6533b855fe1ef96bd12b1bd7
RESEARCH PRODUCT
Experimental studies on the suitability of human mesothelial cells for seeding vascular prostheses: shear stress resistance in vitro
Vehid SalihH. A. RichterCharles James KirkpatrickS. MühlbayerC. L. KleinFernando BittingerM. Grausubject
Pathologymedicine.medical_specialtyMaterials sciencebiologyImmunocytochemistryBiomedical EngineeringBiophysicsBioengineeringVideo microscopyCell sortingIn vitroBiomaterialsFibronectinCytoplasmbiology.proteinBiophysicsmedicineMesothelial CellActindescription
This investigation forms part of a study on the suitability of human omentum mesothelial cells (HOMES) as an alternative to endothelial cells (EC) for seeding vascular grafts. Isolated HOMES were grown in primary culture and characterized by their morphology (light microscopy and scanning electron microscopy (SEM)), as well as by fluorescence-activated cell sorting (FACS) and immunocytochemistry. The latter two methods showed cells which were positive for smooth muscle-type actin and cytokeratin, but negative for factor VIII-related antigen. HOMES were grown to confluence on glass with or without a fibronectin coating. Controlled shear stress was applied for up to 30 min using a plate and cone rheometer at 20 dynes/cm2. These dynamic culture conditions led to loss of only occasional cells. The most marked alterations seen on SEM were some cell elongation, marked raising of the nucleus and loss of luminal cytoplasmic microvilli. Time-lapse video microscopy revealed that shear stress also increased the spreading capacity of some cells. Similar experiments with venous endothelial cells gave a shearing off of a confluent monolayer. This investigation shows the marked shear-stress resistance of HOMES, a pre-requisite for their use to seed vascular prostheses.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1996-09-01 | Journal of Materials Science: Materials in Medicine |