| Literature DB >> 22481939 |
Martina Schleicher1, Jan Hansmann, Bentsian Elkin, Petra J Kluger, Simone Liebscher, Agnes J T Huber, Olaf Fritze, Christine Schille, Michaela Müller, Katja Schenke-Layland, Martina Seifert, Heike Walles, Hans-Peter Wendel, Ulrich A Stock.
Abstract
In vivo self-endothelialization by endothelial cell adhesion on cardiovascular implants is highly deEntities:
Year: 2012 PMID: 22481939 PMCID: PMC3312249 DOI: 10.1155/2012/397813
Source DB: PubMed Journal: Int J Biomater ISSN: 1687-8787
Figure 1Shear stress dependency on shear rate of 1000 ppm Xanthan gum measured by rotational rheometry.
Figure 2Contact angle measurements by the captive bubble method using PBS. Contact angle was significantly lower for oligonucleotide coated samples compared to diX AM or HEPES treated samples (*, P < 0.05, n = 6).
Figure 3Oligonucleotide coating stability. Polypropylene sheets were coated with diX AM and oligonucleotides were applied to the coated surface. Oligonucleotides were detected by an ELISA system. Samples were exposed to a constant fluid flow inducing at least 9, 5 N/m2 shear stress on the surface for 1 h (n = 6).
Figure 4Stability against degradation by human blood serum of on diX AM-immobilized oligonucleotides. No significant degradation of oligonucleotides could be detected after 96 h incubation in comparison to the samples without serum incubation (P = 0.079, n = 9).
Figure 5Cell adhesion to oligonucleotide-coated diX AM surfaces in FCS containing medium under dynamic conditions. Samples were incubated with 0,05 ∗ 106 cells for 1 h in corresponding medium containing FCS. (a): Scale bar equals 200 μm. (b): Number of adhered cells per mm2 was counted in microscopy images (n = 6). Groups marked with ∗ are significantly different to HEPES and diX AM samples (P < 0.05).
Figure 6Adhesion of HUVECs to oligonucleotide-coated diX AM surfaces in FCS containing-medium under dynamic conditions compared to tissue culture (TC) surfaces. Samples were incubated with 0,05 ∗ 106 cells for 1 h in medium containing FCS. Number of adhered cells per mm2 was counted in microscopy images (n = 9). Group marked with ∗ is significantly different to HEPES, diX AM, and TC surface samples (P < 0.05).
Figure 7Influence of FCS on cell adhesion on oligonucleotide coated diX AM surfaces. (a) Samples were incubated with 0,05 ∗ 106 eEPC cells for 2,5 h under dynamic conditions in medium or buffer without FCS. Cell number was counted in microscopy images (n = 6). ANOVA tests revealed no significant difference between the groups. (b) Samples were preincubated with eEPC Medium containing FCS for 2 h. Afterwards 0,05 ∗ 106 eEPC cells were applied for 2,5 h under dynamic conditions in medium without FCS. Cell number was counted in microscopy images (n = 6). Groups marked with ∗ are significantly different to HEPES and diX AM samples (P < 0.05).
Figure 8Incubation of eEPC cells on diX AM surfaces with different amounts of oligonucleotides. Amount of oligonucleotides did not significantly influence cell adhesion (F(7,16) = 1.598; P = 0,207). Groups marked with ∗ are significantly different to all oligonucleotide coated samples (P < 0.05, n = 3).
Figure 9Staining for Vinculin, CD49e and F-Actin of HUVECs after 1 h hour incubation in FCS containing medium under dynamic conditions. Samples were incubated with 0,05 ∗ 106 cells in medium containing FCS. Nonadherent cells were removed before staining. Scale bar equals 50 μm. Nuclei are stained with DAPI (blue).
Figure 10Viability of HUVECs on standard blood vessel graft materials (ePTFE and ePTFE coated with heparin) and on ePTFE coated with diX AM and oligonucleotides over a period of 14 days. Metabolic activity of cells was significantly higher for each time point on oligonucleotide-coated ePTFE compared to ePTFE or ePTFE with heparin (P < 0.05).
Figure 11Hemocompatibility testing of oligonucleotide coated diX AM surfaces. Samples were incubated with human whole blood for 1 h at 37°C under continuous shaking. Cell number and different factors, which give information about the activation of thrombocytes (β-TG), granulocytes (PMN-Elastase) and the coagulation system (TAT) were measured in the supernatant. ANOVA tests revealed no significant difference between the groups (P > 0.05, n = 6).