Endosomal damage and TLR2 mediated inflammasome activation by alkane particles in the generation of aseptic osteolysis. - Wikidata - awgldk - TriplyDB

Endosomal damage and TLR2 mediated inflammasome activation by alkane particles in the generation of aseptic osteolysis.

Endosomal damage and TLR2 mediated inflammasome activation by alkane particles in the generation of aseptic osteolysis.

http://www.wikidata.org/entity/Q42695914

about

A review of UHMWPE wear-induced osteolysis: the role for early detection of the immune response.Molecular Characterization of Macrophage-Biomaterial Interactions Innate Immunity and Biomaterials at the Nexus: Friends or Foes Particle disease: biologic mechanisms of periprosthetic osteolysis in total hip arthroplasty.Central roles of NLRs and inflammasomes in viral infection The inflammasome NLRs in immunity, inflammation, and associated diseases Increasing both CoCrMo-alloy particle size and surface irregularity induces increased macrophage inflammasome activation in vitro potentially through lysosomal destabilization mechanisms The pathology of orthopedic implant failure is mediated by innate immune system cytokines.TLR2/MyD88/NF-κB pathway, reactive oxygen species, potassium efflux activates NLRP3/ASC inflammasome during respiratory syncytial virus infection Bacterial pathogen-associated molecular patterns stimulate biological activity of orthopaedic wear particles by activating cognate Toll-like receptors Do tissues from THA revision of highly crosslinked UHMWPE liners contain wear debris and associated inflammation?Innate immunity sensors participating in pathophysiology of joint diseases: a brief overview.Do genetic susceptibility, Toll-like receptors, and pathogen-associated molecular patterns modulate the effects of wear?Lysine392, a K63-linked ubiquitination site in NEMO, mediates inflammatory osteoclastogenesis and osteolysis Role of polyethylene particles in peri-prosthetic osteolysis: A review.The annexin A2/S100A10 system in health and disease: emerging paradigms Macrophages-Key cells in the response to wear debris from joint replacements.Allergy or tolerance: reduced inflammatory cytokine response and concomitant IL-10 production of lymphocytes and monocytes in symptom-free titanium dental implant patients Annexin A2 system in human biology: cell surface and beyond.The role of the NLRP3 inflammasome in gout.The role of TLR and chemokine in wear particle-induced aseptic loosening.Chronic inflammation in biomaterial-induced periprosthetic osteolysis: NF-κB as a therapeutic target.Toll-like receptors-2 and 4 are overexpressed in an experimental model of particle-induced osteolysis.The biological response to orthopedic implants for joint replacement. II: Polyethylene, ceramics, PMMA, and the foreign body reaction.Myxoma virus lacking the pyrin-like protein M013 is sensed in human myeloid cells by both NLRP3 and multiple Toll-like receptors, which independently activate the inflammasome and NF-κB innate response pathways.Activation of innate immunity by lysozyme fibrils is critically dependent on cross-β sheet structure.Annexin A2 binds to endosomes following organelle destabilization by particulate wear debris.Joint replacement surgery and the innate immune system.Inflammatory osteolysis: a conspiracy against bone.Innate immune response and implant loosening: Interferon gamma is inversely associated with early migration of total knee prostheses.Role of macrophages in the biological reaction to wear debris from joint replacements.Macrophage polarization and activation in response to implant debris: influence by "particle disease" and "ion disease"Polyethylene wear particles induce TLR 2 upregulation in the synovial layer of mice.Cross-linked ultra-high-molecular weight polyethylene liner and ceramic femoral head in total hip arthroplasty: a prospective study at 5 years follow-up.Lipoteichoic acid modulates inflammatory response in macrophages after phagocytosis of titanium particles through Toll-like receptor 2 cascade and inflammasomes.Danger of frustrated sensors: Role of Toll-like receptors and NOD-like receptors in aseptic and septic inflammations around total hip replacements.The degree of peri-implant osteolysis induced by PEEK, CoCrMo, and HXLPE wear particles: a study based on a porous Ti6Al4V implant in a rabbit model.BMP-7 ameliorates cobalt alloy particle-induced inflammation by suppressing Th17 responses.Pro-osteoclastic in vitro effect of Polyethylene-like nanoparticles: Involvement in the pathogenesis of implant aseptic loosening.

P2860

Q26741081-5917D189-EA7A-4882-8688-9275C7A33A48 Q26797412-9CCB880F-F72E-4E40-8AA1-A6B82825E5A0 Q26801604-F2EA60B4-BACC-4BB6-8C2E-8EAD03853B67 Q27690787-FF3662F0-041F-4F79-BE3C-D10DF0CDEFE0 Q28395291-02EB5913-314A-4EC2-BA1C-8BEEF55E5F3A Q29616025-530739FF-0283-4298-BF6F-47C40937D2C0 Q33637463-110B04A8-88F8-4A3C-AB46-A0E18A2A83A3 Q33661755-B807A690-4B26-44E8-878D-DE7861426566 Q34147516-CD8411BB-BCB5-4414-ABB5-E47C6F40801B Q34186542-EFC70A76-25CB-4595-9628-AFB3ACD6D5DE Q35078832-50923A02-D4C4-4249-9533-F8AF5D6DF52A Q35206138-9BFBA717-061C-409A-842A-1A1FF6366A54 Q35425921-4D451590-E915-4E53-B175-C6058CF32CE9 Q35737634-7108BC02-91FD-4B82-B169-3A333A3BCEF1 Q35825373-D2583E01-AE27-46B7-A356-0FA9089CF26F Q36395285-F7FB8011-8114-44B2-A78A-FCEE43316EE0 Q37179242-808ACD0C-9F40-4D65-B716-794ABDFBA105 Q37199846-B2BF5F45-D7D6-4090-B99C-F1F06AF6B09C Q37406212-82D799B6-3ECA-4E24-B017-42084D82A6AB Q37957867-D6A2F1BF-C515-407D-8181-F978EE62BBAD Q38063499-5E6040FB-519E-4A42-BB92-CFCED21802D1 Q38148877-38A0DAFB-DE01-42A6-A805-50F589F7912C Q38586199-25E9C0C3-5B6E-4AA3-A70F-049DC79BA8CB Q38808883-5CB233D4-50F3-4FBF-A168-A016E03DFC38 Q38961205-2896709D-EE53-4CFA-8CDB-7AFC0DFDA032 Q39207798-6F3C8D83-D50A-4AE9-9DB5-2660D3783FEF Q39236586-11E0D91B-3E29-4808-B7F6-7ECE87E7870E Q39287361-F5BE326E-3546-47F7-A70E-B5DEBF6A3921 Q39343563-DA9E0279-45A3-42A0-8322-04B8E651F7B7 Q40694460-7F9A9B2C-03D2-43C2-B018-7FB196DBE45F Q42109325-613F3A87-63F1-4037-B71B-55E612375E3D Q42696291-2C4C5802-4FC6-43CD-8FDF-F0D877626AED Q43512523-644EC17E-20A5-45BE-897F-AD0DF58A1F78 Q44849783-9CC10894-1407-4794-B7CB-5870CBB3D148 Q46004704-CC3BDD83-1755-42EC-B6B4-1B74CD6E07C1 Q47146788-98BEBA1D-05DC-4AE0-B4E6-54ABA5523054 Q47547731-E3EF37E0-B1A9-44ED-A2D2-2488D1884449 Q47818315-F856BBD2-C838-4B5A-81B6-CEAD9B91EF41 Q51307098-FFC4C21F-B2AE-4488-95D9-8D7E62BF2AF3

P2860

Endosomal damage and TLR2 mediated inflammasome activation by alkane particles in the generation of aseptic osteolysis.

http://www.wikidata.org/entity/Q42695914

description

2009 nî lūn-bûn

@nan

2009年の論文

@ja

2009年論文

@yue

2009年論文

@zh-hant

2009年論文

@zh-hk

2009年論文

@zh-mo

2009年論文

@zh-tw

2009年论文

@wuu

2009年论文

@zh

2009年论文

@zh-cn

name

Endosomal damage and TLR2 medi ...... eration of aseptic osteolysis.

@en

Endosomal damage and TLR2 medi ...... eration of aseptic osteolysis.

@nl

type

label

Endosomal damage and TLR2 medi ...... eration of aseptic osteolysis.

@en

Endosomal damage and TLR2 medi ...... eration of aseptic osteolysis.

@nl

prefLabel

Endosomal damage and TLR2 medi ...... eration of aseptic osteolysis.

@en

Endosomal damage and TLR2 medi ...... eration of aseptic osteolysis.

@nl

P1433

Q42695914-1668B2DD-7588-41C6-A2DF-90EE77FD9182

P1476

Q42695914-A8C8F004-5AA8-46A5-9CB7-C28DFFAD6A64

P2093

Q42695914-1BB08D26-BE29-4544-AFB0-BAF18025DD10

Q42695914-2A4655F7-E741-4B5C-B1E9-CEABE5F7EC6C

Q42695914-745564E0-C1C5-4F48-BE9B-D24E9417F847

Q42695914-80C1654F-A5AC-420B-ACD4-550803DDD270

Q42695914-80EE4B01-F6EF-48E0-B43A-92A8D393A037

Q42695914-A2536745-E711-494D-AEA2-A417BCEC9B3D

Q42695914-C9BBF14A-4033-4525-AD54-887949E78EFA

Q42695914-E4C11F96-DD0A-4D07-9F85-2C88CDD0CED1

P2860

Q42695914-03E87E34-D259-438D-BFE6-6B5CA6A7D2F9

Q42695914-0A7BC835-7CC0-4FF2-AD53-42CE9378B9F6

Q42695914-0BD36605-8488-44A6-9CA4-213F4219475F

Q42695914-14A5C87A-F5DB-4307-BE2E-340D1FE15536

Q42695914-1C6AA980-779C-49B2-936D-B1D77FF54673

Q42695914-2382404D-AC29-4EC4-9C92-0335B6966820

Q42695914-2EC51A4B-547C-4364-8E43-C05C452FAC3A

Q42695914-34ACDC6F-8A0B-4062-8A30-74BDD70B72A8

Q42695914-3E310694-35B6-47CB-84EA-8D4C2A3B2A9D

Q42695914-4963560F-1210-4C7A-B3FC-539F542F2321

P304

Q42695914-86FC014F-12DC-41D6-AFEE-9DB3A79F12F7

P31

Q42695914-7BA28574-2489-4B1B-A1EE-0723067EFB8D

P356

Q42695914-AA564C98-7DFE-4CC8-9CFB-9459F135586C

P433

Q42695914-A6815A49-5726-4A34-8896-1DAEF5AD9EAE

P478

Q42695914-286C4504-015C-42FF-9023-6996F846F7CC

P50

Q42695914-08CAF805-DC3C-4BA6-9312-12C591E3C19D

P577

Q42695914-D723BA09-3447-4513-A93E-93C79D75EB8A

P5875

Q42695914-BA5A5A7E-D368-4BA5-8EDD-22B07A996B3F

P698

Q42695914-E228ADA7-AACB-46AA-96C6-4F2139F6D1DA

P921

Q42695914-6E0E7267-DC97-4853-B4B1-906D95290E30

Q42695914-B25B23F5-E29E-49C7-A75C-D12B415A8529

P932

Q42695914-51784E53-9B7B-43FD-B1BB-C12D1931524B

P356

J.MOLIMM.2009.09.023

P1433

Molecular Immunology

P1476

Endosomal damage and TLR2 medi ...... eration of aseptic osteolysis.

@en

P2093

Brian Scharf

http://www.w3.org/2001/XMLSchema#string

Cristina C Clement

http://www.w3.org/2001/XMLSchema#string

Daniel Paget

http://www.w3.org/2001/XMLSchema#string

Giovanna M Crisi

http://www.w3.org/2001/XMLSchema#string

Neil Cobelli

http://www.w3.org/2001/XMLSchema#string

P Edward Purdue

http://www.w3.org/2001/XMLSchema#string

Radhashree Maitra

http://www.w3.org/2001/XMLSchema#string

Sriram Chitta

http://www.w3.org/2001/XMLSchema#string

P2860

Silica crystals and aluminum salts activate the NALP3 inflammasome through phagosomal destabilization

The dendritic cell-specific transmembrane protein DC-STAMP is essential for osteoclast fusion and osteoclast bone-resorbing activity

Immunogenecity of modified alkane polymers is mediated through TLR1/2 activation.

Wear particulate and osteolysis.

Cross-linked compared with historical polyethylene in THA: an 8-year clinical study

Association between UHMWPE particle-induced inflammatory osteoclastogenesis and expression of RANKL, VEGF, and Flt-1 in vivo.

Analysis of released products from oxidized ultra-high molecular weight polyethylene incubated with hydrogen peroxide and salt solutions.

Proinflammatory mediator release in response to particle challenge: studies using the bone harvest chamber.

Noninvasive optical imaging of cysteine protease activity using fluorescently quenched activity-based probes.

Adhesion performance of UHMWPE after different surface modification techniques.

P304

175-184

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1016/J.MOLIMM.2009.09.023

http://www.w3.org/2001/XMLSchema#string

P433

2-3

http://www.w3.org/2001/XMLSchema#string

P478

47

http://www.w3.org/2001/XMLSchema#string

P50

Laura Santambrogio

P577

2009-10-04T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

26871086

http://www.w3.org/2001/XMLSchema#string

P698

19804908

http://www.w3.org/2001/XMLSchema#string

P921

Toll-like receptor

P932

2787895

http://www.w3.org/2001/XMLSchema#string