Your search keyword '"Aigner, Joachim"' showing total 6 results

1. Direct Magnetic Tubular Cell Seeding: A Novel Approach for Vascular Tissue Engineering.

Author

Perea, Héctor, Aigner, Joachim, Hopfner, Ursula, and Wintermantel, Erich

Subjects

*SOWING, *TISSUE engineering, *MAGNETIC fields, *METAL scaffolding, *MUSCLE cells, *HISTOLOGY, *SMOOTH muscle

Abstract

Optimizing seeding efficiency, reducing delayed culture periods and mimicking native tissue architecture are crucial requirements for the development of seeding procedures in tissue engineering. In vascular applications, the tubular geometry of the grafts further hampers the efficient delivery of cells onto the scaffold. To overcome these limitations, a novel technology based upon the use of magnetic fields is presented in this study: a radial magnetic force drives the cells immediately onto the luminal surface of a tubular scaffold and immobilizes the cells on the substrate’s surface promoting cell attachment. Human smooth muscle cells (SMCs) labeled with CD44 magnetic Dynabeads® were successively seeded onto the luminal surface of a tubular shaped collagen membrane. After 5 h, one additional layer of human umbilical vein endothelial cells (HUVECs) labeled with CD31 magnetic Dynabeads® was seeded onto the luminal SMCs. The co-culture was incubated during 5 days prior to analysis. Cell viability and expression profiles were preserved during the entire seeding process. Histological examination of the constructs highlighted densely packed multilayers of SMCs covered by a monolayer of endothelial cells. SEM inspection confirmed a heterotypic multilayer assembly formed by multiple layers of elongated SMCs covered by a single layer of endothelial cells. Seeding kinetics of HUVECs and SMCs showed over 90% seeding efficiency after 20 and 40 min magnetic exposure respectively. Magnetically induced cell seeding provides a valuable tool for rapid seeding procedures of tubular scaffolds while complying with the histological architecture of tissue. Copyright © 2006 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2006

2. The characterisation of human respiratory epithelial cells cultured on resorbable scaffolds: first steps towards a tissue engineered tracheal replacement

Author

Ziegelaar, Brian W., Aigner, Joachim, Staudenmaier, Rainer, Lempart, Kathrin, Mack, Brigitte, Happ, Theda, Sittinger, Michael, Endres, Michaela, Naumann, Andreas, Kastenbauer, Ernst, and Rotter, Nicole

Subjects

*EPITHELIAL cells, *LECTINS

Abstract

In this study we have used lectin histochemistry and scanning electron microscopy (SEM) to assess the growth and characterise the differentiation of human respiratory epithelial cells (REC) cultured on two biomaterial scaffolds. The first scaffold, based on a hyaluronic acid derivative, was observed to be non-adhesive for REC. This lack of adhesion was found to be unrelated to the presence of the hyaluronic acid binding domain on the surface of isolated REC. The other scaffold, consisting of equine collagen, was observed to encourage REC spreading and adhesion. Positive Ulex Europaeus agglutinin (UEA) lectin staining of this preparation indicated the presence of ciliated REC on the scaffold surface. However, the marked decrease in peanut agglutinin (PNA) positive staining, relative to that of control cultures and native tissue, indicates a dedifferentiation of the secretory cells of the REC monolayer. SEM analysis of REC cultured on the collagen scaffold confirmed the presence of ciliated cells thereby validating the UEA positive staining. The presence of both established and developing cilia was also verified. This study indicates that collagen biomaterials are appropriate for the tissue engineering of REC. Furthermore, that UEA and PNA staining is a useful tool in the characterisation of cells cultured on biomaterials, therefore helpful in identifying biomaterials that are suitable for specific tissue engineering purposes. [Copyright &y& Elsevier]

Published

2002

3. Culture of embryonic renal collecting duct epithelia in a gradient container.

Author

Minuth, Will W., Aigner, Joachim, Kloth, Sabine, Steiner, Pat, Tauc, Michel, and Jennings, Michael L.

Subjects

*PANCREATIC duct, *EPITHELIUM, *ALDOSTERONE

Abstract

During organogenesis the ampullar epithelium of the renal collecting duct acts as an inducer which generates all of the nephron anlagen. As development proceeds, one part of the collecting duct cells in the ampullar tip retain their inducer capability, while others develop into the functional epithelium consisting of principal and intercalated (IC) cells. The events leading from the embryonic inducer to the mature tissue are unknown. We investigated the maturation of embryonic collecting duct epithelium derived from neonatal rabbit kidney under in vitro conditions. To prevent dedifferentiation the epithelia were cultured on kidney-specific support material within a tissue carrier. Apical and basal compartments of the epithelia were simulated in a gradient culture container. The two sides of the epithelium were each constantly perfused with a different medium. During the 14-day incubation the tissue was not subcultured. The development of collecting duct cell features was investigated with morphological and immunohistochemical methods. Both light and electron microscopy revealed morphologically intact epithelia following gradient culture. The polarized cells rested on a uniformly developed basement membrane. The continuous application of aldosterone during the culture modulated the development of collecting duct cell characteristics. Both basal and luminal administration of aldosterone initiated differentiation in the embryonic epithelia. Using the sodium (Na) channel blocker amiloride, it was demonstrated that Na channels are involved in the differentiation of the IC cell phenotype. [ABSTRACT FROM AUTHOR]

Published

1997

4. Alginate as a chondrocyte-delivery substance in combination with a non-woven scaffold for cartilage tissue engineering

Author

Marijnissen, Willem J.C.M., van Osch, Gerjo J.V.M., Aigner, Joachim, van der Veen, Simone W., Hollander, Anthony P., Verwoerd-Verhoef, Henriëtte L., and Verhaar, Jan A.N.

Subjects

*ALGINATES, *CARTILAGE cells

Abstract

For tissue engineering of cartilage, chondrocytes can be seeded in a scaffold and stimulated to produce a cartilage-like matrix. In the present study, we investigated the effect of alginate as a chondrocyte-delivery substance for the construction of cartilage grafts. E210 (a non-woven fleece of polyglactin) was used as a scaffold.When ‘bare’ E210 (without alginate and without chondrocytes) was implanted subcutaneously in nude mice for 8 weeks, the explanted tissue consisted of fat and fibrous tissue only. When E210 with alginate but without chondrocytes was implanted in nude mice, small areas of newly formed cartilage were found. Alginate seems to stimulate chondrogenesis of ingrowing cells. When chondrocytes were seeded in E210, large amounts of cartilage were found, independent of the use of alginate. This was expressed by a high concentration of glycosaminoglycans (30 μg/mg w.w.) and the presence of collagen type II (1.5 μg/mg w.w.). Macroscopically the grafts of E210 without alginate were shrunk and warped, whereas the grafts with alginate had kept their original shape during the 8 weeks of implantation. The use of alginate did not lead to inflammatory reactions nor increased capsule formation.In conclusion, the use of alginate to seed chondrocytes in E210 does not influence the amount of cartilage matrix proteins produced per tissue wet weight. However, it provides retention of the graft shape. [Copyright &y& Elsevier]

Published

2002

5. The influence of the stable expression of BMP2 in fibrin clots on the remodelling and repair of osteochondral defects

Author

Vogt, Stephan, Wexel, Gabriele, Tischer, Thomas, Schillinger, Ulrike, Ueblacker, Peter, Wagner, Bettina, Hensler, Daniel, Wilisch, Jonas, Geis, Christopher, Wübbenhorst, Daniela, Aigner, Joachim, Gerg, Michael, Krüger, Achim, Salzmann, Gian M., Martinek, Vladimir, Anton, Martina, Plank, Christian, Imhoff, Andreas B., and Gansbacher, Bernd

Subjects

*BONE morphogenetic proteins, *GENE expression, *GROWTH factors, *OSTEOCHONDROSIS treatment, *LABORATORY rabbits, *ENZYME-linked immunosorbent assay, *IMMUNOHISTOCHEMISTRY

Abstract

Abstract: Growth factors like BMP2 have been tested for osteochondral repair, but transfer methods used until now were insufficient. Therefore, the aim of this study was to analyse if stable BMP2 expression after retroviral vector (Bullet) transduction is able to regenerate osteochondral defects in rabbits. Fibrin clots colonized by control or BMP2-transduced chondrocytes were generated for in vitro experiments and implantation into standardized corresponding osteochondral defects (n =32) in the rabbit trochlea. After 4 and 12 weeks repair tissue was analysed by histology (HE, alcian-blue, toluidine-blue), immunohistochemistry (Col1, Col2, aggrecan, aggrecan-link protein), ELISA (BMP2), and quantitative RT-PCR (BMP2, Col1, Col2, Col10, Cbfa1, Sox9). In vitro clots were also analysed by BMP2-ELISA, histology (alcian-blue), quantitative RT-PCR and in addition by electron microscopy. BMP2 increased Col2 expression, proteoglycan production and cell size in vitro. BMP2 transduction by Bullet was efficient and gene expression was stable in vivo over at least 12 weeks. Proteoglycan content and ICRS-score of repair tissue were improved by BMP2 after 4 and 12 weeks and Col2 expression after 4 weeks compared to controls. However, in spite of stable BMP2 expression, a complete repair of osteochondral defects could not be demonstrated. Therefore, BMP2 is not suitable to regenerate osteochondral lesions completely. [Copyright &y& Elsevier]

Published

2009

6. Ceramic TiO2-foams: characterisation of a potential scaffold

Author

Haugen, Håvard, Will, Julia, Köhler, Anne, Hopfner, Ursula, Aigner, Joachim, and Wintermantel, Erich

Subjects

*POROSITY, *FOAM, *PERMEABILITY, *CELL culture, *CERAMICS

Abstract

The Schwartzwalder process was chosen for the production of ceramic TiO2 scaffolds and showed a fully open structure with a permeability for water of 39%. The window sizes were 445 μm (45 ppi foams) and 380 μm for the 60 ppi foams. The porosity of all foams was above 78% (n=8). It was shown that scaffolds can be produced with defined pore sizes, shape and architecture, which is a requirement for scaffold production. The macro- and microarchitecture was reproducible. Hence a reproducible ceramic scaffold processing method has been established. The interconnectivity of the pores in the scaffold was tested with a novel method. For the tests a new device was constructed where the permeability was linked to the degree of interconnectivity. Results from the permeability measurements in the mercury intrusion meter and permeability tester show that increasing pore size increases the rate of permeability. The tortuosity, which was measured in the mercury intrusion meter, was several factors higher for 60 ppi foams compared to 45 ppi and therefore also understates the lower permeability. An initial cell culture test showed that fibroblasts adhere on the foam''s surface. [Copyright &y& Elsevier]

Published

2004