Fibrin targeting of tissue plasminogen activator-loaded echogenic liposomes

Tiukinhoy-Laing, Susan D.; Buchanan, Kyle; Parikh, Devang; Huang, Shaoling; MacDonald, Robert C.; McPherson, David D.; Klegerman, Melvin E.

doi:10.1080/10611860601140673

Cited by 61 publications

(33 citation statements)

References 18 publications

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“…Recently, our laboratory has utilized the intrinsic fibrin-binding capacity of tissue plasminogen activator in the preparation of a dual function ELIP formulation that effectively targeted thrombus in vivo as well as facilitated ultrasound-enhanced thrombolysis in vivo [60,61]. The delivery of large amounts of acoustically active agents at the site of thrombus may provide added opportunities for mechanical disruption of thrombus by ultrasound and chemical clot lysis by high local concentration of thrombolytics.…”

Section: Other Novel Imaging Concepts Of Thrombusmentioning

confidence: 99%

Targeted Molecular Imaging to Detect Vascular Disease

Driessen

Kee

2010

Curr Cardio Risk Rep

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Section: Other Novel Imaging Concepts Of Thrombusmentioning

confidence: 99%

Targeted Molecular Imaging to Detect Vascular Disease

Driessen

Kee

2010

Curr Cardio Risk Rep

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“…25 We are using the enzymatic activity of thrombin as the trigger to activate our contrast agent for molecular-based US recognition of active thrombosis. Our approach holds the advantage of binding specifically to active thrombus compared to other US contrast agents that target individual components of thrombi 26 such as platelets 27–29 or fibrin 30–32 and are not specific to active thrombosis.…”

Section: Introductionmentioning

confidence: 99%

Thrombin-Activatable Microbubbles as Potential Ultrasound Contrast Agents for the Detection of Acute Thrombosis

Lux

Vezeridis

Hoyt

et al. 2017

ACS Appl. Mater. Interfaces

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Acute deep vein thrombosis (DVT) is the formation of a blood clot in the deep veins of the body that can lead to fatal pulmonary embolism. Acute DVT is difficult to distinguish from chronic DVT by ultrasound (US), the imaging modality of choice, and is therefore treated aggressively with anticoagulants, which can lead to internal bleeding. Here we demonstrate that conjugating perfluorobutane-filled (PFB-filled) microbubbles (MBs) with thrombin-sensitive activatable cell-penetrating peptides (ACPPs) could lead to the development of contrast agents that detect acute thrombosis with US imaging. Successful conjugation of ACPP to PFB-filled MBs was confirmed by fluorescence microscopy and flow cytometry. Fluorescein-labeled ACPP was used to evaluate the efficiency of thrombin-triggered cleavage by measuring the mean fluorescence intensity of ACPP-labeled MBs (ACPP-MBs) before and after incubation at 37 °C with thrombin. Lastly, control MBs and ACPP-MBs were infused through a tube containing a clot, and US contrast enhancement was measured with or without the presence of a thrombin inhibitor after washing the clot with saline. With thrombin activity, 91.7 ± 14.2% of the signal was retained after ACPP-MB infusion and washing, whereas only 16.7 ± 4% of the signal was retained when infusing ACPP-MBs in the presence of hirudin, a potent thrombin inhibitor.

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“…For instance, nanoparticles that contain streptokinase and that are targeted to fibrin have been described as yielding the same degree of thrombolysis as a 1000-fold-greater dose of free enzyme (37). Liposomes both with and without encapsulated thrombolytics have been used for clot lysis in applying US energy to rupture the liposomes and disrupt the clot (38,39).…”

Section: Nanotechnologies That May Interest Interventional Radiologistsmentioning

confidence: 99%