2022
DOI: 10.1177/03913988221125247
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Pullulan as promoting endothelialization capacity of electrospun PCL-PU scaffold

Abstract: Objective: This project’s primary purpose was to create engineered vascular scaffolds using polyurethane, polycaprolactone, and pullulan polymers, along with suitable mechanical-dynamic conditions. Therefore, electrospun scaffolds with optimized intrinsic physiological properties and the ability to support endothelial cells were prepared in vitro, and cell viability was studied in PCL-PU and PCL-PU scaffolds containing Pullulan. The main methods: The electrospinning method has been used to prepare PCL-PU and P… Show more

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Cited by 6 publications
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“…Thus, despite providing various surface features, the benefits that are dependent on the morphology of each polymer fiber are retained. 45 By manipulating protein adsorption mechanisms, the employment of fibers that are hydrophilic and hydrophobic on a scaffold will allow the tailoring of the degree of hydrophilicity, which influences cell fate on the scaffold. 46 Methodologies for creating polymer blends and coatings used to change hydrophilicity were found to have ineffective hydrophilic polymer strength on the surface of a hydrophobic polymercomposite.…”
Section: Co-polymersmentioning
confidence: 99%
“…Thus, despite providing various surface features, the benefits that are dependent on the morphology of each polymer fiber are retained. 45 By manipulating protein adsorption mechanisms, the employment of fibers that are hydrophilic and hydrophobic on a scaffold will allow the tailoring of the degree of hydrophilicity, which influences cell fate on the scaffold. 46 Methodologies for creating polymer blends and coatings used to change hydrophilicity were found to have ineffective hydrophilic polymer strength on the surface of a hydrophobic polymercomposite.…”
Section: Co-polymersmentioning
confidence: 99%