Highly flexible and rapidly degradable papaverine-loaded electrospun fibrous membranes for preventing vasospasm and repairing vascular tissue

A newly developed highly flexible and rapidly biodegradable papaverine-loaded electrospun fibrous membrane was fabricated to be wrapped around vascular suturing for preventing vasospasm. [Display omitted] Vasospasm is a common post-operative complication after vascular anastomosis. Currently, the ma...

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Bibliographic Details
Published in:Acta biomaterialia 2014-07, Vol.10 (7), p.3018-3028
Main Authors: Zhu, Wankun, Liu, Shenghe, Zhao, Jingwen, Liu, Shen, Jiang, Shichao, Li, Bin, Yang, Huilin, Fan, Cunyi, Cui, Wenguo
Format: Article
Language:English
Subjects:
Animals
Coronary Vasospasm - prevention & control
Electrospun fibers
Membranes, Artificial
Microscopy, Electron, Scanning
Papaverine
Papaverine - administration & dosage
Papaverine - blood
Rabbits
Rapid degradation
Ultrasonography, Doppler, Color
Vascular
Vasospasm
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Summary:A newly developed highly flexible and rapidly biodegradable papaverine-loaded electrospun fibrous membrane was fabricated to be wrapped around vascular suturing for preventing vasospasm. [Display omitted] Vasospasm is a common post-operative complication after vascular anastomosis. Currently, the main treatment is a local injection of antispasmodic drugs. However, this method has a high rate of relapse and is subject to a large degree of individual variation, and repeated injections cause additional pain for patients. In this study, we developed highly flexible and rapidly degradable papaverine-loaded electrospun fibrous membranes to be wrapped around vascular suturing to prevent vasospasm. Poly-l-lactic acid/polyethylene glycol (PLLA/PEG) electrospun fibers containing papaverine maintained a high degree of flexibility and could withstand any folding, and are therefore suitable for wrapping vascular suturing. A rapid release of papaverine, between 2 and 7days, was achieved by adjusting the proportions of PEG and PLLA. PLLA electrospun fibers containing 40% PEG (PLLA-40%) could control drug release and polymer degradation most effectively during the first 2weeks post-operation. Testing using an in vivo rabbit model showed that PLLA-40% fibrous membranes produced significant antispasmodic effect without observable inflammation or hyperplasia, and the fibrous membranes were ideally biodegradable, with no impact on regional blood flow, pressure, vessel diameter or surrounding tissue hyperplasia. Therefore, papaverine-loaded electrospun fibrous membranes show the potential to greatly reduce post-operative vasospasm and maintain regular vascular morphology during antispasmodic therapy.
ISSN:1742-7061
1878-7568
DOI:10.1016/j.actbio.2014.03.023