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1.
J Mater Sci Mater Med ; 26(3): 131, 2015 Mar.
Article in English | MEDLINE | ID: mdl-25698342

ABSTRACT

Implantation of biomaterials can cause complications often associated with inflammatory reactions. However, repeated evaluation of the implant site would be burdening for patients. Alternatively, blood examinations with analysis of inflammatory serum markers could potentially be useful to reflect the local cellular response for detection and/or prediction of inflammation-related complications. Therefore, following intramuscular implantation of surface-modified Ti implants in rats, this study aimed at examining possible associations between the post-implantation time course of pro-inflammatory (INFγ, IL-2) and anti-inflammatory (IL-4, IL-10) cytokine serum concentrations and the local peri-implant tissue response after 56 days (pro-inflammatory CD68-positive monocytes/macrophages, anti-inflammatory CD163-positive macrophages, MHC class II-positive cells, activated natural killer cells and mast cells). Multivariate correlation analysis revealed a significant interaction between serum IFNγ and peri-implant tissue CD68-positive monocytes/macrophages (p = 0.001) while no interactions were found for other cytokines and cell types. Additional Pearson correlation analysis of IFNγ serum concentrations on each experimental day vs. the CD68-positive monocytes/macrophages response on day 56 demonstrated a consistently positive correlation that was strongest during the first three weeks. Thus, high early pro-inflammatory IFNγ serum concentration was associated with high late number of pro-inflammatory CD68-positive monocyte/macrophages and low early serum IFNγ with low late CD68-positive monocyte/macrophage numbers. Further studies aimed at examination of patient samples could establish the relevance of this association to predict clinical complications. After implantation of titanium samples, high early IFNγ serum concentrations were associated with a pronounced late pro-inflammatory CD68-positive monocyte/ macrophage (red circle) response, while no correlation was found for other investigated cytokines and inflammatory cells (green circle). In contrast, low early IFNγ serum concentrations were correlated with low late monocyte/ macrophage numbers.


Subject(s)
Drug Implants , Interferon-gamma/administration & dosage , Macrophages/immunology , Animals , Rats
2.
PLoS One ; 7(8): e42539, 2012.
Article in English | MEDLINE | ID: mdl-22880025

ABSTRACT

INTRODUCTION: The medical use of non-thermal physical plasmas is intensively investigated for sterilization and surface modification of biomedical materials. A further promising application is the removal or etching of organic substances, e.g., biofilms, from surfaces, because remnants of biofilms after conventional cleaning procedures are capable to entertain inflammatory processes in the adjacent tissues. In general, contamination of surfaces by micro-organisms is a major source of problems in health care. Especially biofilms are the most common type of microbial growth in the human body and therefore, the complete removal of pathogens is mandatory for the prevention of inflammatory infiltrate. Physical plasmas offer a huge potential to inactivate micro-organisms and to remove organic materials through plasma-generated highly reactive agents. METHOD: In this study a Candida albicans biofilm, formed on polystyrene (PS) wafers, as a prototypic biofilm was used to verify the etching capability of the atmospheric pressure plasma jet operating with two different process gases (argon and argon/oxygen mixture). The capability of plasma-assisted biofilm removal was assessed by microscopic imaging. RESULTS: The Candida albicans biofilm, with a thickness of 10 to 20 µm, was removed within 300 s plasma treatment when oxygen was added to the argon gas discharge, whereas argon plasma alone was practically not sufficient in biofilm removal. The impact of plasma etching on biofilms is localized due to the limited presence of reactive plasma species validated by optical emission spectroscopy.


Subject(s)
Atmospheric Pressure , Biofilms/drug effects , Candida albicans/physiology , Plasma Gases/pharmacology , Argon/chemistry , Benzophenones , Biofilms/growth & development , Candida albicans/drug effects , Humans , Ketones/chemistry , Oxygen/chemistry , Polyethylene Glycols/chemistry , Polymers , Time Factors
3.
J Clin Periodontol ; 39(4): 400-7, 2012 Apr.
Article in English | MEDLINE | ID: mdl-22324415

ABSTRACT

OBJECTIVES: Treatment regimens, which predictably support re-osseointegration of implants with peri-implantitis, are needed. Increased wettability may be an important factor for re-osseointegration. In this study, a cold atmospheric pressure gas-discharge plasma was applied to reduce water contact angles on titanium discs with different surface topography and to improve the spreading of osteoblastic cells. MATERIAL AND METHODS: An argon plasma jet with different oxygen admixtures was used to treat titanium discs with different topologies, i.e. machined, SLA(®) , SLActive(®) , diamond bur-treated or Airflow(®) -treated. Water contact angles were measured before and after plasma treatment. The spreading behaviour of human osteoblastic cells was investigated. RESULTS: Contact angle of titanium discs (baseline values: 68°-117°) were significantly reduced close to 0° irrespective of surface topography after the application of argon plasma with 1.0% oxygen admixture for 60 s or 120 s. The cell size of osteoblastic cells grown on argon-oxygen-plasma-treated titanium discs was significantly larger than on non-treated surfaces (p < 0.001) irrespective of surface topography. CONCLUSIONS: Plasma treatment reduced contact angle and supported spreading of osteoblastic cells. The application of cold plasma may be supportive in the treatment of peri-implant lesions and may improve the process of re-osseointegration.


Subject(s)
Osteoblasts/physiology , Plasma Gases , Titanium , Wettability , Argon , Cell Adhesion , Cell Line, Tumor , Cell Proliferation , Cell Shape , Cell Size , Dental Etching , Humans , Linear Models , Osteoblasts/cytology , Osteoblasts/metabolism , Oxygen , Plasma Gases/chemistry
4.
Biomol Eng ; 24(5): 447-54, 2007 Nov.
Article in English | MEDLINE | ID: mdl-17825608

ABSTRACT

Adhesion and spreading of cells on biomaterials are integrin-mediated processes. But recent findings indicate a key role of the cell membrane associated matrix substance hyaluronan (HA) in interface interactions. Because HA is a negatively charged molecule we assume that a biomaterial surface with an opposed charge could boost the first contact of the cell to the surface. Polished cp titanium (R(a)=0.19 microm) was coated with an amino-group containing plasma polymer (Ti PPA). For this purpose, a microwave excited, pulsed, low-pressure plasma was used. Additionally, collagen was immobilized on Ti PPA with polyethylene glycol diacid (PEG-DA), catalyzed by carbodiimide (CDI). The physico-chemical surface analytical techniques like XPS, FT-IR, water contact angle and zeta-potential verified the retention of the allylamine precursor structure. Human osteoblasts were cultured in serum-free Dulbecco's modified Eagle medium (DMEM). Adhesion and cell cycle phases were calculated by flow cytometry. Spreading and actin cytoskeleton were visualized by confocal microscopy. Gene expression of osteogenic markers was detected by real-time RT-PCR. Ti PPA is significantly advantageous concerning initial adhesion and spreading during the first hours of the cell contact to the surface. The proliferation of osteoblasts is positively influenced. Gene expression of the differentiation marker bone sialoprotein was upregulated after 24h. Our results demonstrate that functionalization of titanium with positively charged amino-groups is sufficiently enough to significantly improve initial steps of the cellular contact to the material surface.


Subject(s)
Allylamine/chemistry , Osteoblasts/physiology , Polymers/chemistry , Titanium/chemistry , Actins/chemistry , Alkaline Phosphatase/genetics , Carbodiimides/chemistry , Catalysis , Cell Adhesion/physiology , Cell Cycle , Collagen Type I/chemistry , Collagen Type I/genetics , Collagen Type I/radiation effects , Cytoskeleton/chemistry , Flow Cytometry , Gene Expression Profiling , Humans , Microwaves , Polyethylene Glycols/chemistry , Polyethylene Glycols/radiation effects , Polymers/radiation effects , Procollagen/chemistry , Procollagen/genetics , Procollagen/radiation effects , Reverse Transcriptase Polymerase Chain Reaction , Surface Properties , Titanium/radiation effects , Tumor Cells, Cultured
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