
  • Karla P. Mercado-Shekhar,
  • John M. Racadio,
  • Marepalli B. Rao,
  • Todd A. Abruzzo,
  • Christy K. Holland

DOI
https://doi.org/10.1038/s41598-021-83442-3
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 11

Abstract

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Abstract Adjuvant ultrasound at 2 MHz with or without an ultrasound contrast agent improves the rate of thrombus resolution by recombinant tissue plasminogen activator (rt-PA) in laboratory and clinical studies. A sub-megahertz approach can further expand this therapy to a subset of patients with an insufficient temporal bone window, improving efficacy in unselected patient populations. The aim of this study was to determine if a clinical ultrasound contrast agent (UCA), Definity, and 220 kHz pulsed ultrasound accelerated rt-PA thrombolysis in a preclinical animal model of vascular occlusion. The effect of Definity and ultrasound on thrombus clearance was first investigated in vitro and subsequently tested in a xenographic porcine cerebral thromboembolism model in vivo. Two different microcatheter designs (end-hole, multi-side-hole) were used to infuse rt-PA and Definity at the proximal edge or directly into clots, respectively. Sonothrombolysis with Definity increased clot mass loss relative to saline or rt-PA alone in vitro, only when rt-PA was administered directly into clots via a multi-side-hole microcatheter. Combined treatment with rt-PA, Definity, and ultrasound in vivo increased the rate of reperfusion up to 45 min faster than clots treated with rt-PA or saline. In this porcine cerebral thromboembolism model employing retracted human clots, 220 kHz ultrasound, in conjunction with Definity increased the probability of early successful reperfusion with rt-PA.