Veli‐Matti Tiainen scite author profile

Toll-like receptors (TLRs) have been known to act as sensors of innate immunity and respond to ligands of microbial and endogenous components. Tissues and cells typical for interface membrane of foreign body reaction were analyzed to evaluate potential role of TLRs in the pathogenesis of the so called "aseptic loosening of total hip replacement." Fourteen cases of interface membrane around aseptic loose total hip replacement implants were stained by single and double immunohistochemical methods to examine cellular localization of toll-like receptor (TLR)-4 and TLR-9. Osteoarthritic synovium was used as control tissues. Cultured macrophages were used to study TLR-4 and TLR-9 mRNA levels by quantitative reverse transcriptase-polymerase chain reaction. The effect of titanium particle stimulation on macrophages was also examined in the culture. Extensive immunolocalization of TLR-4 and TLR-9 positive cells was observed in the synovial membrane-like interface membrane of foreign body granulomas compared with control synovial membranes. TLR and CD68 double staining demonstrated that the TLR positive cells in aseptic loosening were mostly monocyte/macrophages and foreign body giant cells. TLR-4 and TLR-9 mRNA expression was also found in macrophage-colony stimulating factor treated rat macrophages, but this expression decreased (p < 0.05 or less) upon stimulation with titanium particles although matrix metalloproteinase (MMP)-9 mRNA levels used as macrophage activation marker were increased (p = 0.01). The interface membrane around loosening total hip replacement implants is apparently well equipped with TLRs and, thus, probably very sensitive to various structural components of microbes and to endogenous TLR ligands. This seems to be due to recruitment of monocyte/macrophages as particles per se seemed to down-regulate some of the key TLRs. This suppression after particle phagocytosis might prevent excessive and harmful host responses, and injury to innocent bystander cells/tissues.

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Amorphous carbon as a bio-mechanical coating — mechanical properties and biological applications

Tiainen

2001

227

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Poly(dimethylsiloxane) electrospray devices fabricated with diamond-like carbon–poly(dimethylsiloxane) coated SU-8 masters

Huikko

Östman

Grigoras³

et al. 2003

Lab Chip

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This study presents coupling of a poly(dimethylsiloxane) (PDMS) micro-chip with electrospray ionization-mass spectrometry (ESI-MS). Stable electrospray is generated directly from a PDMS micro-channel without pressure assistance. Hydrophobic PDMS aids the formation of a small Taylor cone in the ESI process and facilitates straightforward and low-cost batch production of the ESI-MS chips. PDMS chips were replicated with masters fabricated from SU-8 negative photoresist. A novel coating, an amorphous diamond-like carbon-poly(dimethylsiloxane) hybrid, deposited on the masters by the filtered pulsed plasma arc discharge technique, improved significantly the lifetime of the masters in PDMS replications. PDMS chip fabrication conditions were observed to affect the amount of background peaks in the MS spectra. With an optimized fabrication process (PDMS curing agent/silicone elastomer base ratio of 1/8 (w/w), curing at 70 degree C for 48 h) low background spectra were recorded for the analytes. The performance of PDMS devices was examined in the ESI-MS analysis of some pharmaceutical compounds and amino acids.

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Superior attachment of high‐quality hydrogen‐free amorphous diamond films to solid materials

et al. 1997

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Communications in the electrical characteristic as a lowering of the onset for current injection in the double-layer device, as shown in Figure 3. This reduced barrier height also has important implications as regards device efficiency. Hole injection is enhanced in the double-layer LED due to the lower barrier height, which concomitantly perturbs the balance of double-charge injection. As noted in the caption of Figure 3, this is consistent with the observed substantial decrease in the efficiency of the double-layer device.In conclusion, in this work we elucidated the source of electroluminescence from a single-layer blue organic LED based on the carbazole dimer (Cz-eth~l)~. Confined intradimer luminescence excitations and a balanced doublecharge injection resulted in a device with good luminance and modest external quantum efficiencies that will potentially have an impact on applications where blue LEDs are required. Received[l] a) For our plasma-beam-deposited films we use the short and illustrative term amorphous diamond, a-D, instead of tetrahedral amorphous carbon, ta-C, referring to only one possible structure of amorphous carbon with a high sp3-fraction. This type of coating has been produced with mass-selected ion beams, filtered cathodic vacuum arc, and by the laser ablation of graphite. DL.C is a common term for coatings Adv Mater 1997, 9, No. 15

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