Shekhar Himanshu, Bader Kenneth B, Huang Shenwen, Peng Tao, Huang Shaoling, McPherson David D, Holland Christy K
Department of Internal Medicine, Division of Cardiovascular Health and Disease, University of Cincinnati, Cincinnati, OH, USA.
Phys Med Biol. 2017 Jan 21;62(2):517-538. doi: 10.1088/1361-6560/62/2/517. Epub 2016 Dec 21.
Echogenic liposomes loaded with the thrombolytic recombinant tissue-type plasminogen activator (rt-PA) are under development for the treatment of ischemic stroke. These agents are designed to co-encapsulate cavitation nuclei to promote bubble activity in response to ultrasound exposure, and to enable localized delivery of thrombolytic. Stable cavitation improves the efficacy of the thrombolytic through enhanced fluid mixing. Echogenic liposomes that encapsulate air-filled microbubbles nucleate scant stable cavitation activity in response to 120 kHz intermittent ultrasound exposure, and have demonstrated thrombolytic efficacy equivalent to rt-PA alone. It was hypothesized that encapsulating octafluoropropane (OFP) gas within rt-PA-loaded liposomes instead of air will enhance ultrasound-mediated stable cavitation activity and increase thrombolytic efficacy compared to previous studies. The thrombolytic efficacy and cavitation activity nucleated from liposomes that encapsulate OFP microbubbles and rt-PA (OFP t-ELIP) was evaluated in vitro. Human whole blood clots were exposed to human fresh-frozen plasma alone, rt-PA (0, 0.32, 1.58, and 3.15 µg ml), or OFP t-ELIP at equivalent enzymatic activity, with and without exposure to intermittent ultrasound. Further, numerical simulations were performed to gain insight into the mechanisms of cavitation nucleation. Sustained ultraharmonic activity was nucleated from OFP t-ELIP when exposed to ultrasound. Furthermore, the thrombolytic efficacy was enhanced compared to rt-PA alone at concentrations of 1.58 µg ml and 3.15 µg ml (p < 0.05). These results indicate that OFP t-ELIP can nucleate sustained stable cavitation activity and enhance the efficacy of thrombolysis.
负载溶栓重组组织型纤溶酶原激活剂(rt-PA)的超声造影脂质体正在研发用于治疗缺血性中风。这些制剂旨在共同封装空化核,以促进超声照射时的气泡活性,并实现溶栓剂的局部递送。稳定空化通过增强流体混合提高溶栓效果。包裹空气微泡的超声造影脂质体在120kHz间歇超声照射下产生的稳定空化活性较少,并且已证明其溶栓效果与单独使用rt-PA相当。据推测,与先前的研究相比,在负载rt-PA的脂质体中封装八氟丙烷(OFP)气体而非空气将增强超声介导的稳定空化活性并提高溶栓效果。对包裹OFP微泡和rt-PA的脂质体(OFP t-ELIP)产生的溶栓效果和空化活性进行了体外评估。将人全血凝块单独暴露于新鲜冷冻人血浆、rt-PA(0、0.32、1.58和3.15μg/ml)或具有等效酶活性的OFP t-ELIP中,同时有或没有暴露于间歇超声。此外,进行了数值模拟以深入了解空化成核的机制。当暴露于超声时,OFP t-ELIP产生持续的超谐波活性。此外,在浓度为1.58μg/ml和3.15μg/ml时,与单独使用rt-PA相比,溶栓效果增强(p<0.05)。这些结果表明,OFP t-ELIP可以产生持续的稳定空化活性并提高溶栓效果。