2019
DOI: 10.1016/j.actbio.2019.01.008
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Biomimetic modification of poly(vinyl alcohol): Encouraging endothelialization and preventing thrombosis with antiplatelet monotherapy

Abstract: Poly(vinyl alcohol) (PVA) has shown promise as a biomaterial for cardiovascular application. However, its antifouling properties prevent in vivo endothelialization. This work examined the endothelialization and thrombogenicity of modified PVA with different concentrations of proteins and adhesion peptides: collagen, laminin, fibronectin, GFPGER, YIGSR, and cRGD. Material surface properties were quantified, and the endothelialization potential was determined with human endothelial colony forming cells. Addition… Show more

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Cited by 47 publications
(42 citation statements)
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“…ECFC represent a cell population that can be differentiated from peripheral blood [12,13,25], umbilical cord blood [25][26][27][28], placenta [29][30][31], bone marrow [32], white adipose tissue [33], peripheral lung tissue [34] and induced pluripotent or embryonic stem cells [35], and is characterized by an endothelial immunophenotype (CD31+vWF+KDR+CD146+CD45-), intracellular CD133 expression, acLDL uptake and UEA binding, considerable tube-forming capacity and high proliferation capability [16,25,28]. The combination of endothelial identity with high proliferative and neovascularization potential suggests ECFC as an efficient tool for regenerative medicine applications including pre-endothelialization [36] and pre-vascularization [27,[37][38][39] of tissue-engineered constructs. However, usefulness of ECFC for indicated tasks depends to a large extent on their similarity to resident EC, such as HCAEC, that are particularly important for pre-seeding of small-diameter vascular grafts, or HUVEC which represent the far most frequently utilized endothelial cell line in biomaterial research [17].…”
Section: Discussionmentioning
confidence: 99%
“…ECFC represent a cell population that can be differentiated from peripheral blood [12,13,25], umbilical cord blood [25][26][27][28], placenta [29][30][31], bone marrow [32], white adipose tissue [33], peripheral lung tissue [34] and induced pluripotent or embryonic stem cells [35], and is characterized by an endothelial immunophenotype (CD31+vWF+KDR+CD146+CD45-), intracellular CD133 expression, acLDL uptake and UEA binding, considerable tube-forming capacity and high proliferation capability [16,25,28]. The combination of endothelial identity with high proliferative and neovascularization potential suggests ECFC as an efficient tool for regenerative medicine applications including pre-endothelialization [36] and pre-vascularization [27,[37][38][39] of tissue-engineered constructs. However, usefulness of ECFC for indicated tasks depends to a large extent on their similarity to resident EC, such as HCAEC, that are particularly important for pre-seeding of small-diameter vascular grafts, or HUVEC which represent the far most frequently utilized endothelial cell line in biomaterial research [17].…”
Section: Discussionmentioning
confidence: 99%
“…The luminal surfaces were then modified using a variety of techniques, including biochemical and topographical modifications, and assessed for thrombogenesis and hemocompatibility in the ex vivo shunt whole blood test. Specific modifications included integration of the peptide sequence Gly-Phe-Pro-Gly-Glu-Arg (GFPGER), plasma modification, addition of gelatin with a carbonyldiimidazole (CDI) covalent linker, and sterilization, and their preparation methods are described in greater detail in previous publications [16][17][18][19]. Samples, which were modified by the integration of GFPGER, a peptide subsequence of type I collagen, had GFPGER mixed with the STMP in the PVA manufacturing process [17].…”
Section: Device Manufacturing and Preparationmentioning
confidence: 99%
“…Samples were tested in five different animals. For a small subset of samples [17], acetylsalicylic acid (ASA, Bayer Healthcare) or ASA and clopidogrel (Torrent Pharmaceuticals) was given before experimentation to reduce thrombus formation. Specifically, there were six PVA grafts, three ePTFE grafts, and one collagen-coated ePTFE graft treated with ASA; six PVA grafts, three ePTFE grafts, and one collagen-coated ePTFE grafts were treated with ASA and clopidogrel.…”
Section: Whole Blood Testingmentioning
confidence: 99%
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“…The most promising directions are for the integration of 3D bioelectrodes that utilize some form of cross-linked chitosan to provide the optimal environment for the stabilization of enzymes combined with a protective membrane, such as those formed with PVA as the basis. This type of approach will most likely optimize the design of gel-like polymer membranes to minimize the fibrous encapsulation of implanted enzymatic biofuel cells [41]. Such an approach could include the possibilities of either excluding biofouling with the PVA-based membrane or promoting cell adhesion and hence integration with the body, e.g., by using modified chitosan or polyelectrolyte coatings [42,43].…”
Section: Perspectivesmentioning
confidence: 99%