Fabrication of aortic bioprosthesis by decellularization, fibrin glue coating and re‑ endothelization: a cell scaffold approach

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Walawalkar Sonal; Almelkar Shahdab

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Journal Paper

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Journal: PROGRESS IN BIOMATERIALS Year:2019 | Volume:3 | Issue:8 Page(s): 197-210

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Information Journal Paper

Title

Fabrication of aortic bioprosthesis by decellularization, fibrin glue coating and re‑ endothelization: a cell scaffold approach

Author(s)

Walawalkar Sonal | Almelkar Shahdab | Issue Writer Certificate

Keywords

Aortic aneurysm ·

Scaffold ·

Re-endothelization ·

vWF ·

SEM ·

Fibrin glue

Abstract

Aortic dysfunctions (aneurysm, aortitis) lead to the most serious conditions related to aortic wall with life-threatening complications. The most common modality of management for such conditions is replacement (diseased part) of aorta by a larger diameter stent (reconstructive vascular surgery) which in itself is a big trial. The most natural way is to use a reendothelized scaffold. Developing a scaffold with biomimetic properties is an experimental aim for most of the scientists and surgeons. We aim to structure a strategy to overcome the well-known problems associated with aorta. In this study, we plan to remold a larger diameter blood vessel such as aorta from xenogeneic origin using different protocols to decellularize and comparing them with normal aorta. The chemicals and enzymes used for bovine aorta decellularization are 1% SDS (group II), 70% ethanol + 0. 25% trypsin (group III), 70% ethanol (group IV), and 0. 25% trypsin (group V). Group I served as control (without decellularization). Histology and SEM study were conducted for cellular presence/absence in all scaffolds. Later, the scaffolds were coated with the Fibrin glue (FG) and endothelial cells were proliferated over them. 3D images were taken showing the remolding of the endothelial cells on FG-coated surfaces. The re-endothelization was confirmed by lectin and vWF+/+ expression. Graft elasticity and burst pressure were confirmed by biomechanical tensile testing. Further, the absence of host tissue DNA and presence of cellular DNA after re-endothelialization were confirmed by PicoGreen assay. The acceptability for metabolically active cellular proliferation on scaffolds and its non-toxicity were proved by cell viability assay. Current findings accomplish that larger diameter aorta extracellular matrix scaffold (group II) can be fabricated and re-endothelialized to develop non-thrombotic surfaces with improved graft patency with promising results compared to other fabricated scaffold groups.

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References

Reservoir pressure analysis of aortic blood pressure: an in vivo study at five locations in humans

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APA: Copy

Walawalkar, Sonal, & Almelkar, Shahdab. (2019). Fabrication of aortic bioprosthesis by decellularization, fibrin glue coating and re‑ endothelization: a cell scaffold approach. PROGRESS IN BIOMATERIALS, 8(3), 197-210. SID. https://sid.ir/paper/336559/en

Vancouver: Copy

Walawalkar Sonal, Almelkar Shahdab. Fabrication of aortic bioprosthesis by decellularization, fibrin glue coating and re‑ endothelization: a cell scaffold approach. PROGRESS IN BIOMATERIALS[Internet]. 2019;8(3):197-210. Available from: https://sid.ir/paper/336559/en

IEEE: Copy

Sonal Walawalkar, and Shahdab Almelkar, “Fabrication of aortic bioprosthesis by decellularization, fibrin glue coating and re‑ endothelization: a cell scaffold approach,” PROGRESS IN BIOMATERIALS, vol. 8, no. 3, pp. 197–210, 2019, [Online]. Available: https://sid.ir/paper/336559/en

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