Ultrasound-enhanced thrombolysis: mechanistic observations
Ultrasound-enhanced thrombolysis: mechanistic observations
Ultrasound and microbubbles have been widely demonstrated to accelerate the breakdown of blood clots, but the mechanisms of treatment require further investigation. In particular, there is a need to clarify the effect on the fibrin matrix—the insoluble polymer mesh that determines a clot’s integrity and mechanical properties. The objective of this in vitro study was to observe in real-time the mechanisms of microbubble-enhanced sonothrombolysis at the microscale. Fluorescently labeled porcine plasma clots were prepared on a glass coverslip and exposed to different types of microbubbles with or without the fibrinolytic agent recombinant tissue plasminogen activator. A 1 mm thick piezoelectric element was coupled with the glass substrate and driven at the resonant frequency of the system (1.9 MHz), with a duty cycle of 5% and a 0.1 Hz pulse repetition frequency. The acoustic field within the clot was characterized using a fiber optic hydrophone. Changes in the fiber network were monitored for 30 min by confocal microscopy.
1820
de Saint Victor, Marie
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Carugo, Dario
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Coussios, Constantin
55b78f4c-f241-4676-87d5-9ea5fb295f4f
Stride, Eleanor
c0143e95-81fa-47c8-b9bc-5b4fc319bba6
1 October 2015
de Saint Victor, Marie
b558a637-b7b6-4b5f-ad84-1a93f74a425e
Carugo, Dario
0a4be6cd-e309-4ed8-a620-20256ce01179
Coussios, Constantin
55b78f4c-f241-4676-87d5-9ea5fb295f4f
Stride, Eleanor
c0143e95-81fa-47c8-b9bc-5b4fc319bba6
de Saint Victor, Marie, Carugo, Dario, Coussios, Constantin and Stride, Eleanor
(2015)
Ultrasound-enhanced thrombolysis: mechanistic observations.
Journal of the Acoustical Society of America, 138 (3), .
(doi:10.1121/1.4933778).
Abstract
Ultrasound and microbubbles have been widely demonstrated to accelerate the breakdown of blood clots, but the mechanisms of treatment require further investigation. In particular, there is a need to clarify the effect on the fibrin matrix—the insoluble polymer mesh that determines a clot’s integrity and mechanical properties. The objective of this in vitro study was to observe in real-time the mechanisms of microbubble-enhanced sonothrombolysis at the microscale. Fluorescently labeled porcine plasma clots were prepared on a glass coverslip and exposed to different types of microbubbles with or without the fibrinolytic agent recombinant tissue plasminogen activator. A 1 mm thick piezoelectric element was coupled with the glass substrate and driven at the resonant frequency of the system (1.9 MHz), with a duty cycle of 5% and a 0.1 Hz pulse repetition frequency. The acoustic field within the clot was characterized using a fiber optic hydrophone. Changes in the fiber network were monitored for 30 min by confocal microscopy.
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Published date: 1 October 2015
Organisations:
Mechatronics
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Local EPrints ID: 384535
URI: http://eprints.soton.ac.uk/id/eprint/384535
ISSN: 0001-4966
PURE UUID: f5da80e3-adce-481a-a8c8-7bb54870452b
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Date deposited: 04 Jan 2016 14:52
Last modified: 14 Mar 2024 22:00
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Author:
Marie de Saint Victor
Author:
Constantin Coussios
Author:
Eleanor Stride
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