Claudia Nischan scite author profile

In this study, absorbable polymer stent coatings for localized drug delivery based on poly(L-lactide) (PLLA) and cyclosporine A (CsA) were developed and tested in vitro. Metallic stents were coated with different compositions of PLLA/CsA (70/30, 60/40, 50/50% w/w) and beta-sterilized. The specimens were used to assess the drug release kinetics with HPLC. Sterilization influenced polymer degradation was measured with GPC. Mechanical integrity of the stent coatings was studied with SEM. The interconnection of the coated stents with a balloon-catheter was characterized by the measurement of stent dislodgment force. A migration assay was used to determine the inhibitory effect of the model drug CsA on smooth muscle cell (SMC) migration. The release of CsA was established over time periods up to 24 days in sodium chloride solution and in porcine blood plasma. An inhibition of SMC migration (max. 26-33%) was found for CsA concentrations of 4 x 10(-5) to 4 x 10(-7) mol/l. Marked molecular weight reduction (70-80%) of the PLLA matrix occurred after beta-sterilization. We also observed a substantial decrease of in vitro degradation time. The maintenance of the mechanical integrity of the polymer coating during crimping and dilation of the specimens could be verified, and a sufficient stent dislodgment force of 0.8-0.9 N was measured.

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Diamond-like carbon: alteration of the biological acceptance due to Ca–O incorporation

Dorner-Reisel

Schürer

Nischan

et al. 2002

Thin Solid Films

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Kalzium-Sauerstoff-Modifizierte Amorphe Und Nano-Kristalline Kohlenstoffschichten Als Biomaterial

Dorner-Reisel

Schürer²,

Nischan³

et al. 2002

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Undoped and Ca-O-modified diamond-like carbon coatings were deposited by a direct current discharge. Hardness and Young's modulus of Ca-O-modified DLCs were reduced in comparison with the undoped DLC, but the adherence of the Ca-O-modified films is improved. Ca-O-modified DLCs have a higher fraction of nano-crystalline regions with carbon in sp2 hybridisation. In addition, an increased oxygen content and CaCO3 was identified in Ca-O-modified DLCs. While mouse fibroblasts of the type L929 attach and grow on unmodified diamond-like carbon coatings synthesized by the decomposition of hydrocarbon, the addition of CaO-H2O into the precursor gas improves the coatings biological acceptance by the cells.

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Claudia Nischan

In vitro and in vivo degradation studies for development of a biodegradable patch based on poly(3-hydroxybutyrate)

In vitro and in vivo studies on blends of isotactic and atactic poly (3-hydroxybutyrate) for development of a dura substitute material

In vitro study of drug-eluting stent coatings based on poly(l-lactide) incorporating cyclosporine A – drug release, polymer degradation and mechanical integrity

Diamond-like carbon: alteration of the biological acceptance due to Ca–O incorporation

Kalzium-Sauerstoff-Modifizierte Amorphe Und Nano-Kristalline Kohlenstoffschichten Als Biomaterial

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