scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1000962840 |
P356 | DOI | 10.1038/SREP26207 |
P2888 | exact match | https://scigraph.springernature.com/pub.10.1038/srep26207 |
P932 | PMC publication ID | 4870632 |
P698 | PubMed publication ID | 27188492 |
P50 | author | Akash Bachhuka | Q85544050 |
Kerrilyn R Diener | Q88117413 | ||
John D. Hayball | Q42068421 | ||
Krasimir Vasilev | Q61865687 | ||
P2093 | author name string | Susan Christo | |
P2860 | cites work | The inflammasome: a molecular platform triggering activation of inflammatory caspases and processing of proIL-beta | Q24305136 |
Compensatory response of IL-1 gene knockout mice after pulmonary infection with Klebsiella pneumoniae | Q62735810 | ||
Influence of biomaterial surface chemistry on the apoptosis of adherent cells | Q73712930 | ||
Systematic study of osteoblast and fibroblast response to roughness by means of surface-morphology gradients | Q79715067 | ||
Fibronectin adsorption on tantalum: the influence of nanoroughness | Q81482331 | ||
Orthopedic wear debris mediated inflammatory osteolysis is mediated in part by NALP3 inflammasome activation | Q84898361 | ||
Innate immune activation through Nalp3 inflammasome sensing of asbestos and silica | Q24649598 | ||
Inflammasome components ASC and AIM2 modulate the acute phase of biomaterial implant-induced foreign body responses | Q28386479 | ||
The CXCR1/2 ligand NAP-2 promotes directed intravascular leukocyte migration through platelet thrombi | Q28513807 | ||
The inflammasomes: guardians of the body | Q29618003 | ||
Oxidized mitochondrial DNA activates the NLRP3 inflammasome during apoptosis | Q29619852 | ||
Adsorption and diffusion of plasma proteins on hydrophilic and hydrophobic surfaces: effect of trifluoroethanol on protein structure. | Q30380103 | ||
Increasing both CoCrMo-alloy particle size and surface irregularity induces increased macrophage inflammasome activation in vitro potentially through lysosomal destabilization mechanisms | Q33637463 | ||
Effects of nanoporous alumina on inflammatory cell response | Q33686400 | ||
Characterization of topographical effects on macrophage behavior in a foreign body response model | Q33721768 | ||
Nanotechnological strategies for engineering complex tissues | Q33760912 | ||
Nanoporosity of alumina surfaces induces different patterns of activation in adhering monocytes/macrophages | Q33793193 | ||
In vitro and in vivo evaluation of the inflammatory response to nanoscale grooved substrates. | Q33942872 | ||
Induction of inflammasome-dependent pyroptosis by carbon black nanoparticles | Q35065280 | ||
Inflammasome components Asc and caspase-1 mediate biomaterial-induced inflammation and foreign body response | Q35647635 | ||
Critical Role for the DNA Sensor AIM2 in Stem Cell Proliferation and Cancer | Q35815863 | ||
Biomaterials: where we have been and where we are going | Q35837578 | ||
Inflammasome-independent role of AIM2 in suppressing colon tumorigenesis via DNA-PK and Akt | Q35929017 | ||
Control of growth and inflammatory response of macrophages and foam cells with nanotopography | Q36427235 | ||
Phenotypic dichotomies in the foreign body reaction | Q36470642 | ||
Foreign body reaction to biomaterials | Q36575306 | ||
Receptor-independent, direct membrane binding leads to cell-surface lipid sorting and Syk kinase activation in dendritic cells | Q37097777 | ||
Impact of order and disorder in RGD nanopatterns on cell adhesion | Q37159370 | ||
Mediators of the inflammatory response to joint replacement devices | Q37926910 | ||
TiO2 nanotubes for bone regeneration | Q37994372 | ||
Cells preferentially grow on rough substrates | Q39679325 | ||
Guidance and activation of murine macrophages by nanometric scale topography | Q41216699 | ||
Surface chemistry modulates focal adhesion composition and signaling through changes in integrin binding | Q42828339 | ||
Surface chemistry modulates fibronectin conformation and directs integrin binding and specificity to control cell adhesion | Q44531149 | ||
In vitro inflammatory response of nanostructured titania, silicon oxide, and polycaprolactone. | Q46479230 | ||
Decreased macrophage density on carbon nanotube patterns on polycarbonate urethane | Q46728952 | ||
Inflammasome formation and IL-1β release by human blood monocytes in response to silver nanoparticles. | Q48449169 | ||
Quantitative assessment of the response of primary derived human osteoblasts and macrophages to a range of nanotopography surfaces in a single culture model in vitro. | Q51815562 | ||
A study of the nucleation and growth processes in the synthesis of colloidal gold | Q56443623 | ||
Activation of the inflammasome by amorphous silica and TiO2nanoparticles in murine dendritic cells | Q57258422 | ||
Amino-Functionalized Polystyrene Nanoparticles Activate the NLRP3 Inflammasome in Human Macrophages | Q57947107 | ||
pH-tunable gradients of wettability and surface potential | Q59209999 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | inflammasome complex | Q412405 |
P304 | page(s) | 26207 | |
P577 | publication date | 2016-05-18 | |
P1433 | published in | Scientific Reports | Q2261792 |
P1476 | title | The contribution of inflammasome components on macrophage response to surface nanotopography and chemistry | |
P478 | volume | 6 |
Q58105862 | A spike in inflammation |
Q42621217 | Exploratory Testing of Diatom Silica to Map the Role of Material Attributes on Cell Fate. |
Q92733890 | Field Deployable Method for Gold Detection Using Gold Pre-Concentration on Functionalized Surfaces |
Q47344020 | Nanotopography-based strategy for the precise manipulation of osteoimmunomodulation in bone regeneration. |
Q60917336 | Perspective on Plasma Polymers for Applied Biomaterials Nanoengineering and the Recent Rise of Oxazolines |
Q51571232 | The Influence of Radiotherapy on AIM2 Inflammasome in Radiation Pneumonitis. |
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