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体外和体内高强度聚焦超声溶栓。

In vitro and in vivo high-intensity focused ultrasound thrombolysis.

机构信息

Imaging Research, Sunnybrook Health Sciences Centre, Toronto, ON, Canada.

出版信息

Invest Radiol. 2012 Apr;47(4):217-25. doi: 10.1097/RLI.0b013e31823cc75c.

DOI:10.1097/RLI.0b013e31823cc75c
PMID:22373533
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3302946/
Abstract

OBJECTIVES

To characterize the ability of high-intensity focused ultrasound to achieve thrombolysis in vitro and investigate the feasibility of this approach as a means of restoring blood flow in thrombus-occluded arteries in vivo.

MATERIALS AND METHODS

All experiments were approved by the Institutional Animal Care Committee. Thrombolysis was performed with a 1.51-MHz focused ultrasound transducer with pulse lengths of 0.1 to 10 milliseconds and acoustic powers up to 300 W. In vitro experiments were performed with blood clots formed from rabbit arterial blood and situated in 2-mm diameter tubing. Both single location and flow bypass recanalization experiments were conducted. In vitro clot erosion was assessed with 30-MHz ultrasound, with debris size measured with filters and a Coulter counter. In vivo clots were initiated in the femoral arteries of rabbits (n = 26). Cavitation signals from bubbles formed during exposure were monitored. In vivo flow restoration was assessed with 23-MHz Doppler ultrasound.

RESULTS

At a single location, in vitro clot erosion volumes increased with exposure power and pulse length, with debris size reducing with increasing pulse length. Flow bypass experiments achieved 99.2% clot erosion with 1.1% of debris above 0.5 mm in size. In vivo, 10 milliseconds pulses were associated with bleeding, but at 1 millisecond, it was feasible to achieve partial flow restoration in 6 of the 10 clots with only 1 of the 10 showing evidence of bleeding. In all cases, thrombolysis occurred only in the presence of cavitation.

CONCLUSION

High-intensity focused ultrasound thrombolysis is feasible as a means of restoring partial blood flow in thrombus-occluded arteries in the absence of thrombolytic agents. The potential for bleeding with this approach requires further investigation.

摘要

目的

描述高强度聚焦超声在体外实现溶栓的能力,并研究这种方法作为恢复体内血栓阻塞动脉血流的可行性。

材料和方法

所有实验均获得机构动物护理委员会的批准。使用脉冲长度为 0.1 至 10 毫秒、声功率高达 300W 的 1.51MHz 聚焦超声换能器进行溶栓。体外实验使用从兔动脉血形成的位于 2mm 直径管中的血栓进行。进行了单点和血流旁路再通实验。体外血栓侵蚀采用 30MHz 超声进行评估,使用过滤器和库尔特计数器测量碎片尺寸。在兔的股动脉中引发体内血栓(n=26)。监测在暴露过程中形成的气泡产生的空化信号。使用 23MHz 多普勒超声评估体内血流恢复情况。

结果

在单点处,体外血栓侵蚀体积随暴露功率和脉冲长度的增加而增加,随着脉冲长度的增加,碎片尺寸减小。旁路实验实现了 99.2%的血栓侵蚀,尺寸大于 0.5mm 的碎片仅占 1.1%。在体内,10 毫秒脉冲与出血相关,但在 1 毫秒时,在 10 个血栓中有 6 个可以实现部分血流恢复,其中只有 1 个显示出血迹象。在所有情况下,只有在有空化的情况下才会发生溶栓。

结论

高强度聚焦超声溶栓作为一种在没有溶栓剂的情况下恢复血栓阻塞动脉部分血流的方法是可行的。这种方法的出血潜力需要进一步研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2e39/3302946/472312ae79a7/nihms338613f1.jpg

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