SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2598088811> ?p ?o ?g. }

Showing items 1 to 100 of ±175 with 100 items per page.

W2598088811 endingPage "3376" @default.
W2598088811 startingPage "3364" @default.
W2598088811 abstract "The monocyte/macrophage system plays an essential role in the host response and the fate of endosseous implanted materials. Macrophage behavior was thought to be regulated by nanostructured titanium which has been considered as a very promising candidate for dental implants. However, there is little known for subsequent effects of these activated macrophages on osteogenesis and angiogenesis which were essential for bone integration. Here we presented two different dimensions of titanium nanotubes generated by anodic oxidation at 10 V (NT 10) and 20 V (NT 20), respectively. The behavior of macrophages on the surfaces was evaluated, and their conditioned medium (CM) was collected to stimulate MC3T3 and HUVECs, with commercially pure titanium (cp Ti) as control. We found that NT 20 induced macrophage activation similar to the anti-inflammatory M2 macrophage state with the enhanced expression of IL-10 and ARG, while NT 10 was associated with M1 macrophage phenotype characterized by high levels of IL-1β, iNOS and TNF-α. Furthermore, the osteogenic capacity of MC3T3 in CM from NT 20 was enhanced (NT 20 > NT 10 ≈ cp Ti) and the tube formation capacity of HUVECs was promoted in CM from nanotubular surfaces with increasing tube dimensions (NT 20 > NT 10 > cp Ti). Our data suggest that dental implants with the large nanotube dimension surface could result in a favorable osteoimmunomodulatory microenvironment for the establishment of osseointegration." @default.
W2598088811 created "2017-04-07" @default.
W2598088811 creator A5001557554 @default.
W2598088811 creator A5006533811 @default.
W2598088811 creator A5007403485 @default.
W2598088811 creator A5022594818 @default.
W2598088811 creator A5062307152 @default.
W2598088811 creator A5071830919 @default.
W2598088811 creator A5075877965 @default.
W2598088811 creator A5083718211 @default.
W2598088811 creator A5090619670 @default.
W2598088811 date "2017-01-01" @default.
W2598088811 modified "2023-10-15" @default.
W2598088811 title "M2 macrophages contribute to osteogenesis and angiogenesis on nanotubular TiO<sub>2</sub> surfaces" @default.
W2598088811 cites W1715887499 @default.
W2598088811 cites W1791734915 @default.
W2598088811 cites W1797422316 @default.
W2598088811 cites W1859923649 @default.
W2598088811 cites W1905242869 @default.
W2598088811 cites W1966297809 @default.
W2598088811 cites W1972957146 @default.
W2598088811 cites W1975810455 @default.
W2598088811 cites W1982912398 @default.
W2598088811 cites W1983271466 @default.
W2598088811 cites W1986463072 @default.
W2598088811 cites W1987977102 @default.
W2598088811 cites W1990998602 @default.
W2598088811 cites W1995063875 @default.
W2598088811 cites W1996852610 @default.
W2598088811 cites W2000449488 @default.
W2598088811 cites W2003433953 @default.
W2598088811 cites W2005651032 @default.
W2598088811 cites W2006862200 @default.
W2598088811 cites W2010278203 @default.
W2598088811 cites W2010646643 @default.
W2598088811 cites W2024616045 @default.
W2598088811 cites W2029429418 @default.
W2598088811 cites W2031041031 @default.
W2598088811 cites W2032918292 @default.
W2598088811 cites W2033016180 @default.
W2598088811 cites W2033423153 @default.
W2598088811 cites W2036087708 @default.
W2598088811 cites W2038846800 @default.
W2598088811 cites W2053058794 @default.
W2598088811 cites W2054472394 @default.
W2598088811 cites W2056336363 @default.
W2598088811 cites W2057445229 @default.
W2598088811 cites W2063063715 @default.
W2598088811 cites W2064434771 @default.
W2598088811 cites W2077920773 @default.
W2598088811 cites W2085701716 @default.
W2598088811 cites W2087363756 @default.
W2598088811 cites W2088358476 @default.
W2598088811 cites W2088379725 @default.
W2598088811 cites W2089254126 @default.
W2598088811 cites W2093312573 @default.
W2598088811 cites W2093705034 @default.
W2598088811 cites W2110304122 @default.
W2598088811 cites W2115112566 @default.
W2598088811 cites W2123114542 @default.
W2598088811 cites W2125366323 @default.
W2598088811 cites W2125562823 @default.
W2598088811 cites W2127236332 @default.
W2598088811 cites W2129286943 @default.
W2598088811 cites W2133457370 @default.
W2598088811 cites W2139237341 @default.
W2598088811 cites W2143183661 @default.
W2598088811 cites W2143892523 @default.
W2598088811 cites W2152209278 @default.
W2598088811 cites W2159314490 @default.
W2598088811 cites W2159442019 @default.
W2598088811 cites W2164076267 @default.
W2598088811 cites W2167815042 @default.
W2598088811 cites W2167830630 @default.
W2598088811 cites W2185873440 @default.
W2598088811 cites W2193505608 @default.
W2598088811 cites W2220524652 @default.
W2598088811 cites W2265962720 @default.
W2598088811 cites W2309945771 @default.
W2598088811 cites W2338968478 @default.
W2598088811 cites W2417958945 @default.
W2598088811 cites W2490141287 @default.
W2598088811 cites W2502130959 @default.
W2598088811 cites W2508174685 @default.
W2598088811 doi "https://doi.org/10.1039/c6tb03364d" @default.
W2598088811 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32264402" @default.
W2598088811 hasPublicationYear "2017" @default.
W2598088811 type Work @default.
W2598088811 sameAs 2598088811 @default.
W2598088811 citedByCount "53" @default.
W2598088811 countsByYear W25980888112017 @default.
W2598088811 countsByYear W25980888112018 @default.
W2598088811 countsByYear W25980888112019 @default.
W2598088811 countsByYear W25980888112020 @default.
W2598088811 countsByYear W25980888112021 @default.
W2598088811 countsByYear W25980888112022 @default.
W2598088811 countsByYear W25980888112023 @default.
W2598088811 crossrefType "journal-article" @default.