Microbubble-Mediated Sonothrombolysis Improves Outcome After Thrombotic Microembolism-Induced Acute Ischemic Stroke

Lu, Yongkang; Wang, Junfen; Huang, Ronald; Chen, Gangbin; Zhong, Lintao; Shen, Shuxin; Zhang, Chuan‐Xi; Li, Xinzhong; Cao, Shiping; Liao, Wangjun; Liao, Yulin; Bin, Jianping

doi:10.1161/strokeaha.115.012056

Cited by 47 publications

(32 citation statements)

References 54 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In comparison, the effect of US + MB + rt-PA groups was the highest in cerebral infarction reduction and neurological deficits improvement. All these studies confirmed that MB-mediated sonothrombolysis has high effectiveness and good outcome in microemboli-induced acute ischemic strokes through dissolution of the microthrombi [85].…”

Section: Thrombolysissupporting

confidence: 64%

Advanced Microbubbles as a Multifunctional Platform Combining Imaging and Therapy

Wang

et al. 2016

Applied Sciences

View full text Add to dashboard Cite

Microbubbles as traditional ultrasound contrast agents have seen tremendous developments and bio-applications in the past decades. Due to their outstanding performance, advanced microbubbles as a multifunctional platform combining both imaging and therapy have been increasingly attracting attention. Associated with ultrasound-mediated stimuli, targeting drug transportation with high precision can be established and, as a consequence, a synergistic treatment strategy may prevail, which implies a bright perspective for this brand-new technology. This perspective article will summarize the latest developments on the advanced microbubbles, and review their emerging biomedical applications for the vast community of both applied ultrasound and functional ultrasound-based materials.

show abstract

Section: Thrombolysissupporting

confidence: 64%

Advanced Microbubbles as a Multifunctional Platform Combining Imaging and Therapy

Wang

et al. 2016

Applied Sciences

View full text Add to dashboard Cite

show abstract

“…Sonothrombolysis, that is, the use of ultrasound (US) for enhanced thrombolysis, is a minimally or non-invasive physical approach that can be used to enhance the action of tPA, thereby reducing the required dose or facilitating clot breakdown in the absence of a drug. Multiple in vitro and in vivo studies have indicated that intravenously administered microbubbles can significantly improve the rate of clot breakdown, with or without concomitant use of a thrombolytic drug (Lu et al 2016;Schleicher et al 2016). Several clinical trials have also reported accelerated recanalisation of occluded vessels (Molina et al 2006;Perren et al 2008).…”

Section: Introductionmentioning

confidence: 99%

Sonothrombolysis with Magnetically Targeted Microbubbles

Victor

Barnsley

Carugo

et al. 2019

Ultrasound in Medicine & Biology

View full text Add to dashboard Cite

Microbubble-enhanced sonothrombolysis is a promising approach to increasing the tolerability and efficacy of current pharmacological treatments for ischemic stroke. Maintaining therapeutic concentrations of microbubbles and drugs at the clot site, however, poses a challenge. The objective of this study was to investigate the effect of magnetic microbubble targeting upon clot lysis rates in vitro. Retracted whole porcine blood clots were placed in a flow phantom of a partially occluded middle cerebral artery. The clots were treated with a combination of tissue plasminogen activator (0.75 mg/mL), magnetic microbubbles (»10 7 microbubbles/mL) and ultrasound (0.5 MHz, 630-kPa peak rarefactional pressure, 0.2-Hz pulse repetition frequency, 2% duty cycle). Magnetic targeting was achieved using a single permanent magnet (0.08À0.38 T and 12-140 T/m in the region of the clot). The change in clot diameter was measured optically over the course of the experiment. Magnetic targeting produced a threefold average increase in lysis rates, and linear correlation was observed between lysis rate and total energy of acoustic emissions.

show abstract

“…Another family of FUS therapies utilize biologically inert and preadministrated microbubbles, which reradiate low-intensity, incident ultrasound to further localize and amplify the mechanical effects onto the vasculature. The targeted mechanical effects can result in various beneficial biological effects, including the cellular and/or transcellular permeability enhancement [blood-brain barrier disruption (BBBD) (5-7) and sonoporation (8)], thrombolysis (9), or nonthermal ablation (10). BBBD, the subject of the current study, reversibly opens the blood-brain barrier (BBB) enabling the delivery of even large-molecule therapeutics to the central nervous system and offers great potential for treating multiple neurological disorders.…”

mentioning

confidence: 99%

Closed-loop control of targeted ultrasound drug delivery across the blood–brain/tumor barriers in a rat glioma model

Sun

Zhang

Power

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

193

171

View full text Add to dashboard Cite

Cavitation-facilitated microbubble-mediated focused ultrasound therapy is a promising method of drug delivery across the blood-brain barrier (BBB) for treating many neurological disorders. Unlike ultrasound thermal therapies, during which magnetic resonance thermometry can serve as a reliable treatment control modality, real-time control of modulated BBB disruption with undetectable vascular damage remains a challenge. Here a closedloop cavitation controlling paradigm that sustains stable cavitation while suppressing inertial cavitation behavior was designed and validated using a dual-transducer system operating at the clinically relevant ultrasound frequency of 274.3 kHz. Tests in the normal brain and in the F98 glioma model in vivo demonstrated that this controller enables reliable and damage-free delivery of a predetermined amount of the chemotherapeutic drug (liposomal doxorubicin) into the brain. The maximum concentration level of delivered doxorubicin exceeded levels previously shown (using uncontrolled sonication) to induce tumor regression and improve survival in rat glioma. These results confirmed the ability of the controller to modulate the drug delivery dosage within a therapeutically effective range, while improving safety control. It can be readily implemented clinically and potentially applied to other cavitation-enhanced ultrasound therapies.drug delivery | focused ultrasound | acoustic cavitation | treatment control | blood-brain barrier

show abstract

Microbubble-Mediated Sonothrombolysis Improves Outcome After Thrombotic Microembolism-Induced Acute Ischemic Stroke

Cited by 47 publications

References 54 publications

Advanced Microbubbles as a Multifunctional Platform Combining Imaging and Therapy

Advanced Microbubbles as a Multifunctional Platform Combining Imaging and Therapy

Sonothrombolysis with Magnetically Targeted Microbubbles

Closed-loop control of targeted ultrasound drug delivery across the blood–brain/tumor barriers in a rat glioma model

Contact Info

Product

Resources

About