Fabricating a pre-vascularized large-sized metabolically-supportive scaffold using Brassica oleracea leaf

Abstract

Background There is a significant pitfall in clinical translation of large-sized tissue-engineered grafts – a lack of vascularization. This study was carried out to find the answer in a plant leaf, as plants and animals share structural similarities. Methods and results We fabricated a scaffold using Brassica oleracea leaves (10%SDS) and expanded the endothelial cells onto them. The vascularity was demarcated by angiography. The thermal decomposition confirmed that the oxidation resistance of the scaffold is parallel to the natural leaf. The acellularity of the scaffold as well as the presence of cellular establishment after culture on the scaffold was confirmed by histology, scanning electron microscopy, periodic acid-Schiff, and DNA quantification. Further, we estimated various biochemical markers like MDA, catalase, total proteins, and total nitric oxide for confirming their metabolic activities. Cell-specific markers like vWF, lectin established their phenotype. Cytotoxicity and live-dead assay showed the viability of cells. Conclusion Our findings proved that the decellularized leaf scaffold preserves vascularity, exhibits non-toxicity, maintains the cell identity, and supports mammalian cells for their metabolic activities. The study gives a futuristic hope in combating the ever-growing issues of clinical applicability of large-sized grafts.