Poly(ɛ)caprolactone scaffolds have been electrospun directly into an auricular shaped conductive mould. Bovine chondrocytes were harvested from articular cartilage and seeded onto 16 of the produced scaffolds, which received either an ethanol (group A) or a plasma treatment (group B) for sterilisation before seeding. The seeded scaffolds were cultured for 3 weeks in vitro and analysed
with regard to total DNA and GAG content as well as the expression of AGG, COL1, COL2, MMP3 and MMP13. Rapid cell proliferation and GAG accumulation
was observed until week 2. However, total DNA and GAG content decreased again in week 3. qPCR data shows a slight increase in the expression of anabolic genes and a slight decrease for the catabolic genes, with a significant
difference between the groups A and B only for COL2 and MMP13.
[1]
Guangdong Zhou,et al.
Engineering ear-shaped cartilage using electrospun fibrous membranes of gelatin/polycaprolactone.
,
2013,
Biomaterials.
[2]
Joseph P Vacanti,et al.
The tissue-engineered auricle: past, present, and future.
,
2012,
Tissue engineering. Part B, Reviews.
[3]
M. Horne,et al.
Review Paper: A Review of the Cellular Response on Electrospun Nanofibers for Tissue Engineering
,
2009,
Journal of biomaterials applications.
[4]
I. Pitanguy,et al.
Tissue engineering and auricular reconstruction: a review.
,
2009,
Journal of plastic, reconstructive & aesthetic surgery : JPRAS.