Your search keyword '"Sen-Richter, A"' showing total 5 results

1. Fibroblast growth on patterned polymeric coatings

Author

Günter Reuter, Thomas Lenarz, Henning Menzel, Susanne Genzel, Gerrit Paasche, Aromita Sen-Richter, and Uta Reich

Subjects

Materials science, Nanotechnology, 02 engineering and technology, engineering.material, 03 medical and health sciences, 0302 clinical medicine, Coating, Materials Chemistry, medicine, Electrical and Electronic Engineering, Fibroblast, chemistry.chemical_classification, Cell growth, Surfaces and Interfaces, Polymer, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Grafting, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Surface coating, medicine.anatomical_structure, chemistry, Electrode, Biophysics, engineering, 0210 nano-technology, Layer (electronics), 030217 neurology & neurosurgery

Abstract

Cochlear implantation enables many patients to hear again after severe to profound sensorineural hearing loss. Despite great success there is huge variability in outcome between patients. One of the reasons for this might be the interface between stimulating electrode and surrounding tissue. Fibrous tissue is formed around the electrode array after implantation and causes an increase in electrical impedance. Currently there are several approaches under investigation to address this issue. Amongst them are surface coatings but also surface patterning. The aim of the current study was therefore to investigate a number of polymeric coatings for their ability to reduce fibroblast growth and to investigate the influence of patterned surface coating on cell growth in vitro. Polymers were attached to the surface by the grafting onto method using a photoreactive anchor layer. Patterns (parallel polymer lines of different dimensions) were generated by selectively cross-linking the polymer to the anchor molecules on the surface followed by removal of any excess polymer. EGFP producing fibroblasts were seeded on the surface and their growth was documented every day until complete coverage was achieved. A reduction in cell growth was observed for poly(ethyloxazoline) (PEtOx) and poly(dimethylacryl-amide) (PDMAA) with only PDMAA resulting in coverage with cells of less than 25% indicating nearly complete growth inhibition when seeded on areas completely covered by polymer. Polymer lines of 5 μm width separated by 50 μm did not show a large influence on cell growth whereas lines of 12, 24, or 48 μm width separated by 50 μm had an influence on cell growth especially for PDMAA and PEtOx. This influence was most apparent on days 2 and 3 after seeding and vanished between days 4 and 7 depending on polymer and pattern. It was possible to suppress fibroblast growth on the surface by using polymeric coatings but a partial coating in the dimension used in the current study affected cell growth only for up to 1 week and would not be sufficient to reduce fibroblast growth permanently after implantation.

Published

2015

2. Wachstumsverhalten von Fibroblasten auf strukturiert beschichteten Materialien

Author

Paasche, Gerrit, Genzel, Susanne, Sen-Richter, Aromita, Reich, Uta, Menzel, Henning, Lenarz, Thomas, and Reuter, Günter

Subjects

ddc: 610, 610 Medical sciences, Medicine

Abstract

Die Erhöhung der elektrischen Impedanzen an den Elektrodenkontakten nach Cochlea Implantation wird mit dem Wachstum von Bindegewebe erklärt. Das Wachstum von Zellen auf Oberflächen wird durch Oberflächeneigenschaften und die Art der Wechselwirkung von Zellen mit diesen bestimmt. [zum vollständigen Text gelangen Sie über die oben angegebene URL], 87. Jahresversammlung der Deutschen Gesellschaft für Hals-Nasen-Ohren-Heilkunde, Kopf- und Hals-Chirurgie

Published

2016

3. Wachstumsverhalten von Fibroblasten auf strukturiert beschichteten Materialien

Author

Paasche, G, Genzel, S, Sen-Richter, A, Reich, U, Menzel, H, Lenarz, T, Reuter, G, Paasche, G, Genzel, S, Sen-Richter, A, Reich, U, Menzel, H, Lenarz, T, and Reuter, G

Published

2016

4. Fibroblast growth on patterned polymeric coatings

Author

Genzel, Susanne, primary, Sen‐Richter, Aromita, additional, Reich, Uta, additional, Menzel, Henning, additional, Reuter, Günter, additional, Lenarz, Thomas, additional, and Paasche, Gerrit, additional

Published

2015

5. Fibroblast growth on patterned polymeric coatings.

Author

Genzel, Susanne, Sen‐Richter, Aromita, Reich, Uta, Menzel, Henning, Reuter, Günter, Lenarz, Thomas, and Paasche, Gerrit

Subjects

*PHOTOPOLYMERS, *COCHLEAR implants, *POLYMERIC composites, *FIBROBLAST growth factors, *GROWTH factors

Abstract

Cochlear implantation enables many patients to hear again after severe to profound sensorineural hearing loss. Despite great success there is huge variability in outcome between patients. One of the reasons for this might be the interface between stimulating electrode and surrounding tissue. Fibrous tissue is formed around the electrode array after implantation and causes an increase in electrical impedance. Currently there are several approaches under investigation to address this issue. Amongst them are surface coatings but also surface patterning. The aim of the current study was therefore to investigate a number of polymeric coatings for their ability to reduce fibroblast growth and to investigate the influence of patterned surface coating on cell growth in vitro. Polymers were attached to the surface by the grafting onto method using a photoreactive anchor layer. Patterns (parallel polymer lines of different dimensions) were generated by selectively cross-linking the polymer to the anchor molecules on the surface followed by removal of any excess polymer. EGFP producing fibroblasts were seeded on the surface and their growth was documented every day until complete coverage was achieved. A reduction in cell growth was observed for poly(ethyloxazoline) (PEtOx) and poly(dimethylacryl-amide) (PDMAA) with only PDMAA resulting in coverage with cells of less than 25% indicating nearly complete growth inhibition when seeded on areas completely covered by polymer. Polymer lines of 5 μm width separated by 50 μm did not show a large influence on cell growth whereas lines of 12, 24, or 48 μm width separated by 50 μm had an influence on cell growth especially for PDMAA and PEtOx. This influence was most apparent on days 2 and 3 after seeding and vanished between days 4 and 7 depending on polymer and pattern. It was possible to suppress fibroblast growth on the surface by using polymeric coatings but a partial coating in the dimension used in the current study affected cell growth only for up to 1 week and would not be sufficient to reduce fibroblast growth permanently after implantation. [ABSTRACT FROM AUTHOR]

Published

2016