Daniel Merker scite author profile

Osteoporosis causes bones to become weak and brittle. It is known that the alterations in bone metabolism associated to osteoporosis can impair bone healing around implants and affect their osseointegration. The main objective of this study was the development of new nanostructured implant materials based on ultrananocrystalline diamond (UNCD) coatings for enhancing osseointegration. The films were deposited on Ti substrates by microwave plasma CVD from 17% CH /N gas mixtures and modified by O or NH /N plasmas. The modifications rendered the H-terminated hydrophobic as-grown films hydrophilic. The interaction of endothelial (EA.hy926) and osteosarcoma (MG63) cells with differently modified UNCD surfaces was investigated by proteome analyses. It revealed the identification of over 19 000 proteins (extracellular and cytosolic). They correspond to 508 (Ti), 634 (UNCD), 651 (O-UNCD), and 668 (NH -UNCD) protein groups. The interaction network analysis showed differences in the connectivity of inferred protein networks between the ECM niches, which suggests the presence of specific cell microenvironments on O-and NH -terminated UNCD surfaces. Our results show that due to a favorable combination of surface chemical and topological properties the UNCD films, as-grown and especially after their plasma modifications, may serve as superior scaffolding for promoting the cell attachment and growth during osseointegration. ‡ § § ‡ 4 2 2 3 2 2 2

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Nanostructured modified ultrananocrystalline diamond surfaces as immobilization support for lipases

Merker

Kesper

Kailing

et al. 2018

Diamond and Related Materials

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Daniel Merker

Plasma surface fluorination of ultrananocrystalline diamond films

Antimicrobial propensity of ultrananocrystalline diamond films with embedded silver nanodroplets

Influence of surface termination of ultrananocrystalline diamond films coated on titanium on response of human osteoblast cells: A proteome study

Ultrananocrystalline diamond coated implants for enhanced osseointegration

Nanostructured modified ultrananocrystalline diamond surfaces as immobilization support for lipases

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