In Vitro Biocompatibility of a Compliant, Blood Compatible, and Biodegradable Nanofibrous Scaffold for Vascular Tissue Engineering

  • سال انتشار: 1396
  • محل انتشار: کنگره ملی شیمی ونانو شیمی از پژوهش تا توسعه ملی
  • کد COI اختصاصی: MRSS01_191
  • زبان مقاله: انگلیسی
  • تعداد مشاهده: 330
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نویسندگان

Elham Vatankhah

Department of New Technologies, Shahid Beheshti University, Zirab Campus, Mazandaran, Iran

Molamma P Prabhakaran

Department of Mechanical Engineering, Faculty of Engineering, National University of Singapore, Singapore

Seeram Ramakrishna

Department of Mechanical Engineering, Faculty of Engineering, National University of Singapore, Singapore

چکیده

A vascular scaffold must not only support appropriate structural integrity until neotissue can form, but also closely mimic the strength and compliance of native blood vessels. Hemocompatibility is also clearly a crucial factor to raise success of the engineered construct since the vascular scaffold comes in contact with blood. The degradation profile of the scaffold is another important criterion to consider for successful applications in tissue engineering of load-bearing structures like blood vessel tissues. A tissue-engineered vascular graft requires complete scaffold degradation with well-defined cellular organization and tissue remodeling. To cover all these required features, we carried out the blend electrospinning to fabricate nanofibers of poly(L-lactide acid-co-poly ε-caprolactone) (PLCL), a biodegradable and compliant polymer, gelatin (Gel), a biodegradable and commercially available natural biopolymer possessing many integrin binding sites (such as RGD) for cell adhesion, and Tecophilic (TP), a hydrophilic, elastic and hemocompatible polyether-based thermoplastic aliphatic polyurethane, with a weight ratio of 60:20:20 (PGT;60/20/20) resulted in creation of a compliant, hemocompatible and biodegradable scaffold. The nanofibrous structure of the scaffold was visualized using a scanning electron microscope (SEM). The surface characterization of scaffold was carried out using ATR-FTIR spectroscopic analysis. For evaluating the potential of electrospun PGT;60/20/20 scaffold as a substrate for vascular regeneration, we cultured human aortic smooth muscle cells (SMCs) on the scaffold and studied the biocompatibility of the structure by performing the proliferation assay and cell morphology assessment. SEM images demonstrated that electrospun PGT;60/20/20 nanofibers were successfully produced with a fiber diameter of 459±198 nm which revealed a significant reduction compared to fiber diameter of electrospun pure PLCL and pure TP. ATR-FTIR analysis confirms the presence of all components within the fibers. Comparing the behavior of SMCs on PGT;60/20/20 scaffolds with that on electrospun PLCL and TP scaffolds confirmed the potential use of PGT;60/20/20 nanofibers in blood vessel tissue engineering

کلیدواژه ها

vascular tissue engineering, electrospinning, nanofibers, smooth muscle cells

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