Arterial vascular cells have been successfully utilized for tissue engineering in human cardiovascular structures, such as heart valves. The present study evaluates saphenous vein-derived myofibroblasts as an alternative, easy-to-access cell source for human cardiovascular tissue engineering. Biodegradable polyurethane scaffolds were seeded with human vascular myofibroblasts. Group A consisted of scaffolds seeded with cells from ascending aortic tissue; in group B, saphenous vein-derived cells were used. Analysis included histology, electron microscopy, mechanical testing, and biochemical assays for cell proliferation (DNA) and extracellular matrix (collagen). DNA content was comparable in both groups. Collagen and stress at maximum load was significantly higher in group B. Morphology showed viable, layered cellular tissue in all samples, with collagen fibrils most pronounced in group B. In conclusion, saphenous vein myofibroblasts cultured on biodegradable scaffolds showed excellent in vitro tissue generation. Collagen formation and mechanical properties were superior to aortic tissue derived constructs. Therefore, the easy-to-access vein cells represent a promising alternative cell source for cardiovascular tissue engineering.
Optimized in vitro formation of strong tissue is a prerequisite for tissue engineering of cardiovascular structures, such as heart valves and blood vessels. This study evaluates different growth media additives as to cell proliferation, extracellular matrix formation, and mechanical characteristics. Biodegradable polymers were seeded with human vascular myofibroblasts. Group A was cultured with standard medium, groups B, C, and D were in addition supplemented with ascorbate, fibroblast growth factor (bFGF), and both respectively. Analysis included histology, electron microsocopy, mechanical testing, and biochemical assays for cell proliferation (DNA) and extracellular matrix (collagen). DNA content increased in all groups, showing significantly more cells in group C and D after 14d. Collagen increased in all groups, except for C. Morphology showed viable, layered cellular tissue, with collagen fibrils after 2w, most pronounced in B and D. Mechanical properties decreased initially, stabilizing after 2w. In conclusion, standard nutrient media were efficient for seeded human vascular cells cultured on biodegradable meshes. Supplementation with bFGF+ascorbate resulted in enhanced early cell proliferation and structurally more mature tissue formation.
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