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Differentiation of human mesenchymal stem cells on plasma-treated polyetheretherketone
Authors:Jasmin Waser-Althaus  Achim Salamon  Marcus Waser  Celestino Padeste  Michael Kreutzer  Uwe Pieles  Bert Müller  Kirsten Peters
Affiliation:1. Department of Cell Biology, Rostock University Medical Center, Schillingallee 69, 18057, Rostock, Germany
2. Biomaterials Science Center, University of Basel, 4031, Basel, Switzerland
3. Institute for Chemistry and Bioanalytics, University of Applied Sciences and Arts Northwestern Switzerland, 4132, Muttenz, Switzerland
4. Laboratory for Micro- and Nanotechnology, Paul Scherrer Institut, 5232, Villigen PSI, Switzerland
5. Center for Medical Research (ZEMFO), Rostock University Medical Center, 18057, Rostock, Germany
Abstract:Polyetheretherketone (PEEK) generally exhibits physical and chemical characteristics that prevent osseointegration. To activate the PEEK surface, we applied oxygen and ammonia plasma treatments. These treatments resulted in surface modifications, leading to changes in nanostructure, contact angle, electrochemical properties and protein adhesion in a plasma power and process gas dependent way. To evaluate the effect of the plasma-induced PEEK modifications on stem cell adhesion and differentiation, adipose tissue-derived mesenchymal stem cells (adMSC) were seeded on PEEK specimens. We demonstrated an increased adhesion, proliferation, and osteogenic differentiation of adMSC in contact to plasma-treated PEEK. In dependency on the process gas (oxygen or ammonia) and plasma power (between 10 and 200 W for 5 min), varying degrees of osteogenic differentiation were induced. When adMSC were grown on 10 and 50 W oxygen and ammonia plasma-treated PEEK substrates they exhibited a doubled mineralization degree relative to the original PEEK. Thus plasma treatment of PEEK specimens induced changes in surface chemistry and topography and supported osteogenic differentiation of adMSC in vitro. Therefore plasma treated PEEK holds perspective for contributing to osseointegration of dental and orthopedic load-bearing PEEK implants in vivo.
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