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1 ion tissue with early fibrous encapsulation (pannus).
2 ents with 39 MDCT masses (22 thrombus and 17 pannus).
3 ected as tissue overgrowth was classified as pannus.
4 le patient showed a subepithelial, avascular pannus.
5 ns the aggressive phenotype of the advancing pannus.
6 he rheumatoid arthritis (RA) synovial tissue pannus.
7 l blood and accumulated in inflamed synovial pannus.
8 e suppression of the angiogenic component of pannus.
9 ght play a role in neovascularization of the pannus.
10 while FLIP remained highly expressed in the pannus.
11 ue and to the growth and proliferation of RA pannus.
12 ation found in the rheumatoid arthritic (RA) pannus.
13 r the chondrocytic cells found in rheumatoid pannus.
14 res of vascularity, villous hypertrophy, and pannus.
15 expanding inflammatory tissue referred to as pannus.
19 Although immune cells, which infiltrate the pannus and promote inflammation, play a prominent role i
20 l and subclinical inflammation, formation of pannus and synovial hyperplasia, and the erosion of cart
21 synovitis characterized by the formation of pannus and the destruction of cartilage and bone in the
23 tomography (MDCT) in distinguishing between pannus and thrombus, the latter amenable to thrombolysis
24 y, resulting in a dense vascularized corneal pannus, and eventually leading to visual impairment.
25 ich contributes to the formation of invasive pannus, and in neutrophil survival, which affects inflam
26 ation; failed: recurrent epithelial defects, pannus, and inflammation), phenotype of cells covering t
27 gnificant reduction in synovial hyperplasia, pannus, angiogenesis, inflammatory infiltration, bone an
30 nts showed that C3 deposition, inflammation, pannus, cartilage, and bone damage scores were all signi
34 g cells and fibroblast-like cells within the pannus expressed both PTHrP and the PTH/PTHrP receptor,
35 nts in TSG-6-treated animals revealed little pannus formation and cartilage erosion, features which w
37 parameters that differentiate thrombus from pannus formation as the etiology of obstructed mechanica
39 in the rampant fibroblast proliferation and pannus formation characteristic of rheumatoid arthritis.
40 ical prosthetic valve can help differentiate pannus formation from thrombus and may therefore be of v
43 rophy and hyperplasia, and highly aggressive pannus formation with erosion of the articular cartilage
45 reduced the inflammatory cell infiltration, pannus formation, and bone and cartilage degradation.
48 e, inflammatory cell infiltration, fibrosis, pannus formation, and bone erosion in joints of BLT1/BLT
50 and bone erosions, synovial hyperplasia, and pannus formation, and reduced numbers of vessels (angiog
51 ptosis, proinflammatory cytokine expression, pannus formation, bone erosion, joint swelling, and pain
52 eases in the inflammatory cell infiltration, pannus formation, cartilage and bone destruction, and th
55 -induced arthritis (CIA) is characterized by pannus formation, cell infiltration, and cartilage erosi
56 eficient mice revealed synovial hyperplasia, pannus formation, mononuclear cell infiltration, bone er
62 Features of vascularity, villous formation, pannus, granularity, and capillary hyperemia were record
66 The cause of mechanical AVR obstruction was pannus in 26 cases (53%), mismatch (P-PM) in 19 (39%) an
70 d arthritis (RA) is invasion of the synovial pannus into cartilage, and this process requires degrada
73 ike synoviocyte (FLS), has a central role in pannus invasion and destruction of cartilage and bone in
74 tilage may be one of the factors that impede pannus invasion following an inflammatory insult to the
79 damage at sites adjacent to and distal from pannus invasion, and tartrate-resistant acid phosphatase
80 rophils, destruction of articular cartilage, pannus invasion, bone resorption, extra-articular fibrop
85 ive to new blood vessel formation, and hence pannus mass, adding to other therapeutic effects of anti
88 n the pathogenic processes that arise in the pannus of rheumatoid arthritis and also interfere with c
89 ntation, pump surfaces become covered with a pannus of smooth muscle-like cells (myofibroblasts).
92 iography in detecting the obstruction cause (pannus or thrombus), bioprosthesis calcifications, and e
93 rosion, bone erosion, and fibroproliferative pannus) or frozen, cryosectioned, and assayed for enzyme
97 age of origin of the entire conjunctivalized pannus removed from eight corneas with a diagnosis of to
98 er of neutrophils in the synovial lining and pannus significantly decreased from day 28 to day 35, su
100 thelial outgrowth from segments of five such pannus specimens were analyzed by Western blot and rever
104 f extracellular matrix (ECM) proteins in the pannus suggest that intracellular signals generated thro
106 ce studies showed that, aside from the joint pannus, the subchondral bone tissue constitutes an essen
109 The resultant epithelial phenotype of the pannus tissue was not corneal, as evidenced by the negat
110 mity to MNCs, and in occasional cells within pannus tissue, but not in the MNCs in bone resorption la
112 e 6 historical controls that developed LSCD, pannus was noted in 1 (13%) and pseudopterygium extendin
113 sion and localization of MT1-MMP in human RA pannus were investigated by Western blot analysis of pri
115 ke expansion of inflamed synovial tissue, or pannus, which causes much of the joint damage in this di
116 for example, underlies the formation of the pannus, while proliferation of endothelial cells results
117 ignificant findings included the presence of pannus without inflammatory changes in the regions in wh
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