The left ventricular assist device (LVAD) is often used in the treatment of heart failure. However, 4% to 9% implanted LVAD will have thrombosis problem in one year, which is fatal to the patient's life. In this work, an interventional sonothrombolysis (IST) method is developed to realize the thrombolysis on LVAD. A pair of ultrasound transducer rings is installed on the shell of LVAD, and drug-loaded microbubbles are injected into the LVAD through the interventional method. The microbubbles are adhere on the thrombus with the coated thrombus-targeted drugs, and the thrombolytic drugs carried by the bubbles are brought into the thrombus by the cavitation of bubbles under the ultrasound. In a proof-of-concept experiment in a live sheep model, the thrombus on LVAD is dissolved in 30 min, without damages on LVADs and organs. This IST exhibits to be more efficient and safer compared with other thrombolysis methods on LVAD.
Thrombosis is a major cause of morbidity and mortality and sonothrombolysis is a promising method for its treatment. However, the slow diffusion of the thrombolytic agents into the thrombus results in slow recanalization. Here, nanodroplet‐coated microbubbles (NCMBs) are designed and fabricated and a two‐step cavitation strategy is used to accelerate the thrombolysis. The first cavitation of the NCMBs, cavitation and collapse of the microbubbles induced by low frequency ultrasound, drives the nanodroplets on the shell into the thrombus, while the second cavitation, the phase‐change and volume expansion of drug‐loaded nanodroplets triggered by high frequency ultrasound, loosens the thrombus by the sono‐porosity effect. This two‐step cavitation of the NCMBs is verified using a fibrin agarose model, where a rapid diffusion of the thrombolytic agents is observed. Furthermore, the NCMBs reach much higher thrombolysis efficiency in both in vitro and proof‐of‐concept experiments performed with living mice. The nanodroplet‐coated microbubbles are a promising diffusion medicines carrier for efficient drug delivery.
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